Your search keyword '"quartz crystal microbalance"' showing total 254 results

1. Growth and Characterization of ScGaN Thin Films Using DC Magnetron Sputtering

Author

Issa, Nseir and Issa, Nseir

Abstract

This diploma work explores the growth, characterization, and optimization of ScxGa1-xN thin films on sapphire and silicon substrates using direct current magnetron co-sputtering. The objective is to improve the crystalline quality of ScxGa1-xN to investigate its ferroelectric properties, driven by the growing demand for advanced information storage technologies. The research methodology involves refining the deposition system, calibration of substrate surface temperature, determination of growth rate, and conducting depositions with varying growth conditions. The investigation includes several series with varying Sc concentrations and interlayer configurations to assess their effect on crystalline quality. The first series examines the effect of varying Sc concentration (0% to 100%) relative to Ga concentration on sapphire substrates. The second series focuses on the growth of ScxGa1-xN films, with Sc concentrations from 10% to 50%, with inserting a TiN seed layer on sapphire. The TiN is acted as a bottom electrode and can reduce lattice mismatch between the film and substrate. To facilitate ferroelectric measurements, films of Sc0.05Ga0.95N, Sc0.25Ga0.75N and Sc0.37Ga0.63N, with a thickness of approximately 250 nm, were deposited with a pure Ti top electrode. Additional samples with a thinner 30 nm film and Ti top electrode were also produced for ferroelectric measurements. The third series includes a sapphire substrate with an AlN nucleation layer and a GaN buffer layer beneath the ScxGa1-xN film. The fourth series mirrors the third, substituting sapphire with HF-treated silicon (111). To determine the structural properties, these ScxGa1-xN films were characterized using scanning electron microscopy (SEM), energy-dispersive x-ray spectroscopy (EDX), and x-ray diffraction (XRD) for investigating morphology, composition, and crystallinity, respectively. Results from the first series demonstrated that increasing Sc concentration up to 24% doesn’t affect the crystal q

Published

2024

2. Growth and Characterization of ScGaN Thin Films Using DC Magnetron Sputtering

Author

Issa, Nseir and Issa, Nseir

Abstract

This diploma work explores the growth, characterization, and optimization of ScxGa1-xN thin films on sapphire and silicon substrates using direct current magnetron co-sputtering. The objective is to improve the crystalline quality of ScxGa1-xN to investigate its ferroelectric properties, driven by the growing demand for advanced information storage technologies. The research methodology involves refining the deposition system, calibration of substrate surface temperature, determination of growth rate, and conducting depositions with varying growth conditions. The investigation includes several series with varying Sc concentrations and interlayer configurations to assess their effect on crystalline quality. The first series examines the effect of varying Sc concentration (0% to 100%) relative to Ga concentration on sapphire substrates. The second series focuses on the growth of ScxGa1-xN films, with Sc concentrations from 10% to 50%, with inserting a TiN seed layer on sapphire. The TiN is acted as a bottom electrode and can reduce lattice mismatch between the film and substrate. To facilitate ferroelectric measurements, films of Sc0.05Ga0.95N, Sc0.25Ga0.75N and Sc0.37Ga0.63N, with a thickness of approximately 250 nm, were deposited with a pure Ti top electrode. Additional samples with a thinner 30 nm film and Ti top electrode were also produced for ferroelectric measurements. The third series includes a sapphire substrate with an AlN nucleation layer and a GaN buffer layer beneath the ScxGa1-xN film. The fourth series mirrors the third, substituting sapphire with HF-treated silicon (111). To determine the structural properties, these ScxGa1-xN films were characterized using scanning electron microscopy (SEM), energy-dispersive x-ray spectroscopy (EDX), and x-ray diffraction (XRD) for investigating morphology, composition, and crystallinity, respectively. Results from the first series demonstrated that increasing Sc concentration up to 24% doesn’t affect the crystal q

Published

2024

3. On-Surface Synthesis of Porosity-Controlled Molecularly Imprinted Polymeric Receptors for the Biotinyl Moiety

Author

Suriyanarayanan, Subramanian, Olsson, Gustaf D., Nicholls, Ian A., Suriyanarayanan, Subramanian, Olsson, Gustaf D., and Nicholls, Ian A.

Abstract

Controlled on-surface synthesis of polymer films using amide-based, environmentally friendly, nonionic deep eutectic solvents (ni-DESs) has been developed to regulate the porous features of the films. An appropriate combination of acetamide (A), urea (U), and their methyl derivatives (N-methylacetamide (NMA) and N-methylurea (NMU)) was used to prepare ni-DES. Polymer films were electrosynthesized using 4-aminobenzoic acid (4-ABA) and pyrrole as monomers in ni-DESs. We presumed that the flickering-cluster-like complexes and the extended H-bond networks in ni-DESs enhance the porosity of the polymer films, thus improving permeability features, as reflected in sensor performance. Electrosynthesized polymer films, imprinted with biotin templates (MIPs), have been tested as receptors for biotinylated targets. Molecular dynamics simulations of the prepolymerization mixture revealed the formed complexes between 4-ABA and biotin comprising high-frequency H-bonds. X-ray photoelectron spectroscopy (XPS) and reflection absorption infrared spectroscopy (RAIRS) studies revealed the structural integrity in the polymer films irrespective of the medium. Scanning electron microscopy (SEM) and electrochemical impedance spectroscopy (EIS) measurements showed a highly corrugated and porous nature for MIPA-U and MIPNMU-U when prepared in A-U and NMU-U ni-DESs. Atomic force microscope (AFM) studies support these observations, displaying an enhancement in the surface roughness from 1.44 nm (MIPaqueous) to 23.6 nm (MIPNMU-U). QCM analysis demonstrated a remarkable improvement in sensitivity of MIPA-U (17.99 +/- 0.72 Hz/mM) and MIPNMU-U (18.40 +/- 0.81 Hz/mM) films toward the biotin methyl ester (BtOMe, biotin derivative) than the MIPaqueous film. The chemosensor devised with the above MIP recognition films selectively recognized BtOMe (LOD = 12.5 ng/mL) and biotinylated biomolecules, as shown by the stability constant K-s values (MIPA-U = 1442 and MIPNMU-U = 1502 M-1). The porous network g

Published

2024

4. Identification of high-affinity phage-displayed VH fragments by use of a quartz crystal microbalance with dissipation monitoring

Author

Gómez-Arribas, Lidia N., Juste-Dolz, Augusto, Peltomaa, Riikka Johanna, Giménez-Romero, David, Morais, Sergi, Barderas, Rodrigo, Cuadrado, Carmen, Maquieira, Ángel, Benito Peña, María Elena, Moreno Bondi, María Cruz, Gómez-Arribas, Lidia N., Juste-Dolz, Augusto, Peltomaa, Riikka Johanna, Giménez-Romero, David, Morais, Sergi, Barderas, Rodrigo, Cuadrado, Carmen, Maquieira, Ángel, Benito Peña, María Elena, and Moreno Bondi, María Cruz

Abstract

Phage display has become a powerful tool for antibody discovery in a wide variety of fields. This technology allows specific binders for a given antigen to be selected from combinatorial libraries. A key step in the process is characterizing and evaluating antibody clones thus selected to reliably identify the best antigen binders. Novel characterization methods can provide essential insight into the binding mechanism and supplement the information obtained with conventional techniques. In this work, we used a quartz crystal microbalance with dissipation monitoring (QCM-D) to determine the kinetic and thermodynamic binding parameters for phage-displayed VH antibody fragments. Phytohemagglutinin (PHA), a legume lectin of analytical interest, was used as a complex model antigen to select specific VH fragments from a phage-displayed library. Eight VH fragments with a unique amino acid sequence were identified as PHA binders by using the well-established enzyme-linked immunosorbent assay (ELISA). QCM-D measurements, structural analysis and principal component analysis (PCA) were used to evaluate the antibody fragments and identify clone clusters with similar binding characteristics and molecular interaction mechanisms. This unprecedented study has enabled the identification of high-affinity phage-displayed VH antibody fragments for PHA, which could be useful for PHA analysis (apparent association constant ranged from 10e8 to 10e10 1/M). In fact, the proposed methodology provides a useful tool for evaluating and characterizing antibody fragments with capabilities beyond those of conventional techniques., European Regional Development Fund (ERDF), Depto. de Química Analítica, Fac. de Ciencias Químicas, TRUE, pub

Published

2024

5. Negligible risk of surface transmission of SARS-CoV-2 in public transportation

Author

Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, Vaisocherova-Lisalova, Hana, Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, and Vaisocherova-Lisalova, Hana

Abstract

Background: Exposure to pathogens in public transport systems is a common means of spreading infection, mainly by inhaling aerosol or droplets from infected individuals. Such particles also contaminate surfaces, creating a potential surface-transmission pathway. Methods: A fast acoustic biosensor with an antifouling nano-coating was introduced to detect severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) on exposed surfaces in the Prague Public Transport System. Samples were measured directly without pre-treatment. Results with the sensor gave excellent agreement with parallel quantitative reverse-transcription polymerase chain reaction (qRT-PCR) measurements on 482 surface samples taken from actively used trams, buses, metro trains and platforms between 7 and 9 April 2021, in the middle of the lineage Alpha SARS-CoV-2 epidemic wave when 1 in 240 people were COVID-19 positive in Prague. Results: Only ten of the 482 surface swabs produced positive results and none of them contained virus particles capable of replication, indicating that positive samples contained inactive virus particles and/or fragments. Measurements of the rate of decay of SARS-CoV-2 on frequently touched surface materials showed that the virus did not remain viable longer than 1-4 h. The rate of inactivation was the fastest on rubber handrails in metro escalators and the slowest on hard-plastic seats, window glasses and stainless-steel grab rails. As a result of this study, Prague Public Transport Systems revised their cleaning protocols and the lengths of parking times during the pandemic. Conclusions: Our findings suggest that surface transmission played no or negligible role in spreading SARS-CoV-2 in Prague. The results also demonstrate the potential of the new biosensor to serve as a complementary screening tool in epidemic monitoring and prognosis.

Published

2023

6. Tuneable interphase transitions in ionic liquid/carrier systems via voltage control

Author

Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, Rutland, Mark W., Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The structure and interaction of ionic liquids (ILs) influence their interfacial composition, and their arrangement (i.e., electric double-layer (EDL) structure), can be controlled by an electric field. Here, we employed a quartz crystal microbalance (QCM) to study the electrical response of two non-halogenated phosphonium orthoborate ILs, dissolved in a polar solvent at the interface. The response is influenced by the applied voltage, the structure of the ions, and the solvent polarizability. One IL showed anomalous electro-responsivity, suggesting a self -assembly bilayer structure of the IL cation at the gold interface, which transitions to a typical EDL structure at higher positive potential. Neutron reflectivity (NR) confirmed this interfacial structuring and compositional changes at the electrified gold surface. A cation-dominated self-assembly structure is observed for negative and neutral voltages, which abruptly transitions to an anion-rich interfacial layer at positive voltages. An interphase transition explains the electro-responsive behaviour of self-assembling IL/carrier systems, pertinent for ILs in advanced tribological and electrochemical contexts.

Published

2023

7. Quartz Crystal Microbalance Platform for SARS-CoV-2 Immuno-Diagnostics

Author

Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, Nicholls, Ian A., Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, and Nicholls, Ian A.

Abstract

Rapid and accurate serological analysis of SARS-CoV-2 antibodies is important for assessing immune protection from vaccination or infection of individuals and for projecting virus spread within a population. The quartz crystal microbalance (QCM) is a label-free flow-based sensor platform that offers an opportunity to detect the binding of a fluid-phase ligand to an immobilized target molecule in real time. A QCM-based assay was developed for the detection of SARS-CoV-2 antibody binding and evaluated for assay reproducibility. The assay was cross-compared to the Roche electrochemiluminescence assay (ECLIA) Elecsys (R) Anti-SARS-CoV-2 serology test kit and YHLO's chemiluminescence immunoassay (CLIA). The day-to-day reproducibility of the assay had a correlation of r(2) = 0.99, p < 0.001. The assay linearity was r(2) = 0.96, p < 0.001, for dilution in both serum and buffer. In the cross-comparison analysis of 119 human serum samples, 59 were positive in the Roche, 52 in the YHLO, and 48 in the QCM immunoassay. Despite differences in the detection method and antigen used for antibody capture, there was good coherence between the assays, 80-100% for positive and 96-100% for negative test results. In summation, the QCM-based SARS-CoV-2 IgG immunoassay showed high reproducibility and linearity, along with good coherence with the ELISA-based assays. Still, factors including antibody titer and antigen-binding affinity may differentially affect the various assays' responses.

Published

2023

8. Negligible risk of surface transmission of SARS-CoV-2 in public transportation

Author

Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, Vaisocherova-Lisalova, Hana, Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, and Vaisocherova-Lisalova, Hana

Abstract

Background: Exposure to pathogens in public transport systems is a common means of spreading infection, mainly by inhaling aerosol or droplets from infected individuals. Such particles also contaminate surfaces, creating a potential surface-transmission pathway. Methods: A fast acoustic biosensor with an antifouling nano-coating was introduced to detect severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) on exposed surfaces in the Prague Public Transport System. Samples were measured directly without pre-treatment. Results with the sensor gave excellent agreement with parallel quantitative reverse-transcription polymerase chain reaction (qRT-PCR) measurements on 482 surface samples taken from actively used trams, buses, metro trains and platforms between 7 and 9 April 2021, in the middle of the lineage Alpha SARS-CoV-2 epidemic wave when 1 in 240 people were COVID-19 positive in Prague. Results: Only ten of the 482 surface swabs produced positive results and none of them contained virus particles capable of replication, indicating that positive samples contained inactive virus particles and/or fragments. Measurements of the rate of decay of SARS-CoV-2 on frequently touched surface materials showed that the virus did not remain viable longer than 1-4 h. The rate of inactivation was the fastest on rubber handrails in metro escalators and the slowest on hard-plastic seats, window glasses and stainless-steel grab rails. As a result of this study, Prague Public Transport Systems revised their cleaning protocols and the lengths of parking times during the pandemic. Conclusions: Our findings suggest that surface transmission played no or negligible role in spreading SARS-CoV-2 in Prague. The results also demonstrate the potential of the new biosensor to serve as a complementary screening tool in epidemic monitoring and prognosis.

Published

2023

9. Tuneable interphase transitions in ionic liquid/carrier systems via voltage control

Author

Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, Rutland, Mark W., Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The structure and interaction of ionic liquids (ILs) influence their interfacial composition, and their arrangement (i.e., electric double-layer (EDL) structure), can be controlled by an electric field. Here, we employed a quartz crystal microbalance (QCM) to study the electrical response of two non-halogenated phosphonium orthoborate ILs, dissolved in a polar solvent at the interface. The response is influenced by the applied voltage, the structure of the ions, and the solvent polarizability. One IL showed anomalous electro-responsivity, suggesting a self -assembly bilayer structure of the IL cation at the gold interface, which transitions to a typical EDL structure at higher positive potential. Neutron reflectivity (NR) confirmed this interfacial structuring and compositional changes at the electrified gold surface. A cation-dominated self-assembly structure is observed for negative and neutral voltages, which abruptly transitions to an anion-rich interfacial layer at positive voltages. An interphase transition explains the electro-responsive behaviour of self-assembling IL/carrier systems, pertinent for ILs in advanced tribological and electrochemical contexts.

Published

2023

10. Negligible risk of surface transmission of SARS-CoV-2 in public transportation

Author

Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, Vaisocherova-Lisalova, Hana, Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, and Vaisocherova-Lisalova, Hana

Abstract

Background: Exposure to pathogens in public transport systems is a common means of spreading infection, mainly by inhaling aerosol or droplets from infected individuals. Such particles also contaminate surfaces, creating a potential surface-transmission pathway. Methods: A fast acoustic biosensor with an antifouling nano-coating was introduced to detect severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) on exposed surfaces in the Prague Public Transport System. Samples were measured directly without pre-treatment. Results with the sensor gave excellent agreement with parallel quantitative reverse-transcription polymerase chain reaction (qRT-PCR) measurements on 482 surface samples taken from actively used trams, buses, metro trains and platforms between 7 and 9 April 2021, in the middle of the lineage Alpha SARS-CoV-2 epidemic wave when 1 in 240 people were COVID-19 positive in Prague. Results: Only ten of the 482 surface swabs produced positive results and none of them contained virus particles capable of replication, indicating that positive samples contained inactive virus particles and/or fragments. Measurements of the rate of decay of SARS-CoV-2 on frequently touched surface materials showed that the virus did not remain viable longer than 1-4 h. The rate of inactivation was the fastest on rubber handrails in metro escalators and the slowest on hard-plastic seats, window glasses and stainless-steel grab rails. As a result of this study, Prague Public Transport Systems revised their cleaning protocols and the lengths of parking times during the pandemic. Conclusions: Our findings suggest that surface transmission played no or negligible role in spreading SARS-CoV-2 in Prague. The results also demonstrate the potential of the new biosensor to serve as a complementary screening tool in epidemic monitoring and prognosis.

Published

2023

11. Tuneable interphase transitions in ionic liquid/carrier systems via voltage control

Author

Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, Rutland, Mark W., Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The structure and interaction of ionic liquids (ILs) influence their interfacial composition, and their arrangement (i.e., electric double-layer (EDL) structure), can be controlled by an electric field. Here, we employed a quartz crystal microbalance (QCM) to study the electrical response of two non-halogenated phosphonium orthoborate ILs, dissolved in a polar solvent at the interface. The response is influenced by the applied voltage, the structure of the ions, and the solvent polarizability. One IL showed anomalous electro-responsivity, suggesting a self -assembly bilayer structure of the IL cation at the gold interface, which transitions to a typical EDL structure at higher positive potential. Neutron reflectivity (NR) confirmed this interfacial structuring and compositional changes at the electrified gold surface. A cation-dominated self-assembly structure is observed for negative and neutral voltages, which abruptly transitions to an anion-rich interfacial layer at positive voltages. An interphase transition explains the electro-responsive behaviour of self-assembling IL/carrier systems, pertinent for ILs in advanced tribological and electrochemical contexts.

Published

2023

12. Quartz Crystal Microbalance Platform for SARS-CoV-2 Immuno-Diagnostics

Author

Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, Nicholls, Ian A., Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, and Nicholls, Ian A.

Abstract

Rapid and accurate serological analysis of SARS-CoV-2 antibodies is important for assessing immune protection from vaccination or infection of individuals and for projecting virus spread within a population. The quartz crystal microbalance (QCM) is a label-free flow-based sensor platform that offers an opportunity to detect the binding of a fluid-phase ligand to an immobilized target molecule in real time. A QCM-based assay was developed for the detection of SARS-CoV-2 antibody binding and evaluated for assay reproducibility. The assay was cross-compared to the Roche electrochemiluminescence assay (ECLIA) Elecsys (R) Anti-SARS-CoV-2 serology test kit and YHLO's chemiluminescence immunoassay (CLIA). The day-to-day reproducibility of the assay had a correlation of r(2) = 0.99, p < 0.001. The assay linearity was r(2) = 0.96, p < 0.001, for dilution in both serum and buffer. In the cross-comparison analysis of 119 human serum samples, 59 were positive in the Roche, 52 in the YHLO, and 48 in the QCM immunoassay. Despite differences in the detection method and antigen used for antibody capture, there was good coherence between the assays, 80-100% for positive and 96-100% for negative test results. In summation, the QCM-based SARS-CoV-2 IgG immunoassay showed high reproducibility and linearity, along with good coherence with the ELISA-based assays. Still, factors including antibody titer and antigen-binding affinity may differentially affect the various assays' responses.

Published

2023

13. Negligible risk of surface transmission of SARS-CoV-2 in public transportation

Author

Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, Vaisocherova-Lisalova, Hana, Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, and Vaisocherova-Lisalova, Hana

Abstract

Background: Exposure to pathogens in public transport systems is a common means of spreading infection, mainly by inhaling aerosol or droplets from infected individuals. Such particles also contaminate surfaces, creating a potential surface-transmission pathway. Methods: A fast acoustic biosensor with an antifouling nano-coating was introduced to detect severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) on exposed surfaces in the Prague Public Transport System. Samples were measured directly without pre-treatment. Results with the sensor gave excellent agreement with parallel quantitative reverse-transcription polymerase chain reaction (qRT-PCR) measurements on 482 surface samples taken from actively used trams, buses, metro trains and platforms between 7 and 9 April 2021, in the middle of the lineage Alpha SARS-CoV-2 epidemic wave when 1 in 240 people were COVID-19 positive in Prague. Results: Only ten of the 482 surface swabs produced positive results and none of them contained virus particles capable of replication, indicating that positive samples contained inactive virus particles and/or fragments. Measurements of the rate of decay of SARS-CoV-2 on frequently touched surface materials showed that the virus did not remain viable longer than 1-4 h. The rate of inactivation was the fastest on rubber handrails in metro escalators and the slowest on hard-plastic seats, window glasses and stainless-steel grab rails. As a result of this study, Prague Public Transport Systems revised their cleaning protocols and the lengths of parking times during the pandemic. Conclusions: Our findings suggest that surface transmission played no or negligible role in spreading SARS-CoV-2 in Prague. The results also demonstrate the potential of the new biosensor to serve as a complementary screening tool in epidemic monitoring and prognosis.

Published

2023

14. Tuneable interphase transitions in ionic liquid/carrier systems via voltage control

Author

Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, Rutland, Mark W., Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The structure and interaction of ionic liquids (ILs) influence their interfacial composition, and their arrangement (i.e., electric double-layer (EDL) structure), can be controlled by an electric field. Here, we employed a quartz crystal microbalance (QCM) to study the electrical response of two non-halogenated phosphonium orthoborate ILs, dissolved in a polar solvent at the interface. The response is influenced by the applied voltage, the structure of the ions, and the solvent polarizability. One IL showed anomalous electro-responsivity, suggesting a self -assembly bilayer structure of the IL cation at the gold interface, which transitions to a typical EDL structure at higher positive potential. Neutron reflectivity (NR) confirmed this interfacial structuring and compositional changes at the electrified gold surface. A cation-dominated self-assembly structure is observed for negative and neutral voltages, which abruptly transitions to an anion-rich interfacial layer at positive voltages. An interphase transition explains the electro-responsive behaviour of self-assembling IL/carrier systems, pertinent for ILs in advanced tribological and electrochemical contexts.

Published

2023

15. Quartz Crystal Microbalance Platform for SARS-CoV-2 Immuno-Diagnostics

Author

Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, Nicholls, Ian A., Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, and Nicholls, Ian A.

Abstract

Rapid and accurate serological analysis of SARS-CoV-2 antibodies is important for assessing immune protection from vaccination or infection of individuals and for projecting virus spread within a population. The quartz crystal microbalance (QCM) is a label-free flow-based sensor platform that offers an opportunity to detect the binding of a fluid-phase ligand to an immobilized target molecule in real time. A QCM-based assay was developed for the detection of SARS-CoV-2 antibody binding and evaluated for assay reproducibility. The assay was cross-compared to the Roche electrochemiluminescence assay (ECLIA) Elecsys (R) Anti-SARS-CoV-2 serology test kit and YHLO's chemiluminescence immunoassay (CLIA). The day-to-day reproducibility of the assay had a correlation of r(2) = 0.99, p < 0.001. The assay linearity was r(2) = 0.96, p < 0.001, for dilution in both serum and buffer. In the cross-comparison analysis of 119 human serum samples, 59 were positive in the Roche, 52 in the YHLO, and 48 in the QCM immunoassay. Despite differences in the detection method and antigen used for antibody capture, there was good coherence between the assays, 80-100% for positive and 96-100% for negative test results. In summation, the QCM-based SARS-CoV-2 IgG immunoassay showed high reproducibility and linearity, along with good coherence with the ELISA-based assays. Still, factors including antibody titer and antigen-binding affinity may differentially affect the various assays' responses.

Published

2023

16. Real-time detection of the bacterial biofilm formation stages using QCM-based sensors

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Biomèdica, Universitat Politècnica de Catalunya. IS2- Sensors Intel·ligents i Sistemes Integrats, Salazar Soler, Jorge, Amer Boixareu, Miguel Ángel, Turó Peroy, Antonio, Castro, Nagore, Navarro Pons, Marc, Soto, Sara, Gabasa, Yaiza, López, Yuly, Chávez Domínguez, Juan Antonio, Universitat Politècnica de Catalunya. Departament d'Enginyeria Electrònica, Universitat Politècnica de Catalunya. Doctorat en Enginyeria Biomèdica, Universitat Politècnica de Catalunya. IS2- Sensors Intel·ligents i Sistemes Integrats, Salazar Soler, Jorge, Amer Boixareu, Miguel Ángel, Turó Peroy, Antonio, Castro, Nagore, Navarro Pons, Marc, Soto, Sara, Gabasa, Yaiza, López, Yuly, and Chávez Domínguez, Juan Antonio

Abstract

Bacterial biofilms are a major cause of harm related to medical infections and biofouling. Thus, 80% of total infections are caused by biofilm-forming microorganisms. Consequently, knowledge of biofilm formation stages is crucial to develop effective treatments to prevent their formation in medical implants, tools, and devices. For this purpose, quartz crystal microbalance (QCM) sensors are becoming a good alternative to analytical methods for the real-time monitoring of bacterial growth in liquid media culture. In a previous paper, the authors described an affordable multi-channel measurement instrument based on QCM sensors. However, in order to validate its correct operation, complementary experimental measurements based on bacterial biofilm growth were performed. In this work, the experimental measurements that allow the identification of the different biofilm formation stages are described. The results obtained are discussed., This research was funded by the Ministry of Science, Innovation of Spain under the project RTI2018-099938-B-I00., Peer Reviewed, Postprint (published version)

Published

2023

17. In-situ, real-time investigation of the formation of oxygen-containing rare-earth hydrides by combining a quartz crystal microbalance and ion beam analysis

Author

Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., Primetzhofer, Daniel, Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., and Primetzhofer, Daniel

Abstract

We present an in-situ and real-time investigation of the formation of YHO and GdHO thin films grown by reactive e(-)-beam evaporation. Mass changes were continuously monitored during deposition, oxidation, and illumination using a highly sensitive quartz crystal microbalance, while changes in chemical composition and depth profiles were investigated simultaneously by ion beam analysis. Results highlight the strong reactivity of freshly deposited YHx and GdHx films, even under ultra-high vacuum conditions. Oxidation starts at the surfaces of the films and the oxidation rate is strongly dependent on the O-2 pressure. The response of the system under ion beam irradiation and in-situ illumination is also presented and discussed. For the measured mass changes, a quantitative agreement better than 2% was observed between both techniques and demonstrates the consistency and sensitivity of this approach.

Published

2023

18. In-situ, real-time investigation of the formation of oxygen-containing rare-earth hydrides by combining a quartz crystal microbalance and ion beam analysis

Author

Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., Primetzhofer, Daniel, Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., and Primetzhofer, Daniel

Abstract

We present an in-situ and real-time investigation of the formation of YHO and GdHO thin films grown by reactive e(-)-beam evaporation. Mass changes were continuously monitored during deposition, oxidation, and illumination using a highly sensitive quartz crystal microbalance, while changes in chemical composition and depth profiles were investigated simultaneously by ion beam analysis. Results highlight the strong reactivity of freshly deposited YHx and GdHx films, even under ultra-high vacuum conditions. Oxidation starts at the surfaces of the films and the oxidation rate is strongly dependent on the O-2 pressure. The response of the system under ion beam irradiation and in-situ illumination is also presented and discussed. For the measured mass changes, a quantitative agreement better than 2% was observed between both techniques and demonstrates the consistency and sensitivity of this approach.

Published

2023

19. In-situ, real-time investigation of the formation of oxygen-containing rare-earth hydrides by combining a quartz crystal microbalance and ion beam analysis

Author

Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., Primetzhofer, Daniel, Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., and Primetzhofer, Daniel

Abstract

We present an in-situ and real-time investigation of the formation of YHO and GdHO thin films grown by reactive e(-)-beam evaporation. Mass changes were continuously monitored during deposition, oxidation, and illumination using a highly sensitive quartz crystal microbalance, while changes in chemical composition and depth profiles were investigated simultaneously by ion beam analysis. Results highlight the strong reactivity of freshly deposited YHx and GdHx films, even under ultra-high vacuum conditions. Oxidation starts at the surfaces of the films and the oxidation rate is strongly dependent on the O-2 pressure. The response of the system under ion beam irradiation and in-situ illumination is also presented and discussed. For the measured mass changes, a quantitative agreement better than 2% was observed between both techniques and demonstrates the consistency and sensitivity of this approach.

Published

2023

20. Tuneable interphase transitions in ionic liquid/carrier systems via voltage control

Author

Li, Sichao, Pilkington, Georgia, Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, Rutland, Mark W., Li, Sichao, Pilkington, Georgia, Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The structure and interaction of ionic liquids (ILs) influence their interfacial composition, and their arrangement (i.e., electric double-layer (EDL) structure), can be controlled by an electric field. Here, we employed a quartz crystal microbalance (QCM) to study the electrical response of two non-halogenated phosphonium orthoborate ILs, dissolved in a polar solvent at the interface. The response is influenced by the applied voltage, the structure of the ions, and the solvent polarizability. One IL showed anomalous electro-responsivity, suggesting a self-assembly bilayer structure of the IL cation at the gold interface, which transitions to a typical EDL structure at higher positive potential. Neutron reflectivity (NR) confirmed this interfacial structuring and compositional changes at the electrified gold surface. A cation-dominated self-assembly structure is observed for negative and neutral voltages, which abruptly transitions to an anion-rich interfacial layer at positive voltages. An interphase transition explains the electro-responsive behaviour of self-assembling IL/carrier systems, pertinent for ILs in advanced tribological and electrochemical contexts., QC 20231123

Published

2023

21. In-situ, real-time investigation of the formation of oxygen-containing rare-earth hydrides by combining a quartz crystal microbalance and ion beam analysis

Author

Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., Primetzhofer, Daniel, Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., and Primetzhofer, Daniel

Abstract

We present an in-situ and real-time investigation of the formation of YHO and GdHO thin films grown by reactive e(-)-beam evaporation. Mass changes were continuously monitored during deposition, oxidation, and illumination using a highly sensitive quartz crystal microbalance, while changes in chemical composition and depth profiles were investigated simultaneously by ion beam analysis. Results highlight the strong reactivity of freshly deposited YHx and GdHx films, even under ultra-high vacuum conditions. Oxidation starts at the surfaces of the films and the oxidation rate is strongly dependent on the O-2 pressure. The response of the system under ion beam irradiation and in-situ illumination is also presented and discussed. For the measured mass changes, a quantitative agreement better than 2% was observed between both techniques and demonstrates the consistency and sensitivity of this approach.

Published

2023

22. Tuneable interphase transitions in ionic liquid/carrier systems via voltage control

Author

Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, Rutland, Mark W., Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The structure and interaction of ionic liquids (ILs) influence their interfacial composition, and their arrangement (i.e., electric double-layer (EDL) structure), can be controlled by an electric field. Here, we employed a quartz crystal microbalance (QCM) to study the electrical response of two non-halogenated phosphonium orthoborate ILs, dissolved in a polar solvent at the interface. The response is influenced by the applied voltage, the structure of the ions, and the solvent polarizability. One IL showed anomalous electro-responsivity, suggesting a self -assembly bilayer structure of the IL cation at the gold interface, which transitions to a typical EDL structure at higher positive potential. Neutron reflectivity (NR) confirmed this interfacial structuring and compositional changes at the electrified gold surface. A cation-dominated self-assembly structure is observed for negative and neutral voltages, which abruptly transitions to an anion-rich interfacial layer at positive voltages. An interphase transition explains the electro-responsive behaviour of self-assembling IL/carrier systems, pertinent for ILs in advanced tribological and electrochemical contexts.

Published

2023

23. Quartz Crystal Microbalance Platform for SARS-CoV-2 Immuno-Diagnostics

Author

Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, Nicholls, Ian A., Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, and Nicholls, Ian A.

Abstract

Rapid and accurate serological analysis of SARS-CoV-2 antibodies is important for assessing immune protection from vaccination or infection of individuals and for projecting virus spread within a population. The quartz crystal microbalance (QCM) is a label-free flow-based sensor platform that offers an opportunity to detect the binding of a fluid-phase ligand to an immobilized target molecule in real time. A QCM-based assay was developed for the detection of SARS-CoV-2 antibody binding and evaluated for assay reproducibility. The assay was cross-compared to the Roche electrochemiluminescence assay (ECLIA) Elecsys (R) Anti-SARS-CoV-2 serology test kit and YHLO's chemiluminescence immunoassay (CLIA). The day-to-day reproducibility of the assay had a correlation of r(2) = 0.99, p < 0.001. The assay linearity was r(2) = 0.96, p < 0.001, for dilution in both serum and buffer. In the cross-comparison analysis of 119 human serum samples, 59 were positive in the Roche, 52 in the YHLO, and 48 in the QCM immunoassay. Despite differences in the detection method and antigen used for antibody capture, there was good coherence between the assays, 80-100% for positive and 96-100% for negative test results. In summation, the QCM-based SARS-CoV-2 IgG immunoassay showed high reproducibility and linearity, along with good coherence with the ELISA-based assays. Still, factors including antibody titer and antigen-binding affinity may differentially affect the various assays' responses.

Published

2023

24. Quartz Crystal Microbalance Platform for SARS-CoV-2 Immuno-Diagnostics

Author

Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, Nicholls, Ian A., Nilsson, Per H., Al-Majdoub, Mahmoud, Ibrahim, Ahmed, Aseel, Obaidullah, Suriyanarayanan, Subramanian, Andersson, Linnea, Fostock, Samir, Aastrup, Teodor, Tjernberg, Ivar, Ryden, Ingvar, and Nicholls, Ian A.

Abstract

Rapid and accurate serological analysis of SARS-CoV-2 antibodies is important for assessing immune protection from vaccination or infection of individuals and for projecting virus spread within a population. The quartz crystal microbalance (QCM) is a label-free flow-based sensor platform that offers an opportunity to detect the binding of a fluid-phase ligand to an immobilized target molecule in real time. A QCM-based assay was developed for the detection of SARS-CoV-2 antibody binding and evaluated for assay reproducibility. The assay was cross-compared to the Roche electrochemiluminescence assay (ECLIA) Elecsys (R) Anti-SARS-CoV-2 serology test kit and YHLO's chemiluminescence immunoassay (CLIA). The day-to-day reproducibility of the assay had a correlation of r(2) = 0.99, p < 0.001. The assay linearity was r(2) = 0.96, p < 0.001, for dilution in both serum and buffer. In the cross-comparison analysis of 119 human serum samples, 59 were positive in the Roche, 52 in the YHLO, and 48 in the QCM immunoassay. Despite differences in the detection method and antigen used for antibody capture, there was good coherence between the assays, 80-100% for positive and 96-100% for negative test results. In summation, the QCM-based SARS-CoV-2 IgG immunoassay showed high reproducibility and linearity, along with good coherence with the ELISA-based assays. Still, factors including antibody titer and antigen-binding affinity may differentially affect the various assays' responses.

Published

2023

25. Tuneable interphase transitions in ionic liquid/carrier systems via voltage control

Author

Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, Rutland, Mark W., Li, Sichao, Pilkington, Georgia A., Mehler, Filip, Hammond, Oliver S., Boudier, Anthony, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The structure and interaction of ionic liquids (ILs) influence their interfacial composition, and their arrangement (i.e., electric double-layer (EDL) structure), can be controlled by an electric field. Here, we employed a quartz crystal microbalance (QCM) to study the electrical response of two non-halogenated phosphonium orthoborate ILs, dissolved in a polar solvent at the interface. The response is influenced by the applied voltage, the structure of the ions, and the solvent polarizability. One IL showed anomalous electro-responsivity, suggesting a self -assembly bilayer structure of the IL cation at the gold interface, which transitions to a typical EDL structure at higher positive potential. Neutron reflectivity (NR) confirmed this interfacial structuring and compositional changes at the electrified gold surface. A cation-dominated self-assembly structure is observed for negative and neutral voltages, which abruptly transitions to an anion-rich interfacial layer at positive voltages. An interphase transition explains the electro-responsive behaviour of self-assembling IL/carrier systems, pertinent for ILs in advanced tribological and electrochemical contexts.

Published

2023

26. Negligible risk of surface transmission of SARS-CoV-2 in public transportation

Author

Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, Vaisocherova-Lisalova, Hana, Pilipenco, Alina, Forinova, Michala, Maskova, Hana, Hönig, Vaclav, Palus, Martin, Lynn Jr, Nicholas Scott, Visova, Ivana, Vrabcova, Marketa, Houska, Milan, Anthi, Judita, Spasovova, Monika, Mustacova, Johana, Sterba, Jan, Dostalek, Jakub, Tung, Chao-Ping, Yang, An-Suei, Jack, Rachael, Dejneka, Alexandr, Hajdu, Janos, and Vaisocherova-Lisalova, Hana

Abstract

Background: Exposure to pathogens in public transport systems is a common means of spreading infection, mainly by inhaling aerosol or droplets from infected individuals. Such particles also contaminate surfaces, creating a potential surface-transmission pathway. Methods: A fast acoustic biosensor with an antifouling nano-coating was introduced to detect severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) on exposed surfaces in the Prague Public Transport System. Samples were measured directly without pre-treatment. Results with the sensor gave excellent agreement with parallel quantitative reverse-transcription polymerase chain reaction (qRT-PCR) measurements on 482 surface samples taken from actively used trams, buses, metro trains and platforms between 7 and 9 April 2021, in the middle of the lineage Alpha SARS-CoV-2 epidemic wave when 1 in 240 people were COVID-19 positive in Prague. Results: Only ten of the 482 surface swabs produced positive results and none of them contained virus particles capable of replication, indicating that positive samples contained inactive virus particles and/or fragments. Measurements of the rate of decay of SARS-CoV-2 on frequently touched surface materials showed that the virus did not remain viable longer than 1-4 h. The rate of inactivation was the fastest on rubber handrails in metro escalators and the slowest on hard-plastic seats, window glasses and stainless-steel grab rails. As a result of this study, Prague Public Transport Systems revised their cleaning protocols and the lengths of parking times during the pandemic. Conclusions: Our findings suggest that surface transmission played no or negligible role in spreading SARS-CoV-2 in Prague. The results also demonstrate the potential of the new biosensor to serve as a complementary screening tool in epidemic monitoring and prognosis.

Published

2023

27. Smart bio-nano interface derived from zein protein as receptors for biotinyl moiety

Author

Suriyanarayanan, Subramanian, Mandal, Sudip, Ramanujam, Kothandaraman, Nicholls, Ian A., Suriyanarayanan, Subramanian, Mandal, Sudip, Ramanujam, Kothandaraman, and Nicholls, Ian A.

Abstract

Proteinaceous, tunable nanostructures of zein (prolamine of corn) were developed as biotinyl-specific receptors using a molecular imprinting technique. Sacrificial templates, such as latex beads (LB3) and anodized alumina membrane (AAM), have been used to control nanostructural patterns in biotin-imprinted zein (BMZ). Briefly, a methanolic solution of the zein-biotin complex was drop cast upon a self-organized LB3 and AAM templates on Au/quartz surfaces. Subsequent dissolution of these sacrificial templates affords highly oriented, predetermined, and uniformly grown hyperporous (300 nm) and nanowires (150 nm) motifs of zein (BMZ-LB3 and BMZ-AAM), as shown by scanning electron microscopy (SEM). Selective extraction of biotin molecular template cast-off site -selective biotin imprints within these zein nanostructures complementary to biotinyl moieties. Alternatively, biotin-imprinted zein nanoparticles (BMZ-Np) and thin film (BMZ-MeOH) were prepared by coacervation and drop casting methods, respectively. Density functional theoretical (DFT) studies reveal strong hydrogen-bonded interaction of biotin with serine and glutamine residues of zein. Quartz crystal microbalance (QCM) studies show remarkable sensitivity of the hyperporous-BMZ-LB3 and nanowires of BMZ-AAM towards biotin derivative (biotin methyl ester) by five (24.75 +/- 1.34 Hz/mM) and four (18.19 +/- 0.75 Hz/mM) times, respectively, higher than the BMZ-MeOH. Enhanced permeability features of the zein nanostructures, when templated with LB3, enable the QCM detection of biotin-or its derivatives down to 12.9 ng mL-1 from dairy products (Kefir). The outcome of this study shall be a key aspect in interfacing biological materials with micro-/nano-sensors and electronic devices for detecting pertinent analytes using sustainably developed biopolymer-based nanostructures.

Published

2023

28. In-situ, real-time investigation of the formation of oxygen-containing rare-earth hydrides by combining a quartz crystal microbalance and ion beam analysis

Author

Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., Primetzhofer, Daniel, Pitthan, Eduardo, Cupak, C., Fellinger, M., Moro, M. V., Kioumourtzoglou, S., Moldarev, Dmitrii, Wolff, Max, Aumayr, F., and Primetzhofer, Daniel

Abstract

We present an in-situ and real-time investigation of the formation of YHO and GdHO thin films grown by reactive e(-)-beam evaporation. Mass changes were continuously monitored during deposition, oxidation, and illumination using a highly sensitive quartz crystal microbalance, while changes in chemical composition and depth profiles were investigated simultaneously by ion beam analysis. Results highlight the strong reactivity of freshly deposited YHx and GdHx films, even under ultra-high vacuum conditions. Oxidation starts at the surfaces of the films and the oxidation rate is strongly dependent on the O-2 pressure. The response of the system under ion beam irradiation and in-situ illumination is also presented and discussed. For the measured mass changes, a quantitative agreement better than 2% was observed between both techniques and demonstrates the consistency and sensitivity of this approach.

Published

2023

29. Quartz Crystal Microbalance Measurement of Histidine-Rich Glycoprotein and Stanniocalcin-2 Binding to Each Other and to Inflammatory Cells

Author

Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, Claesson-Welsh, Lena, Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, and Claesson-Welsh, Lena

Abstract

The plasma protein histidine-rich glycoprotein (HRG) is implicated in the polarization of macrophages to an M1 antitumoral phenotype. The broadly expressed secreted protein stanniocalcin 2 (STC2), also implicated in tumor inflammation, is an HRG interaction partner. With the aim to biochemically characterize the HRG and STC2 complex, binding of recombinant HRG and STC2 preparations to each other and to cells was explored using the quartz crystal microbalance (QCM) methodology. The functionality of recombinant proteins was tested in a phagocytosis assay, where HRG increased phagocytosis by monocytic U937 cells while STC2 suppressed HRG-induced phagocytosis. The binding of HRG to STC2, measured using QCM, showed an affinity between the proteins in the nanomolar range, and both HRG and STC2 bound individually and in combination to vitamin D3-treated, differentiated U937 monocytes. HRG, but not STC2, also bound to formaldehyde-fixed U937 cells irrespective of their differentiation stage in part through the interaction with heparan sulfate. These data show that HRG and STC2 bind to each other as well as to U937 monocytes with high affinity, supporting the relevance of these interactions in monocyte/macrophage polarity.

Published

2022

30. Quartz Crystal Microbalance Measurement of Histidine-Rich Glycoprotein and Stanniocalcin-2 Binding to Each Other and to Inflammatory Cells

Author

Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, Claesson-Welsh, Lena, Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, and Claesson-Welsh, Lena

Abstract

The plasma protein histidine-rich glycoprotein (HRG) is implicated in the polarization of macrophages to an M1 antitumoral phenotype. The broadly expressed secreted protein stanniocalcin 2 (STC2), also implicated in tumor inflammation, is an HRG interaction partner. With the aim to biochemically characterize the HRG and STC2 complex, binding of recombinant HRG and STC2 preparations to each other and to cells was explored using the quartz crystal microbalance (QCM) methodology. The functionality of recombinant proteins was tested in a phagocytosis assay, where HRG increased phagocytosis by monocytic U937 cells while STC2 suppressed HRG-induced phagocytosis. The binding of HRG to STC2, measured using QCM, showed an affinity between the proteins in the nanomolar range, and both HRG and STC2 bound individually and in combination to vitamin D3-treated, differentiated U937 monocytes. HRG, but not STC2, also bound to formaldehyde-fixed U937 cells irrespective of their differentiation stage in part through the interaction with heparan sulfate. These data show that HRG and STC2 bind to each other as well as to U937 monocytes with high affinity, supporting the relevance of these interactions in monocyte/macrophage polarity.

Published

2022

31. Quartz Crystal Microbalance Measurement of Histidine-Rich Glycoprotein and Stanniocalcin-2 Binding to Each Other and to Inflammatory Cells

Author

Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, Claesson-Welsh, Lena, Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, and Claesson-Welsh, Lena

Abstract

The plasma protein histidine-rich glycoprotein (HRG) is implicated in the polarization of macrophages to an M1 antitumoral phenotype. The broadly expressed secreted protein stanniocalcin 2 (STC2), also implicated in tumor inflammation, is an HRG interaction partner. With the aim to biochemically characterize the HRG and STC2 complex, binding of recombinant HRG and STC2 preparations to each other and to cells was explored using the quartz crystal microbalance (QCM) methodology. The functionality of recombinant proteins was tested in a phagocytosis assay, where HRG increased phagocytosis by monocytic U937 cells while STC2 suppressed HRG-induced phagocytosis. The binding of HRG to STC2, measured using QCM, showed an affinity between the proteins in the nanomolar range, and both HRG and STC2 bound individually and in combination to vitamin D3-treated, differentiated U937 monocytes. HRG, but not STC2, also bound to formaldehyde-fixed U937 cells irrespective of their differentiation stage in part through the interaction with heparan sulfate. These data show that HRG and STC2 bind to each other as well as to U937 monocytes with high affinity, supporting the relevance of these interactions in monocyte/macrophage polarity.

Published

2022

32. Quartz Crystal Microbalance Measurement of Histidine-Rich Glycoprotein and Stanniocalcin-2 Binding to Each Other and to Inflammatory Cells

Author

Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, Claesson-Welsh, Lena, Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, and Claesson-Welsh, Lena

Abstract

The plasma protein histidine-rich glycoprotein (HRG) is implicated in the polarization of macrophages to an M1 antitumoral phenotype. The broadly expressed secreted protein stanniocalcin 2 (STC2), also implicated in tumor inflammation, is an HRG interaction partner. With the aim to biochemically characterize the HRG and STC2 complex, binding of recombinant HRG and STC2 preparations to each other and to cells was explored using the quartz crystal microbalance (QCM) methodology. The functionality of recombinant proteins was tested in a phagocytosis assay, where HRG increased phagocytosis by monocytic U937 cells while STC2 suppressed HRG-induced phagocytosis. The binding of HRG to STC2, measured using QCM, showed an affinity between the proteins in the nanomolar range, and both HRG and STC2 bound individually and in combination to vitamin D3-treated, differentiated U937 monocytes. HRG, but not STC2, also bound to formaldehyde-fixed U937 cells irrespective of their differentiation stage in part through the interaction with heparan sulfate. These data show that HRG and STC2 bind to each other as well as to U937 monocytes with high affinity, supporting the relevance of these interactions in monocyte/macrophage polarity.

Published

2022

33. Quartz Crystal Microbalance Measurement of Histidine-Rich Glycoprotein and Stanniocalcin-2 Binding to Each Other and to Inflammatory Cells

Author

Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, Claesson-Welsh, Lena, Persson Skare, Tor, Kaito, Hiroshi, Durall, Claudia, Aastrup, Teodor, and Claesson-Welsh, Lena

Abstract

The plasma protein histidine-rich glycoprotein (HRG) is implicated in the polarization of macrophages to an M1 antitumoral phenotype. The broadly expressed secreted protein stanniocalcin 2 (STC2), also implicated in tumor inflammation, is an HRG interaction partner. With the aim to biochemically characterize the HRG and STC2 complex, binding of recombinant HRG and STC2 preparations to each other and to cells was explored using the quartz crystal microbalance (QCM) methodology. The functionality of recombinant proteins was tested in a phagocytosis assay, where HRG increased phagocytosis by monocytic U937 cells while STC2 suppressed HRG-induced phagocytosis. The binding of HRG to STC2, measured using QCM, showed an affinity between the proteins in the nanomolar range, and both HRG and STC2 bound individually and in combination to vitamin D3-treated, differentiated U937 monocytes. HRG, but not STC2, also bound to formaldehyde-fixed U937 cells irrespective of their differentiation stage in part through the interaction with heparan sulfate. These data show that HRG and STC2 bind to each other as well as to U937 monocytes with high affinity, supporting the relevance of these interactions in monocyte/macrophage polarity.

Published

2022

34. Mass and density determination of porous nanoparticle films using a quartz crystal microbalance

Author

van Ginkel, H.J. (author), Vollebregt, S. (author), Schmidt-Ott, A. (author), Zhang, Kouchi (author), van Ginkel, H.J. (author), Vollebregt, S. (author), Schmidt-Ott, A. (author), and Zhang, Kouchi (author)

Abstract

A method is presented to directly measure the mass output of an impaction printer coupled with a spark ablation generator. It is based on a quartz crystal microbalance and shown to be reliable in quantifying mass deposition rate. Here, the method is demonstrated with an Au nanoparticle aerosol synthesized under several spark ablation and deposition settings. Changes in the deposition rate in response to changed synthesis conditions follow the spark ablation models on generation rate made in previous studies, validating this novel measurement method. In combination with the volume of a deposit, a good estimate of the film porosity can be made. The Au nanoparticle films synthesized here have a low porosity of 0.18 due to extensive restructuring and compaction on impact with the substrate. The porosity is found to be insensitive to deposition settings and is constant throughout the film. The simplicity and low cost of a quartz crystal microbalance setup make this an accessible method to determine porosity in porous thin films., Electronic Components, Technology and Materials, ChemE/Materials for Energy Conversion and Storage

Published

2022

35. High Fundamental Frequency (HFF) Monolithic Resonator Arrays for Biosensing Applications: Design, Simulations, Experimental, Characterization

Author

Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Agencia Estatal de Investigación, FERNÁNDEZ DÍAZ, ROMÁN, Calero-Alcarria, María Del Señor, Reviakine, Ilya, García, José Vicente, Rocha-Gaso, María Isabel, Arnau Vives, Antonio, Jiménez Jiménez, Yolanda, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Agencia Estatal de Investigación, FERNÁNDEZ DÍAZ, ROMÁN, Calero-Alcarria, María Del Señor, Reviakine, Ilya, García, José Vicente, Rocha-Gaso, María Isabel, Arnau Vives, Antonio, and Jiménez Jiménez, Yolanda

Abstract

© 2020 IEEE. Personal use of this material is permitted. Permissíon from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertisíng or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works., [EN] Miniaturized, high-throughput, cost-effective sensing devices are needed to advance lab-on-a-chip technologies for healthcare, security, environmental monitoring, food safety, and research applications. Quartz crystal microbalance with dissipation (QCMD) is a promising technology for the design of such sensing devices, but its applications have been limited, until now, by low throughput and significant costs. In this work, we present the design and characterization of 24-element monolithic QCMD arrays for high-throughput and low-volume sensing applications in liquid. Physical properties such as geometry and roughness, and electrical properties such as resonance frequency, quality factor, spurious mode suppression, and interactions between array elements (crosstalk), are investigated in detail. In particular, we show that the scattering parameter, S 21 , commonly measured experimentally to investigate crosstalk, contains contributions from the parasitic grounding effects associated with the acquisition circuitry. Finite element method simulations do not take grounding effects into account explicitly. However, these effects can be effectively modelled with appropriate equivalent circuit models, providing clear physical interpretation of the different contributions. We show that our array design avoids unwanted interactions between elements and discuss in detail aspects of measuring these interactions that are often-overlooked.

Published

2021

36. IMPLEMENTACIÓN DE UN SISTEMA DE DISPENSACIÓN AUTOMÁTICA DE MUESTRA PARA APLICACIONES DE SEGURIDAD Y CALIDAD ALIMENTARIA

Author

Jiménez Jiménez, Yolanda, Fernández Díaz, Román, Calero Alcarria, María del Señor, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Universitat Politècnica de València. Escuela Técnica Superior de Ingenieros de Telecomunicación - Escola Tècnica Superior d'Enginyers de Telecomunicació, AGENCIA ESTATAL DE INVESTIGACION, Valcárcel Manzano, Patricia, Jiménez Jiménez, Yolanda, Fernández Díaz, Román, Calero Alcarria, María del Señor, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Universitat Politècnica de València. Escuela Técnica Superior de Ingenieros de Telecomunicación - Escola Tècnica Superior d'Enginyers de Telecomunicació, AGENCIA ESTATAL DE INVESTIGACION, and Valcárcel Manzano, Patricia

Abstract

[ES] El presente TFG tiene como objetivo la implementación y puesta en marcha de un sistema de dispensación automática de muestra para aplicaciones de seguridad y calidad alimentaria. El sistema de dispensación de muestra y sistema de fluídica que se pretende implementar se enmarca dentro de las tareas del objetivo 3 del proyecto AGL2016-77702-R ¿Diseño de un biosensor de ADN basado en tecnología HFF-QCM para la detección de sustancias adulterantes en miel¿. Las diferentes tareas que comprenderá el proyecto son las siguientes: (1) Evaluación de los diferentes módulos que forman el sistema de fluídica y el sistema muestreador (autosampler). (2) Uso del software proporcionado por el fabricante para implementar el control de los diferentes bloques que forman que el sistema. Fundamentalmente, la bomba microfluídica de presión, el controlador de presión, las válvulas de selección del medio y de cierre del canal y el autosampler. (3) Implementación de una librería API de control de todo el sistema. Como lenguaje de programación se utilizará preferentemente JAVA Netbeens, aunque se podrían utilizar otros lenguajes como Python o C. (4) Tareas experimentales de testeo consistentes en la inyección de medios líquidos coloreados que permitan una comprobación visual del sistema implementado. El trabajo será codirigido por los profesores Yolanda Jiménez (ETSIT) y Román Fernández (ETSID). Contará también con la directora experimental María Calero., [EN] The objective of this TFG is the implementation and implementation of an automatic sample dispensing system for food safety and quality applications. The sample dispensing system and fluidics system to be implemented is part of the tasks of objective 3 of the AGL2016-77702-R project "Design of a DNA biosensor based on HFF-QCM technology for the detection of adulterating substances in honey". The different tasks to be covered by the project are as follows: (1) Evaluation of the different modules that form the fluidics system and the sampling system (autosampler). (2) Use the software provided by the manufacturer to implement the control of the different blocks that form the system.Essentially, the microfluidic pressure pump, the pressure controller, the medium selection and channel closing valves and the autosampler. (3) Implementation of a system-wide control API library. JAVA Netbeens will preferably be used as a programming language, although other languages such as Python or C could be used. (4) Experimental testing tasks consisting of the injection of colored liquid media that allow a visual check of the implemented system. The work will be co-directed by Professors Yolanda Jiménez (ETSIT) and Román Fernández (ETSID). It will also feature experimental director María Calero.

Published

2021

37. IMPLEMENTACIÓN DE UN SISTEMA DE DISPENSACIÓN AUTOMÁTICA DE MUESTRA PARA APLICACIONES DE SEGURIDAD Y CALIDAD ALIMENTARIA

Author

Jiménez Jiménez, Yolanda, Fernández Díaz, Román, Calero Alcarria, María del Señor, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Universitat Politècnica de València. Escuela Técnica Superior de Ingenieros de Telecomunicación - Escola Tècnica Superior d'Enginyers de Telecomunicació, AGENCIA ESTATAL DE INVESTIGACION, Valcárcel Manzano, Patricia, Jiménez Jiménez, Yolanda, Fernández Díaz, Román, Calero Alcarria, María del Señor, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Universitat Politècnica de València. Escuela Técnica Superior de Ingenieros de Telecomunicación - Escola Tècnica Superior d'Enginyers de Telecomunicació, AGENCIA ESTATAL DE INVESTIGACION, and Valcárcel Manzano, Patricia

Abstract

[ES] El presente TFG tiene como objetivo la implementación y puesta en marcha de un sistema de dispensación automática de muestra para aplicaciones de seguridad y calidad alimentaria. El sistema de dispensación de muestra y sistema de fluídica que se pretende implementar se enmarca dentro de las tareas del objetivo 3 del proyecto AGL2016-77702-R ¿Diseño de un biosensor de ADN basado en tecnología HFF-QCM para la detección de sustancias adulterantes en miel¿. Las diferentes tareas que comprenderá el proyecto son las siguientes: (1) Evaluación de los diferentes módulos que forman el sistema de fluídica y el sistema muestreador (autosampler). (2) Uso del software proporcionado por el fabricante para implementar el control de los diferentes bloques que forman que el sistema. Fundamentalmente, la bomba microfluídica de presión, el controlador de presión, las válvulas de selección del medio y de cierre del canal y el autosampler. (3) Implementación de una librería API de control de todo el sistema. Como lenguaje de programación se utilizará preferentemente JAVA Netbeens, aunque se podrían utilizar otros lenguajes como Python o C. (4) Tareas experimentales de testeo consistentes en la inyección de medios líquidos coloreados que permitan una comprobación visual del sistema implementado. El trabajo será codirigido por los profesores Yolanda Jiménez (ETSIT) y Román Fernández (ETSID). Contará también con la directora experimental María Calero., [EN] The objective of this TFG is the implementation and implementation of an automatic sample dispensing system for food safety and quality applications. The sample dispensing system and fluidics system to be implemented is part of the tasks of objective 3 of the AGL2016-77702-R project "Design of a DNA biosensor based on HFF-QCM technology for the detection of adulterating substances in honey". The different tasks to be covered by the project are as follows: (1) Evaluation of the different modules that form the fluidics system and the sampling system (autosampler). (2) Use the software provided by the manufacturer to implement the control of the different blocks that form the system.Essentially, the microfluidic pressure pump, the pressure controller, the medium selection and channel closing valves and the autosampler. (3) Implementation of a system-wide control API library. JAVA Netbeens will preferably be used as a programming language, although other languages such as Python or C could be used. (4) Experimental testing tasks consisting of the injection of colored liquid media that allow a visual check of the implemented system. The work will be co-directed by Professors Yolanda Jiménez (ETSIT) and Román Fernández (ETSID). It will also feature experimental director María Calero.

Published

2021

38. IMPLEMENTACIÓN DE UN SISTEMA DE DISPENSACIÓN AUTOMÁTICA DE MUESTRA PARA APLICACIONES DE SEGURIDAD Y CALIDAD ALIMENTARIA

Author

Jiménez Jiménez, Yolanda, Fernández Díaz, Román, Calero Alcarria, María del Señor, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Universitat Politècnica de València. Escuela Técnica Superior de Ingenieros de Telecomunicación - Escola Tècnica Superior d'Enginyers de Telecomunicació, AGENCIA ESTATAL DE INVESTIGACION, Ministerio de Economía y Competitividad, Valcárcel Manzano, Patricia, Jiménez Jiménez, Yolanda, Fernández Díaz, Román, Calero Alcarria, María del Señor, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Universitat Politècnica de València. Escuela Técnica Superior de Ingenieros de Telecomunicación - Escola Tècnica Superior d'Enginyers de Telecomunicació, AGENCIA ESTATAL DE INVESTIGACION, Ministerio de Economía y Competitividad, and Valcárcel Manzano, Patricia

Abstract

[ES] El presente TFG tiene como objetivo la implementación y puesta en marcha de un sistema de dispensación automática de muestra para aplicaciones de seguridad y calidad alimentaria. El sistema de dispensación de muestra y sistema de fluídica que se pretende implementar se enmarca dentro de las tareas del objetivo 3 del proyecto AGL2016-77702-R ¿Diseño de un biosensor de ADN basado en tecnología HFF-QCM para la detección de sustancias adulterantes en miel¿. Las diferentes tareas que comprenderá el proyecto son las siguientes: (1) Evaluación de los diferentes módulos que forman el sistema de fluídica y el sistema muestreador (autosampler). (2) Uso del software proporcionado por el fabricante para implementar el control de los diferentes bloques que forman que el sistema. Fundamentalmente, la bomba microfluídica de presión, el controlador de presión, las válvulas de selección del medio y de cierre del canal y el autosampler. (3) Implementación de una librería API de control de todo el sistema. Como lenguaje de programación se utilizará preferentemente JAVA Netbeens, aunque se podrían utilizar otros lenguajes como Python o C. (4) Tareas experimentales de testeo consistentes en la inyección de medios líquidos coloreados que permitan una comprobación visual del sistema implementado. El trabajo será codirigido por los profesores Yolanda Jiménez (ETSIT) y Román Fernández (ETSID). Contará también con la directora experimental María Calero., [EN] The objective of this TFG is the implementation and implementation of an automatic sample dispensing system for food safety and quality applications. The sample dispensing system and fluidics system to be implemented is part of the tasks of objective 3 of the AGL2016-77702-R project "Design of a DNA biosensor based on HFF-QCM technology for the detection of adulterating substances in honey". The different tasks to be covered by the project are as follows: (1) Evaluation of the different modules that form the fluidics system and the sampling system (autosampler). (2) Use the software provided by the manufacturer to implement the control of the different blocks that form the system.Essentially, the microfluidic pressure pump, the pressure controller, the medium selection and channel closing valves and the autosampler. (3) Implementation of a system-wide control API library. JAVA Netbeens will preferably be used as a programming language, although other languages such as Python or C could be used. (4) Experimental testing tasks consisting of the injection of colored liquid media that allow a visual check of the implemented system. The work will be co-directed by Professors Yolanda Jiménez (ETSIT) and Román Fernández (ETSID). It will also feature experimental director María Calero.

Published

2021

39. High Fundamental Frequency (HFF) Monolithic Resonator Arrays for Biosensing Applications: Design, Simulations, Experimental, Characterization

Author

Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Ministerio de Economía y Competitividad, FERNÁNDEZ DÍAZ, ROMÁN, Calero-Alcarria, María Del Señor, Reviakine, Ilya, García, José Vicente, Rocha-Gaso, María Isabel, Arnau Vives, Antonio, Jiménez Jiménez, Yolanda, Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica, Ministerio de Economía y Competitividad, FERNÁNDEZ DÍAZ, ROMÁN, Calero-Alcarria, María Del Señor, Reviakine, Ilya, García, José Vicente, Rocha-Gaso, María Isabel, Arnau Vives, Antonio, and Jiménez Jiménez, Yolanda

Abstract

© 2020 IEEE. Personal use of this material is permitted. Permissíon from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertisíng or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works., [EN] Miniaturized, high-throughput, cost-effective sensing devices are needed to advance lab-on-a-chip technologies for healthcare, security, environmental monitoring, food safety, and research applications. Quartz crystal microbalance with dissipation (QCMD) is a promising technology for the design of such sensing devices, but its applications have been limited, until now, by low throughput and significant costs. In this work, we present the design and characterization of 24-element monolithic QCMD arrays for high-throughput and low-volume sensing applications in liquid. Physical properties such as geometry and roughness, and electrical properties such as resonance frequency, quality factor, spurious mode suppression, and interactions between array elements (crosstalk), are investigated in detail. In particular, we show that the scattering parameter, S 21 , commonly measured experimentally to investigate crosstalk, contains contributions from the parasitic grounding effects associated with the acquisition circuitry. Finite element method simulations do not take grounding effects into account explicitly. However, these effects can be effectively modelled with appropriate equivalent circuit models, providing clear physical interpretation of the different contributions. We show that our array design avoids unwanted interactions between elements and discuss in detail aspects of measuring these interactions that are often-overlooked.

Published

2021

40. Novel approach to the measurement of antithyroglobulin antibodies in human serum – application of the quartz crystal microbalance sensors

Author

Vrhovac, Lidija, Šelemetjev, Sonja A., Vatić, Saša, Mitrović, Aleksandar, Milošević, Jelica, Lolić, Aleksandar, Beletić, Anđelo D., Polović, Natalija, Vrhovac, Lidija, Šelemetjev, Sonja A., Vatić, Saša, Mitrović, Aleksandar, Milošević, Jelica, Lolić, Aleksandar, Beletić, Anđelo D., and Polović, Natalija

Abstract

Measurement of antithyroglobulin antibodies (TgAb) is an inevitable laboratory tool in the management of thyroid gland diseases. Currently available immunoassays still have limitations underlying the necessity of the introduction of fast, sensitive, and label-free technologies. Our aim was to develop a method for TgAb measurement in human serum based on the quartz crystal microbalance (QCM) technology. We immobilized thyroglobulin on the surface of Attana LNB Carboxyl sensor chip®, prepared standard curve covering the range of 1–50000 kIU/L, and established optimal measurement conditions. The validation included determination of the detection limit (LOD), functional sensitivity, linearity, precision, as well as the comparison with the results of the radioimmunoassay (RIA). The LOD and functional sensitivity were 4.2 kIU/L and 4.7 kIU/L, respectively. The method was linear in the range of 20–10000 kIU/L. The regression equation for comparison with RIA was CQCM = 1.0056 • CRIA – 24.2778, whereby no significant proportional or systematic difference was present. There was a good agreement with RIA in the classification of patients according to the clinical significance of the results. The developed method has advantages over currently available assays in terms of better LOQ, a higher upper limit of linearity, and precision. The characteristics of the developed method unambiguously show that the application of the QCM biosensors offers a highly reliable novel approach for the measurement of TgAb in human serum.

Published

2021

41. Novel approach to the measurement of antithyroglobulin antibodies in human serum – application of the quartz crystal microbalance sensors

Author

Vrhovac, Lidija, Šelemetjev, Sonja A., Vatić, Saša, Mitrović, Aleksandar, Milošević, Jelica, Lolić, Aleksandar, Beletić, Anđelo D., Polović, Natalija, Vrhovac, Lidija, Šelemetjev, Sonja A., Vatić, Saša, Mitrović, Aleksandar, Milošević, Jelica, Lolić, Aleksandar, Beletić, Anđelo D., and Polović, Natalija

Abstract

Measurement of antithyroglobulin antibodies (TgAb) is an inevitable laboratory tool in the management of thyroid gland diseases. Currently available immunoassays still have limitations underlying the necessity of the introduction of fast, sensitive, and label-free technologies. Our aim was to develop a method for TgAb measurement in human serum based on the quartz crystal microbalance (QCM) technology. We immobilized thyroglobulin on the surface of Attana LNB Carboxyl sensor chip®, prepared standard curve covering the range of 1–50000 kIU/L, and established optimal measurement conditions. The validation included determination of the detection limit (LOD), functional sensitivity, linearity, precision, as well as the comparison with the results of the radioimmunoassay (RIA). The LOD and functional sensitivity were 4.2 kIU/L and 4.7 kIU/L, respectively. The method was linear in the range of 20–10000 kIU/L. The regression equation for comparison with RIA was CQCM = 1.0056 • CRIA – 24.2778, whereby no significant proportional or systematic difference was present. There was a good agreement with RIA in the classification of patients according to the clinical significance of the results. The developed method has advantages over currently available assays in terms of better LOQ, a higher upper limit of linearity, and precision. The characteristics of the developed method unambiguously show that the application of the QCM biosensors offers a highly reliable novel approach for the measurement of TgAb in human serum.

Published

2021

42. Sputter yields of rough surfaces : Importance of the mean surface inclination angle from nano- to microscopic rough regimes

Author

Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Broetzner, J., Wilhelm, R. A., Moeller, W., Mutzke, A., Moro, Marcos V., Aumayr, F., Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Broetzner, J., Wilhelm, R. A., Moeller, W., Mutzke, A., Moro, Marcos V., and Aumayr, F.

Abstract

The roughness of a surface is known to have a strong influence on the sputtering process. Commonly used 1D Monte Carlo codes for calculating sputter yields show good agreement with experimental data only for comparably flat surfaces, whereas local ion incidence angles, shadowing and redeposition influence the sputter yields in both magnitude and angular dependence on rough surfaces. In the present work, we therefore investigated tungsten samples of largely different roughness, characterised by atomic force and confocal microscopy. A highly sensitive quartz crystal microbalance was used to determine sputter yields during ion irradiation. Low ion fluences were applied to ensure that the surface morphology did not change during irradiation. The results were used to benchmark our new ray-tracing simulation code SPRAY, which can take microscopy images without limitations in size as input. SPRAY was furthermore applied to perform systematic simulations for artificially roughened and computer-generated surfaces. A clear result was that the governing parameter for description of the sputtering behaviour is the mean value of the surface inclination angle distribution, rather than the commonly used root mean square roughness. Our simulations show that this parameter is universally applicable for a wide range of different surface structures.

Published

2021

43. Sputter yields of rough surfaces : Importance of the mean surface inclination angle from nano- to microscopic rough regimes

Author

Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Broetzner, J., Wilhelm, R. A., Moeller, W., Mutzke, A., Moro, Marcos V., Aumayr, F., Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Broetzner, J., Wilhelm, R. A., Moeller, W., Mutzke, A., Moro, Marcos V., and Aumayr, F.

Abstract

The roughness of a surface is known to have a strong influence on the sputtering process. Commonly used 1D Monte Carlo codes for calculating sputter yields show good agreement with experimental data only for comparably flat surfaces, whereas local ion incidence angles, shadowing and redeposition influence the sputter yields in both magnitude and angular dependence on rough surfaces. In the present work, we therefore investigated tungsten samples of largely different roughness, characterised by atomic force and confocal microscopy. A highly sensitive quartz crystal microbalance was used to determine sputter yields during ion irradiation. Low ion fluences were applied to ensure that the surface morphology did not change during irradiation. The results were used to benchmark our new ray-tracing simulation code SPRAY, which can take microscopy images without limitations in size as input. SPRAY was furthermore applied to perform systematic simulations for artificially roughened and computer-generated surfaces. A clear result was that the governing parameter for description of the sputtering behaviour is the mean value of the surface inclination angle distribution, rather than the commonly used root mean square roughness. Our simulations show that this parameter is universally applicable for a wide range of different surface structures.

Published

2021

44. Sputter yields of rough surfaces : Importance of the mean surface inclination angle from nano- to microscopic rough regimes

Author

Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Broetzner, J., Wilhelm, R. A., Moeller, W., Mutzke, A., Moro, Marcos V., Aumayr, F., Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Broetzner, J., Wilhelm, R. A., Moeller, W., Mutzke, A., Moro, Marcos V., and Aumayr, F.

Abstract

The roughness of a surface is known to have a strong influence on the sputtering process. Commonly used 1D Monte Carlo codes for calculating sputter yields show good agreement with experimental data only for comparably flat surfaces, whereas local ion incidence angles, shadowing and redeposition influence the sputter yields in both magnitude and angular dependence on rough surfaces. In the present work, we therefore investigated tungsten samples of largely different roughness, characterised by atomic force and confocal microscopy. A highly sensitive quartz crystal microbalance was used to determine sputter yields during ion irradiation. Low ion fluences were applied to ensure that the surface morphology did not change during irradiation. The results were used to benchmark our new ray-tracing simulation code SPRAY, which can take microscopy images without limitations in size as input. SPRAY was furthermore applied to perform systematic simulations for artificially roughened and computer-generated surfaces. A clear result was that the governing parameter for description of the sputtering behaviour is the mean value of the surface inclination angle distribution, rather than the commonly used root mean square roughness. Our simulations show that this parameter is universally applicable for a wide range of different surface structures.

Published

2021

45. Electrically Modified Quartz Crystal Microbalance to Study Surface Chemistry Using Plasma Electrons as Reducing Agents

Author

Niiranen, Pentti and Niiranen, Pentti

Abstract

Metallic films are important in various applications, such as electric devices where it can act as contacts. In electrical devices, the substrate typically consists of silicon dioxide (SiO2) which is a temperature-sensitive substrate. Therefore, plasma enhanced chemical vapor deposition (PECVD) are better suited than thermally activated chemical vapor deposition (CVD). Depositing metallic films with PECVD demands co-reactants that act as reducing agents. However, these are not well-studied and do not always have the power enough to perform the reduction reaction for metals. Recently it has been concluded that electrons can act as reducing agents in the deposition of first row transition metallic films in a PECVD process. By supplying a positive bias to the substrate, the electrons got attracted to the surface of the substrate, which facilitated metal growth. The study concluded that metal growth only occurred at conductive -and semiconductive substrates and that the substrate bias and plasma power affected the metal growth. The process is however not well understood, which causes a knowledge gap, signifying that studies of the surface chemistry are needed. Here a new modified analytical method to study the surface chemistry in the newly developed process mentioned above is presented. The analytical method consists of an electrically modified quartz crystal microbalance (QCM) with gold electrodes as a conductive substrate. This allows the electron current to run through the QCM during the measurement. By supplying a DC-voltage to the front electrode it gets readily biased (negative and positive) and by placing a capacitor in the circuit, it connects the AC-circuit (oscillator circuit) and the DC-circuit (DC-voltage bias circuit). At the same time, it blocks the DC-current from going back to the oscillator but allows the high-frequency signal to pass from the QCM. The results in this thesis concluded that the QCM can be electrically modified to allow an electron flux

Published

2021

46. Fibril Growth Behavior of Amyloid beta on Polymer-Based Planar Membranes: Implications for the Entanglement and Hydration of Polymers

Author

Shimanouchi, Toshinori, Iwamura, Miki, Deguchi, Shintaro, Kimura, Yukitaka, Shimanouchi, Toshinori, Iwamura, Miki, Deguchi, Shintaro, and Kimura, Yukitaka

Abstract

The design of biosensors and artificial organs using biocompatible materials with a low affinity for amyloid beta peptide (A beta) would contribute to the inhibition of fibril growth causing Alzheimer's disease. We systematically studied the amyloidogenicity of A beta on various planar membranes. The planar membranes were prepared using biocompatible polymers, viz., poly(methyl methacrylate) (PMMA), polysulfone (PSf), poly(L-lactic acid) (PLLA), and polyvinylpyrrolidone (PVP). Phospholipids from biomembranes, viz., 1,2-dioleoyl-phosphatidylcholine (DOPC), 1,2-dipalmitoyl-phosphatidylcholine (DPPC), and polyethylene glycol-graft-phosphatidyl ethanolamine (PEG-PE) were used as controls. Phospholipid- and polymer-based membranes were prepared to determine the kinetics of A beta fibril formation. Rates of A beta nucleation on the PSf- and DPPC-based membranes were significantly higher than those on the other membranes. A beta accumulation, calculated by the change in frequency of a quartz crystal microbalance (QCM), followed the order: PSf > PLLA > DOPC > PMMA, PVP, DPPC, and PEG-PE. Nucleation rates exhibited a positive correlation with the corresponding accumulation (except for the DPPC-based membrane) and a negative correlation with the molecular weight of the polymers. Strong hydration along the polymer backbone and polymer-A beta entanglement might contribute to the accumulation of A beta and subsequent fibrillation.

Published

2021

47. Sputter yields of rough surfaces : Importance of the mean surface inclination angle from nano- to microscopic rough regimes

Author

Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Broetzner, J., Wilhelm, R. A., Moeller, W., Mutzke, A., Moro, Marcos V., Aumayr, F., Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Broetzner, J., Wilhelm, R. A., Moeller, W., Mutzke, A., Moro, Marcos V., and Aumayr, F.

Abstract

The roughness of a surface is known to have a strong influence on the sputtering process. Commonly used 1D Monte Carlo codes for calculating sputter yields show good agreement with experimental data only for comparably flat surfaces, whereas local ion incidence angles, shadowing and redeposition influence the sputter yields in both magnitude and angular dependence on rough surfaces. In the present work, we therefore investigated tungsten samples of largely different roughness, characterised by atomic force and confocal microscopy. A highly sensitive quartz crystal microbalance was used to determine sputter yields during ion irradiation. Low ion fluences were applied to ensure that the surface morphology did not change during irradiation. The results were used to benchmark our new ray-tracing simulation code SPRAY, which can take microscopy images without limitations in size as input. SPRAY was furthermore applied to perform systematic simulations for artificially roughened and computer-generated surfaces. A clear result was that the governing parameter for description of the sputtering behaviour is the mean value of the surface inclination angle distribution, rather than the commonly used root mean square roughness. Our simulations show that this parameter is universally applicable for a wide range of different surface structures.

Published

2021

48. Sputter yields of rough surfaces: Importance of the mean surface inclination angle from nano- to microscopic rough regimes

Author

Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Brötzner, J., Wilhelm, R. A., (0000-0002-9068-8384) Möller, W., Mutzke, A., Moro, M. V., Aumayr, F., Cupak, C., Szabo, P. S., Biber, H., Stadlmayr, R., Grave, C., Fellinger, M., Brötzner, J., Wilhelm, R. A., (0000-0002-9068-8384) Möller, W., Mutzke, A., Moro, M. V., and Aumayr, F.

Abstract

The roughness of a surface is known to have a strong influence on the sputtering process. Commonly used 1D Monte Carlo codes for calculating sputter yields show good agreement with experimental data only for comparably flat surfaces, whereas local ion incidence angles, shadowing and redeposition influence the sputter yields in both magnitude and angular dependence on rough surfaces. In the present work, we therefore investigated tungsten samples of largely different roughness, characterised by atomic force and confocal microscopy. A highly sensitive quartz crystal microbalance was used to determine sputter yields during ion irradiation. Low ion fluences were applied to ensure that the surface morphology did not change during irradiation. The results were used to benchmark our new ray-tracing simulation code SPRAY, which can take microscopy images without limitations in size as input. SPRAY was furthermore applied to perform systematic simulations for artificially roughened and computer-generated surfaces. A clear result was that the governing parameter for description of the sputtering behaviour is the mean value of the surface inclination angle distribution, rather than the commonly used root mean square roughness. Our simulations show that this parameter is universally applicable for a wide range of different surface structures.

Published

2021

49. Molecularly imprinted polymer-based sensors for priority pollutants

Author

Zarejousheghani, Mashaalah, Rahimi, P., Borsdorf, Helko, Zimmermann, S., Joseph, Y., Zarejousheghani, Mashaalah, Rahimi, P., Borsdorf, Helko, Zimmermann, S., and Joseph, Y.

Abstract

Globally, there is growing concern about the health risks of water and air pollution. The U.S. Environmental Protection Agency (EPA) has developed a list of priority pollutants containing 129 different chemical compounds. All of these chemicals are of significant interest due to their serious health and safety issues. Permanent exposure to some concentrations of these chemicals can cause severe and irrecoverable health effects, which can be easily prevented by their early identification. Molecularly imprinted polymers (MIPs) offer great potential for selective adsorption of chemicals from water and air samples. These selective artificial bio(mimetic) receptors are promising candidates for modification of sensors, especially disposable sensors, due to their low-cost, long-term stability, ease of engineering, simplicity of production and their applicability for a wide range of targets. Herein, innovative strategies used to develop MIP-based sensors for EPA priority pollutants will be reviewed.

Published

2021

50. Rational design of molecularly imprinted polymers using quaternary ammonium cations for glyphosate detection

Author

Zarejousheghani, Mashaalah, Jaafar, A., Wollmerstaedt, H., Rahimi, P., Borsdorf, Helko, Zimmermann, S., Joseph, Y., Zarejousheghani, Mashaalah, Jaafar, A., Wollmerstaedt, H., Rahimi, P., Borsdorf, Helko, Zimmermann, S., and Joseph, Y.

Abstract

Molecularly imprinted polymers have emerged as cost-effective and rugged artificial selective sorbents for combination with different sensors. In this study, quaternary ammonium cations, as functional monomers, were systematically evaluated to design imprinted polymers for glyphosate as an important model compound for electrically charged and highly water-soluble chemical compounds. To this aim, a small pool of monomers were used including (3-acrylamidopropyl)trimethylammonium chloride, [2-(acryloyloxy)ethyl]trimethylammonium chloride, and diallyldimethylammonium chloride. The simultaneous interactions between three positively charged monomers and glyphosate were preliminary evaluated using statistical design of the experiment method. Afterwards, different polymers were synthesized at the gold surface of the quartz crystal microbalance sensor using optimized and not optimized glyphosate-monomers ratios. All synthesized polymers were characterized using atomic force microscopy, contact angle, Fourier-transform infrared, and X-ray photoelectron spectroscopy. Evaluated functional monomers showed promise as highly efficient functional monomers, when they are used together and at the optimized ratio, as predicted by the statistical method. Obtained results from the modified sensors were used to develop a simple model describing the binding characteristics at the surface of the different synthesized polymers. This model helps to develop new synthesis strategies for rational design of the highly selective imprinted polymers and to use as a sensing platform for water soluble and polar targets.

Published

2021