Your search keyword '"Knut Rurack"' showing total 224 results

1. Towards 3D determination of the surface roughness of core–shell microparticles as a routine quality control procedure by scanning electron microscopy

Author

Deniz Hülagü, Charlie Tobias, Radek Dao, Pavel Komarov, Knut Rurack, and Vasile-Dan Hodoroaba

Subjects

Core–shell particles, Image analysis, Roughness, Scanning electron microscopy, Atomic force microscopy, Tilting, Medicine, Science

Abstract

Abstract Recently, we have developed an algorithm to quantitatively evaluate the roughness of spherical microparticles using scanning electron microscopy (SEM) images. The algorithm calculates the root-mean-squared profile roughness (RMS-RQ) of a single particle by analyzing the particle’s boundary. The information extracted from a single SEM image yields however only two-dimensional (2D) profile roughness data from the horizontal plane of a particle. The present study offers a practical procedure and the necessary software tools to gain quasi three-dimensional (3D) information from 2D particle contours recorded at different particle inclinations by tilting the sample (stage). This new approach was tested on a set of polystyrene core-iron oxide shell-silica shell particles as few micrometer-sized beads with different (tailored) surface roughness, providing the proof of principle that validates the applicability of the proposed method. SEM images of these particles were analyzed by the latest version of the developed algorithm, which allows to determine the analysis of particles in terms of roughness both within a batch and across the batches as a routine quality control procedure. A separate set of particles has been analyzed by atomic force microscopy (AFM) as a powerful complementary surface analysis technique integrated into SEM, and the roughness results have been compared.

Published

2024

2. Fluorescent molecularly imprinted polymer particles for glyphosate detection using phase transfer agents

Author

Martha Kimani, Evgeniia Kislenko, Kornelia Gawlitza, and Knut Rurack

Subjects

Medicine, Science

Abstract

Abstract In this work, molecular imprinting was combined with direct fluorescence detection of the pesticide Glyphosate (GPS). Firstly, the solubility of highly polar GPS in organic solvents was improved by using lipophilic tetrabutylammonium (TBA+) and tetrahexylammonium (THA+) counterions. Secondly, to achieve fluorescence detection, a fluorescent crosslinker containing urea-binding motifs was used as a probe for GPS-TBA and GPS-THA salts in chloroform, generating stable complexes through hydrogen bond formation. The GPS/fluorescent dye complexes were imprinted into 2–3 nm fluorescent molecularly imprinted polymer (MIP) shells on the surface of sub-micron silica particles using chloroform as porogen. Thus, the MIP binding behavior could be easily evaluated by fluorescence titrations in suspension to monitor the spectral changes upon addition of the GPS analytes. While MIPs prepared with GPS-TBA and GPS-THA both displayed satisfactory imprinting following titration with the corresponding analytes in chloroform, GPS-THA MIPs displayed better selectivity against competing molecules. Moreover, the THA+ counterion was found to be a more powerful phase transfer agent than TBA+ in a biphasic assay, enabling the direct fluorescence detection and quantification of GPS in water. A limit of detection of 1.45 µM and a linear range of 5–55 µM were obtained, which match well with WHO guidelines for the acceptable daily intake of GPS in water (5.32 µM).

Published

2022

3. Author Correction: Fluorescent molecularly imprinted polymer particles for glyphosate detection using phase transfer agents

Author

Martha Kimani, Evgeniia Kislenko, Kornelia Gawlitza, and Knut Rurack

Subjects

Medicine, Science

Published

2023

4. Colorectal Cancer Cell Spheroids Co-Cultured with Molecularly Imprinted Fluorescent Particles Targeting Sialic Acid Show Preserved Cell Viability

Author

Thomas Sjöberg, Zahra El-Schich, Knut Rurack, and Anette Gjörloff Wingren

Subjects

3D culture, colorectal cancer, molecularly imprinted polymers, sialic acid, spheroids, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

In vitro cultured 3D models of CRC have been demonstrated to hold considerable worth in drug discovery, drug resistance analysis, and in studying cell-cell and cell-matrix interactions that occur in the tumor microenvironment. The 3D models resemble the in vivo physiological microenvironment by replicating the cell type composition and tissue architecture. Molecularly imprinted polymers (MIPs) have been investigated for use instead of antibodies against small non-immunogenic structures, such as sialic acid (SA). Glyco-conjugates including SA are present on all cells, and often deregulated on cancer cells. Here, we present a novel approach for targeting and detecting colorectal cancer cells (CRC) by using in vitro cultured HT29 3D spheroids co-cultured in vitro with either fluorescent MIPs targeting SA, SA-MIPs, or the two lectins targeting SA, MAL I, and SNA. Both formaldehyde-fixed and viable HT29 3D spheroids with or without SA-MIPs were imaged in 3D by confocal microscopy. The results revealed a preserved cell morphology and viability of the HT29 3D spheroids co-cultured in vitro with SA-MIPs. However, the lectins MAL I and SNA targeting the α-2,3 or α-2,6 SA glycosidic linkages, respectively, affected the cell viability when co-cultured with the viable HT29 3D spheroids, and no living cells could be detected. Here, we have shown that the SA-MIPs could be used as a safe and low-cost diagnostic tool for targeting and detecting cancer cells in a physiologically relevant 3D cancer model in vitro.

Published

2023

5. Multiplexed Detection of Human Papillomavirus Based on AzaBODIPY-Doped Silica-Coated Polystyrene Microparticles

Author

Gugu Kubheka, Estela Climent, Charlie Tobias, Knut Rurack, John Mack, and Tebello Nyokong

Subjects

azaBODIPY, flow cytometry, multiplex assay, single assay, polystyrene microparticles, silica shell, Biochemistry, QD415-436

Abstract

Human papillomavirus (HPV) DNA detection can enable the early diagnosis of high-risk HPV types responsible for cervical cancer. HPV detection is also essential for investigating the clinical behavior and epidemiology of particular HPV types, characterization of study populations in HPV vaccination trials and monitoring the efficacy of HPV vaccines. In this study, two azaBODIPY dyes (1 and 2) were used as references and were doped into polystyrene particles (PS40), while a short HPV DNA single strand was used as a target molecule and was covalently bound to the silica shell. These particles were employed as optical probes in 1:1 hybridization assays, and their potential applicability as a tool for multiplex assays for the detection of different strands of HPV was evaluated using flow cytometry. A good separation in the fluorescence of the four different concentrations prepared for each dye was observed. To perform the hybridization assays, HPV18, HPV16, HPV11 and HPV6 single strands were attached to the particles through EDC-mediated coupling. The c-DNA-1-PS40 and c-DNA-2-PS40 particles exhibited low limit of detection (LOD) and quantification (LOQ) values for HPV11, and a narrow detection range was obtained. Multiplexed assay experiments were successfully performed for both particles, and the results proved that c-DNA-1-PS40 could potentially be used as a tool for multiplexing assays and merits further in-depth study in this context.

Published

2022

6. Molecularly Imprinted Polymers Exhibit Low Cytotoxic and Inflammatory Properties in Macrophages In Vitro

Author

Louise Sternbæk, Martha Kimani, Kornelia Gawlitza, Knut Rurack, Birgit Janicke, Kersti Alm, Anette Gjörloff Wingren, and Håkan Eriksson

Subjects

molecularly imprinted polymers, digital holographic cytometry, cytotoxicity, pro-inflammatory cytokines, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Molecularly imprinted polymers (MIPs) against sialic acid (SA) have been developed as a detection tool to target cancer cells. Before proceeding to in vivo studies, a better knowledge of the overall effects of MIPs on the innate immune system is needed. The aim of this study thus was to exemplarily assess whether SA-MIPs lead to inflammatory and/or cytotoxic responses when administered to phagocytosing cells in the innate immune system. The response of monocytic/macrophage cell lines to two different reference particles, Alhydrogel and PLGA, was compared to their response to SA-MIPs. In vitro culture showed a cellular association of SA-MIPs and Alhydrogel, as analyzed by flow cytometry. The reference particle Alhydrogel induced secretion of IL-1β from the monocytic cell line THP-1, whereas almost no secretion was provoked for SA-MIPs. A reduced number of both THP-1 and RAW 264.7 cells were observed after incubation with SA-MIPs and this was not caused by cytotoxicity. Digital holographic cytometry showed that SA-MIP treatment affected cell division, with much fewer cells dividing. Thus, the reduced number of cells after SA-MIP treatment was not linked to SA-MIPs cytotoxicity. In conclusion, SA-MIPs have a low degree of inflammatory properties, are not cytotoxic, and can be applicable for future in vivo studies.

Published

2022

7. Red-Emitting Polymerizable Guanidinium Dyes as Fluorescent Probes in Molecularly Imprinted Polymers for Glyphosate Detection

Author

Martha Kimani, Víctor Pérez-Padilla, Virginia Valderrey, Kornelia Gawlitza, and Knut Rurack

Subjects

glyphosate, guanidinium receptors, fluorescent probes, molecularly imprinted polymers, core-shell particles, Biochemistry, QD415-436

Abstract

The development of methodologies to sense glyphosate has gained momentum due to its toxicological and ecotoxicological effects. In this work, a red-emitting and polymerizable guanidinium benzoxadiazole probe was developed for the fluorescence detection of glyphosate. The interaction of the fluorescent probe and the tetrabutylammonium salt of glyphosate was studied via UV/vis absorption and fluorescence spectroscopy in chloroform and acetonitrile. The selective recognition of glyphosate was achieved by preparing molecularly imprinted polymers, able to discriminate against other common herbicides such as 2,4-dichlorophenoxyacetic acid (2,4-D) and 3,6-dichloro-2-methoxybenzoic acid (dicamba), as thin layers on submicron silica particles. The limits of detection of 4.8 µM and 0.6 µM were obtained for the sensing of glyphosate in chloroform and acetonitrile, respectively. The reported system shows promise for future application in the sensing of glyphosate through further optimization of the dye and the implementation of a biphasic assay with water/organic solvent mixtures for sensing in aqueous environmental samples.

Published

2022

8. Rational design of boron-dipyrromethene (BODIPY) reporter dyes for cucurbit[7]uril

Author

Mohammad A. Alnajjar, Jürgen Bartelmeß, Robert Hein, Pichandi Ashokkumar, Mohamed Nilam, Werner M. Nau, Knut Rurack, and Andreas Hennig

Subjects

BODIPY, cucurbituril, fluorescence, pH, photoinduced electron transfer, supramolecular chemistry, Science, Organic chemistry, QD241-441

Abstract

We introduce herein boron-dipyrromethene (BODIPY) dyes as a new class of fluorophores for the design of reporter dyes for supramolecular host–guest complex formation with cucurbit[7]uril (CB7). The BODIPYs contain a protonatable aniline nitrogen in the meso-position of the BODIPY chromophore, which was functionalized with known binding motifs for CB7. The unprotonated dyes show low fluorescence due to photoinduced electron transfer (PET), whereas the protonated dyes are highly fluorescent. Encapsulation of the binding motif inside CB7 positions the aniline nitrogen at the carbonyl rim of CB7, which affects the pKa value, and leads to a host-induced protonation and thus to a fluorescence increase. The possibility to tune binding affinities and pKa values is demonstrated and it is shown that, in combination with the beneficial photophysical properties of BODIPYs, several new applications of host–dye reporter pairs can be implemented. This includes indicator displacement assays with favourable absorption and emission wavelengths in the visible spectral region, fluorescence correlation spectroscopy, and noncovalent surface functionalization with fluorophores.

Published

2018

9. Development of a 'Turn-on' Fluorescent Probe-Based Sensing System for Hydrogen Sulfide in Liquid and Gas Phase

Author

Juergen Bartelmess, Virginia Valderrey, and Knut Rurack

Subjects

sulfide sensing, fluorescence, BODIPY, cobaloxime complex, gas sensing, Chemistry, QD1-999

Abstract

A “turn-on” fluorescence sensing system based on a BODIPY-cobaloxime complex for the detection of H2S in liquid and gas phase was developed. To that aim, two cobaloxime complexes bearing an axial pyridyl-BODIPY ligand were initially evaluated as sensitive fluorescent HS− indicators in aqueous solution. The sensing mechanism involves the selective substitution of the BODIPY ligand by the HS− anion at the cobalt center, which is accompanied by a strong fluorescence enhancement. The selection of a complex with an ideal stability and reactivity profile toward HS− relied on the optimal interaction between the cobalt metal-center and two different pyridyl BODIPY ligands. Loading the best performing BODIPY-cobaloxime complex onto a polymeric hydrogel membrane allowed us to study the selectivity of the probe for HS− against different anions and cysteine. Successful detection of H2S by the fluorescent “light-up” membrane was not only accomplished for surface water but could also be demonstrated for relevant H2S concentrations in gas phase.

Published

2019

10. Loading and Release of Charged and Neutral Fluorescent Dyes into and from Mesoporous Materials: A Key Role for Sensing Applications

Author

Estela Climent, Mandy Hecht, and Knut Rurack

Subjects

mesoporous materials, charged dyes, neutral dyes, dye loading optimisation, dye release, Mechanical engineering and machinery, TJ1-1570

Abstract

The aim of this study is to determine the efficiency of loading and release of several zwitterionic, neutral, anionic and cationic dyes into/from mesoporous nanoparticles to find the optimum loading and release conditions for their application in detection protocols. The loading is carried out for MCM-41 type silica supports suspended in phosphate-buffered saline (PBS) buffer (pH 7.4) or in acetonitrile, involving the dyes (rhodamine B chloride, rhodamine 101 chloride, rhodamine 101 perchlorate, rhodamine 101 inner salt, meso-(4-hydroxyphenyl)-boron–dipyrromethene (BODIPY), sulforhodamine B sodium salt and fluorescein 27). As a general trend, rhodamine-based dyes are loaded with higher efficiency, when compared with BODIPY and fluorescein dyes. Between the rhodamine-based dyes, their charge and the solvent in which the loading process is carried out play important roles for the amount of cargo that can be loaded into the materials. The delivery experiments carried out in PBS buffer at pH 7.4 reveal for all the materials that anionic dyes are more efficiently released compared to their neutral or cationic counterparts. The overall best performance is achieved with the negatively charged sulforhodamine B dye in acetonitrile. This material also shows a high delivery degree in PBS buffer.

Published

2021

11. Towards simple and efficient molecular reporters: combining electron transfer and charge transfer in functional dyes of donor–acceptor–spacer–donor constitution

Author

Knut Rurack and Julia L. Bricks

Subjects

Organic chemistry, QD241-441

Published

2001

12. Development of a Lab-on-a-Chip for the Detection of Nerve Agents with a Handheld Device.

Author

Mustafa Biyikal and Knut Rurack

Published

2023

13. From 2D and Single Particle to 3D and Batch Analysis as a Routine Quality Check Procedure for the Morphological Characterization of Core-Shell Microparticles

Author

Deniz Hülagü, Charlie Tobias, Ardian B Gojani, Knut Rurack, and Vasile-Dan Hodoroaba

Subjects

Instrumentation

Published

2022

14. Combining Electrochemiluminescence Detection with Aptamer‐Gated Indicator Releasing Mesoporous Nanoparticles Enables ppt Sensitivity for Strip‐Based Rapid Tests

Author

Knut Rurack and Estela Climent

Subjects

Materials science, Surface Properties, Aptamer, Nanoparticle, Electrochemical Techniques, Penicillins, General Chemistry, Aptamers, Nucleotide, Mesoporous silica, Fluorescence, Combinatorial chemistry, Catalysis, law.invention, law, Luminescent Measurements, Nanoparticles, Electrochemiluminescence, Indicators and Reagents, Particle Size, Hybrid material, Mesoporous material, Porosity, Reagent Strips, Chemiluminescence

Abstract

The combination of electrogenerated chemiluminescence (ECL) and aptamer-gated indicator delivering (gAID) magnetic mesoporous silica nanoparticles embedded into glass fibre paper functionalised with poly(ethyleneglycol) and N-(3-triethoxysilylpropyl)diethanolamine allowed the development of a rapid test that detects penicillin directly in diluted milk down to 50 ± 9 ppt in

Published

2021

15. Streifenschnelltest mit ppt‐Empfindlichkeit durch Kombination von Elektrochemilumineszenz‐Detektion mit Aptamer‐gesteuerter Indikatorfreisetzung aus mesoporösen Nanopartikeln

Author

Estela Climent and Knut Rurack

Subjects

Materials science, General Medicine

Published

2021

16. Mit dem Testsystem zur Probe

Author

Rudolf J. Schneider, Knut Rurack, and Michael G. Weller

Subjects

Chemistry, General Chemical Engineering, General Chemistry

Published

2021

17. Exploring an Application of Principal Component Analysis to Laser-Induced Breakdown Spectroscopy of Stainless-Steel Standard Samples as a Research Project

Author

Benjamin Schazmann, Carolyn Maher, Igor B. Gornushkin, Ardian B. Gojani, and Knut Rurack

Subjects

Engineering drawing, Standard sample, Computer science, business.industry, General Chemistry, Education, Mentorship, Software, Internship, Principal component analysis, Laser-induced breakdown spectroscopy, Technical skills, Cluster analysis, business

Abstract

Laser-induced breakdown spectroscopy (LIBS) and principal component analysis (PCA) are frequently used for analytical purposes in research and industry, but they seldom are part of the chemistry curriculum or laboratory exercises. This case study paper describes the combined application of LIBS and PCA during a research internship for an undergraduate student. The instructional method applied was based on a one-on-one mentorship, in which case the learner was engaged in a research work. The learning activities included theoretical introductions to the LIBS and PCA methods, numerical simulation, experiments, and data analysis. The study covered three main topics: analysis of LIBS spectra, application of PCA for clustering, and use of PCA for experimental design. The realization of the study was instructive for all parties involved: from the mentorship point of view, it is concluded that the topics can be covered during an internship or developed into a one semester long research-based module of a chemistry program or a final year project. The student, on the other hand, developed profound technical skills in performing experiments and using PCA software for data analysis.

Published

2021

18. Toward Determination of the Surface Roughness of Particles from a SEM Image

Author

Vasile-Dan Hodoroaba, Ardian B. Gojani, Deniz Hülagü, Knut Rurack, and Charlie Tobias

Subjects

Materials science, Optics, business.industry, law, Surface roughness, Image processing, Surface finish, Electron microscope, business, Instrumentation, Grayscale, Image (mathematics), law.invention

Abstract

In this communication, we address the issue of roughness measurement by investigating if the grayscale values from SEM images can be used for surface roughness determination of spherical particles.

Published

2021

19. Imprinted Particles for Direct Fluorescence Detection of Sialic Acid in Polar Media and on Cancer Cells with Enhanced Control of Nonspecific Binding

Author

Anette Gjörloff-Wingren, Kimani Martha, Knut Rurack, Kornelia Gawlitza, Zahra El-Schich, and Sarah Beyer

Subjects

Glycosylation, Polymers and Plastics, Cell, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Flow cytometry, Cell membrane, chemistry.chemical_compound, medicine, chemistry.chemical_classification, medicine.diagnostic_test, flow cytometry, Process Chemistry and Technology, Organic Chemistry, Biochemistry and Molecular Biology, Molecularly imprinted polymer, 021001 nanoscience & nanotechnology, Sialic acid, 0104 chemical sciences, medicine.anatomical_structure, chemistry, Cancer cell, cancer cells, Biophysics, molecularly imprinted polymers, fluorescence, 0210 nano-technology, Glycoprotein, Biokemi och molekylärbiologi

Abstract

Glycoproteins are abundant on the cell surface of mammals, providing structural support, modulating cell membrane properties, and acting as signaling agents. Variation of glycosylation patterns has been found to indicate various disease states, including cell malignancy. Sialic acid (SA) is present as a terminating group on cell-surface glycans, and its overexpression has been linked to several types of cancer. Detection of SA on the cell surface is therefore critical for detection of cancer in its early stages. In this work, a fluorescent molecularly imprinted polymer layer targeting SA was synthesized on the surface of silica-coated polystyrene (PS) particles. Compared to previous works, a PS core supplies a lighter, lower-density support for improved suspension stability and scattering properties. Moreover, their smaller size provides a higher surface-area-to-volume ratio for binding. The incorporation of a fluorescent monomer in the MIP shell allowed for simple and rapid determination of binding specificity in polar media due to a deprotonation-reprotonation interaction mechanism between the fluorescent monomer and SA, which led to spectral changes. Upon titration of the MIP particles with SA in suspension, an increase in fluorescence emission of the particles was observed, with the MIP particles binding SA more selectively compared to the nonimprinted polymer (NIP) control particles. In cell staining experiments performed by flow cytometry, the binding behavior of the MIP particles compared favorably with that of SA-binding lectins. NIPs prepared with a "dummy" template served as a better negative control in cell binding assays due to the favorable inward orientation of template-binding functional groups in the polymer shell, which reduced nonspecific binding. The results show that fluorescent MIPs targeting SA are a promising tool for in vitro fluorescence staining of cancerous cells and for future diagnosis of cancer at early stages.

Published

2021

20. Molecularly Imprinted Polymers Exhibit Low Cytotoxic and Inflammatory Properties in Macrophages In Vitro

Author

Eriksson, Louise Sternbæk, Martha Kimani, Kornelia Gawlitza, Knut Rurack, Birgit Janicke, Kersti Alm, Anette Gjörloff Wingren, and Håkan

Subjects

molecularly imprinted polymers, digital holographic cytometry, cytotoxicity, pro-inflammatory cytokines

Abstract

Molecularly imprinted polymers (MIPs) against sialic acid (SA) have been developed as a detection tool to target cancer cells. Before proceeding to in vivo studies, a better knowledge of the overall effects of MIPs on the innate immune system is needed. The aim of this study thus was to exemplarily assess whether SA-MIPs lead to inflammatory and/or cytotoxic responses when administered to phagocytosing cells in the innate immune system. The response of monocytic/macrophage cell lines to two different reference particles, Alhydrogel and PLGA, was compared to their response to SA-MIPs. In vitro culture showed a cellular association of SA-MIPs and Alhydrogel, as analyzed by flow cytometry. The reference particle Alhydrogel induced secretion of IL-1β from the monocytic cell line THP-1, whereas almost no secretion was provoked for SA-MIPs. A reduced number of both THP-1 and RAW 264.7 cells were observed after incubation with SA-MIPs and this was not caused by cytotoxicity. Digital holographic cytometry showed that SA-MIP treatment affected cell division, with much fewer cells dividing. Thus, the reduced number of cells after SA-MIP treatment was not linked to SA-MIPs cytotoxicity. In conclusion, SA-MIPs have a low degree of inflammatory properties, are not cytotoxic, and can be applicable for future in vivo studies.

Published

2022

21. Toward Label‐Free Optical Multiplexing of Analytes in Indicator Release Lateral Flow Assays via Detection Zones Containing Tailored Capture Materials

Author

Estela Climent, Wei Wan, and Knut Rurack

Subjects

Cultural Studies, History, Literature and Literary Theory

Published

2022

22. Fluorescent Molecularly Imprinted Polymer Layers against Sialic Acid on Silica-Coated Polystyrene Cores—Assessment of the Binding Behavior to Cancer Cells

Author

Stollenwerk, Sarah Beyer, Martha Kimani, Yuecheng Zhang, Alejandra Verhassel, Louise Sternbæk, Tianyan Wang, Jenny L. Persson, Pirkko Härkönen, Emil Johansson, Remi Caraballo, Mikael Elofsson, Kornelia Gawlitza, Knut Rurack, Lars Ohlsson, Zahra El-Schich, Anette Gjörloff Wingren, and Maria M.

Subjects

cancer, imprinting, molecularly imprinted polymers, SA conjugates, sialic acid

Abstract

Sialic acid (SA) is a monosaccharide usually linked to the terminus of glycan chains on the cell surface. It plays a crucial role in many biological processes, and hypersialylation is a common feature in cancer. Lectins are widely used to analyze the cell surface expression of SA. However, these protein molecules are usually expensive and easily denatured, which calls for the development of alternative glycan-specific receptors and cell imaging technologies. In this study, SA-imprinted fluorescent core-shell molecularly imprinted polymer particles (SA-MIPs) were employed to recognize SA on the cell surface of cancer cell lines. The SA-MIPs improved suspensibility and scattering properties compared with previously used core-shell SA-MIPs. Although SA-imprinting was performed using SA without preference for the α2,3- and α2,6-SA forms, we screened the cancer cell lines analyzed using the lectins Maackia Amurensis Lectin I (MAL I, α2,3-SA) and Sambucus Nigra Lectin (SNA, α2,6-SA). Our results show that the selected cancer cell lines in this study presented a varied binding behavior with the SA-MIPs. The binding pattern of the lectins was also demonstrated. Moreover, two different pentavalent SA conjugates were used to inhibit the binding of the SA-MIPs to breast, skin, and lung cancer cell lines, demonstrating the specificity of the SA-MIPs in both flow cytometry and confocal fluorescence microscopy. We concluded that the synthesized SA-MIPs might be a powerful future tool in the diagnostic analysis of various cancer cells.

Published

2022

23. Analysis of the profile roughness of core-shell microparticles by electron microscopy

Author

Ardian B. Gojani, Knut Rurack, Deniz Hülagü, Charlie Tobias, and Vasile-Dan Hodoroaba

Subjects

Core shell, Materials science, law, Surface finish, Electron microscope, Composite material, Instrumentation, law.invention

Published

2021

24. Dip Sticks Embedding Molecular Beacon-Functionalized Core–Mesoporous Shell Particles for the Rapid On-Site Detection of Microbiological Fuel Contamination

Author

Raúl Gotor, Jérémy Bell, Charlie Tobias, Estela Climent, Pedro M. Martin-Sanchez, and Knut Rurack

Subjects

Bioengineering, 02 engineering and technology, 01 natural sciences, Biofouling, Molecular beacon, RNA, Ribosomal, 16S, Instrumentation, Fluid Flow and Transfer Processes, Bacteria, biology, Chemistry, Process Chemistry and Technology, 010401 analytical chemistry, Fungi, DNA, Mesoporous silica, Contamination, 021001 nanoscience & nanotechnology, biology.organism_classification, Fluorescence, 0104 chemical sciences, genomic DNA, Chemical engineering, 0210 nano-technology, Mesoporous material

Abstract

Microbial contamination of fuels by fungi and bacteria presents risks of corrosion and fuel system fouling. In this work, a rapid test for the determination of microbial genomic DNA from aqueous fuel extracts is presented. It combines test strips coated with polystyrene core/mesoporous silica shell particles, to the surface of which modified fluorescent molecular beacons are covalently grafted, with a smartphone detection system. In the hairpin loop, the beacons incorporate a target sequence highly conserved in all bacteria, corresponding to a fragment of the 16S ribosomal RNA gene, which is also present to a significant extent in the 18S rRNA gene of fungi, allowing for broadband microbial detection. In the developed assay, the presence of genomic DNA extracts from bacteria and fungi down to ca. 20-50 μg L-1 induced a distinct fluorescence response. The optical read-out was adapted for on-site monitoring by combining a 3D-printed case with a conventional smartphone, taking advantage of the sensitivity of contemporary complementary metal oxide semiconductor (CMOS) detectors. Such an embedded assembly allowed to detect microbial genomic DNA in aqueous extracts down to ca. 0.2-0.7 mg L-1 and presents an important step toward the on-site uncovering of fuel contamination in a rapid and simple fashion.

Published

2020

25. Multiplexed Detection of Analytes on Single Test Strips with Antibody‐Gated Indicator‐Releasing Mesoporous Nanoparticles

Author

Knut Rurack, Delia Gröninger, Mustafa Biyikal, Estela Climent, Michael G. Weller, and Ramón Martínez-Máñez

Subjects

Analyte, Materials science, Explosive material, Nanoparticle, Nanotechnology, STRIPS, 010402 general chemistry, 01 natural sciences, Multiplexing, Catalysis, Analytical Chemistry, law.invention, law, hybrid materials, Research Articles, Modularity (networks), multiplexing, 010405 organic chemistry, explosives, General Chemistry, 0104 chemical sciences, signal amplification, test-strip analysis, Mesoporous material, Biosensor, Research Article

Abstract

Rapid testing methods for the use directly at a point of need are expected to unfold their true potential especially when offering adequate capabilities for the simultaneous measurement of multiple analytes of interest. Considering the unique modularity, high sensitivity, and selectivity of antibody‐gated indicator delivery (gAID) systems, a multiplexed assay for three small‐molecule explosives (TATP, TNT, PETN) was thus developed, allowing to detect the analytes simultaneously with a single test strip at lower ppb concentrations in the liquid phase in, The three small‐molecule explosives TATP, TNT and PETN can be detected simultaneously with a single test strip at lower ppb concentrations in the liquid phase in

Published

2020

26. Multiplex‐Nachweis von Analyten auf einem einzelnen Teststreifen mit Antikörper‐gesteuerten und Indikator freisetzenden mesoporösen Nanopartikeln

Author

Knut Rurack, Delia Gröninger, Mustafa Biyikal, Ramón Martínez-Máñez, Michael G. Weller, and Estela Climent

Subjects

010405 organic chemistry, General Medicine, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences

Abstract

Vor dem Hintergrund der einzigartigen Modularitat, hohen Empfindlichkeit und Selektivitat von Antikorper‐gesteuerten Indikatorfreisetzungssystemen (gAID‐Systemen) wurde hier ein Multiplex‐Assay fur drei organische Explosivstoffmolekule (TATP, TNT, PETN) entwickelt, der es erlaubt, die Analyten gleichzeitig in flussiger Phase mit einem einzelnen Teststreifen und einem Fluoreszenzlesegerat bzw. Smartphone als Detektor in Konzentrationen bis in den unteren ppb‐Bereich in

Published

2020

27. Toward Luminescent Composites by Phase Transfer of SrF 2 : Eu 3+ Nanoparticles Capped with Hydrophobic Antenna Ligands

Author

Knut Rurack, Alexander Relling, Fabian Beer, Thoralf Krahl, Erhard Kemnitz, and Kornelia Gawlitza

Subjects

Materials science, Cyclohexane, Renewable Energy, Sustainability and the Environment, Sodium dodecylbenzenesulfonate, Energy Engineering and Power Technology, chemistry.chemical_element, Nanoparticle, Biomaterials, chemistry.chemical_compound, Sulfonate, chemistry, Materials Chemistry, Particle, Composite material, Europium, Luminescence, Sol-gel

Abstract

Transparent dispersions of hydrophobic SrF2 :Eu3+ nanoparticles in cyclohexane with up to 20% europium were obtained by fluorolytic sol-gel synthesis followed by Phase transfer into cyclohexane through capping with sodium dodecylbenzenesulfonate (SDBS). The particles were characterized by TEM, XRD and DLS as spherical objects with a diameter between 6 and 11 nm in dry state. 1H-13CP MAS NMR experiments revealed the binding of the anionic sulfonate head group to the particle surface. The particles show bright red luminescence upon excitation of the aromatic capping agents, acting as antennas for an Energy transfer from the benzenesulfonate unit to the Eu3+ centers in the particles. This synthesis method overcomes the current obstacle of the fluorolytic sol-gel synthesis that transparent dispersions can be obtained directly only in hydrophilic solvents. To demonstrate the potential of such hydrophobized alkaline-earth fluoride particles, transparent luminescent organic-inorganic composites with 10% SrF2 :Eu3+ embedded into polyTEGDMA, polyBMA, poly-BDDMA and polyD3MA, respectively, were prepared, endowing the polymers with the luminescence features of the nanoparticles.

Published

2020

28. Stimulated Raman scattering by intracavity mixing of nanosecond laser excitation and fluorescence in acoustically levitated droplets

Author

Yi You, Carsten Warschat, Jens Riedel, Andreas Bierstedt, and Knut Rurack

Subjects

Materials science, Dye laser, business.industry, Resonator mode, Scattering, General Chemical Engineering, General Engineering, Laser, Analytical Chemistry, law.invention, symbols.namesake, Orders of magnitude (time), law, Femtosecond, symbols, Optoelectronics, business, Raman spectroscopy, Raman scattering

Abstract

Raman spectroscopy is becoming a commonly used, powerful tool for structural elucidation and species identification of small liquid samples, e.g. in droplet-based digital microfluidic devices. Due to the low scattering cross sections and the temporal restrictions dictated by the droplet flow, however, it depends on amplification strategies which often come at a cost. In the case of surface-enhanced Raman scattering (SERS), this can be an enhanced susceptibility towards memory effects and cross talk, whereas resonant and/or stimulated Raman techniques require higher instrumental sophistication, such as tunable lasers or the high electromagnetic field strengths which are typically provided by femtosecond lasers. Here, an alternative instrumental approach is discussed, in which stimulated Raman scattering (SRS) is achieved using the single fixed wavelength output of an inexpensive diode-pumped solid-state (DPSS) nanosecond laser. The required field strengths are realized by an effective light trapping in a resonator mode inside the interrogated droplets, while the resonant light required for the stimulation is provided by the fluorescence signal of an admixed laser dye. To elucidate the underlying optical processes, proof-of-concept experiments are conducted on acoustically levitated droplets, mimicking a highly reproducible and stable digital fluidic system. By using isotope-labeled compounds, the assignment of the emitted radiation as Raman scattering is firmly corroborated. A direct comparison reveals an amplification of the usually weak spontaneous Stokes emission by up to five orders of magnitude. Further investigation of the optical power dependence reveals the resulting gain to depend on the intensity of both, the input laser fluence and the concentration of the admixed fluorophore, leaving SRS as the only feasible amplification mechanism. While in this study stable large droplets have been studied, the underlying principles also hold true for smaller droplets, in which case significantly lower laser pulse energy is required. Since DPSS lasers are readily available with high repetition rates, the presented detection strategy bears a huge potential for fast online identification and characterization routines in digital microfluidic devices.

Published

2020

29. Fluorescent Molecularly Imprinted Polymer Layers against Sialic Acid on Silica-Coated Polystyrene Cores-Assessment of the Binding Behavior to Cancer Cells

Author

Sarah, Beyer, Martha, Kimani, Yuecheng, Zhang, Alejandra, Verhassel, Louise, Sternbæk, Tianyan, Wang, Jenny L, Persson, Pirkko, Härkönen, Emil, Johansson, Remi, Caraballo, Mikael, Elofsson, Kornelia, Gawlitza, Knut, Rurack, Lars, Ohlsson, Zahra, El-Schich, Anette Gjörloff, Wingren, and Maria M, Stollenwerk

Abstract

Sialic acid (SA) is a monosaccharide usually linked to the terminus of glycan chains on the cell surface. It plays a crucial role in many biological processes, and hypersialylation is a common feature in cancer. Lectins are widely used to analyze the cell surface expression of SA. However, these protein molecules are usually expensive and easily denatured, which calls for the development of alternative glycan-specific receptors and cell imaging technologies. In this study, SA-imprinted fluorescent core-shell molecularly imprinted polymer particles (SA-MIPs) were employed to recognize SA on the cell surface of cancer cell lines. The SA-MIPs improved suspensibility and scattering properties compared with previously used core-shell SA-MIPs. Although SA-imprinting was performed using SA without preference for the α2,3- and α2,6-SA forms, we screened the cancer cell lines analyzed using the lectins Maackia Amurensis Lectin I (MAL I, α2,3-SA) and Sambucus Nigra Lectin (SNA, α2,6-SA). Our results show that the selected cancer cell lines in this study presented a varied binding behavior with the SA-MIPs. The binding pattern of the lectins was also demonstrated. Moreover, two different pentavalent SA conjugates were used to inhibit the binding of the SA-MIPs to breast, skin, and lung cancer cell lines, demonstrating the specificity of the SA-MIPs in both flow cytometry and confocal fluorescence microscopy. We concluded that the synthesized SA-MIPs might be a powerful future tool in the diagnostic analysis of various cancer cells.

Published

2022

30. Sialyl-tn antigen-imprinted dual fluorescent core-shell nanoparticles for ratiometric Sialyl-Tn antigen detection and dual-color labeling of cancer cells

Author

Shan Jiang, Tianyan Wang, Sandra Behren, Ulrika Westerlind, Kornelia Gawlitza, Jenny L. Persson, and Knut Rurack

Subjects

glycan, core-shell particles, Biochemistry and Molecular Biology, cancer, General Materials Science, molecular imprinting, dual-color labeling, Biokemi och molekylärbiologi

Abstract

Sialyl-Tn (STn or sialyl-Thomsen-nouveau) is a carbohydrate antigen expressed by more than 80% of human carcinomas. We here report a strategy for ratiometric STn detection and dual-color cancer cell labeling, particularly, by molecularly imprinted polymers (MIPs). Imprinting was based on spectroscopic studies of a urea-containing green-fluorescent monomer 1 and STn-Thr-Na (sodium salt of Neu5Acα2-6GalNAcα-O-Thr). A few-nanometer-thin green-fluorescent polymer shell, in which STn-Thr-Na was imprinted with 1, other comonomers, and a cross-linker, was synthesized from the surface of red-emissive carbon nanodot (R-CND)-doped silica nanoparticles, resulting in dual fluorescent STn-MIPs. Dual-color labeling of cancer cells was achieved since both red and green emissions were detected in two separate channels of the microscope and an improved accuracy was obtained in comparison with single-signal MIPs. The flow cytometric cell analysis showed that the binding of STn-MIPs was significantly higher (p < 0.001) than that of non-imprinted polymer (NIP) control particles within the same cell line, allowing to distinguish populations. Based on the modularity of the luminescent core-fluorescent MIP shell architecture, the concept can be transferred in a straightforward manner to other target analytes.

Published

2022

31. Immunochemical Design of Antibody-Gated Indicator Delivery (gAID) Systems Based on Mesoporous Silica Nanoparticles

Author

Estela Climent, Michael G. Weller, Ramón Martínez-Máñez, and Knut Rurack

Subjects

heterologous hapten, QUIMICA INORGANICA, Heterologous hapten, Antibody-gated indicator delivery systems, TATP, Immunochemical response optimization, antibody-gated indicator delivery systems, signal amplification, immunochemical response optimization, Explosives detection, test strip analysis, General Materials Science, explosives detection, Test strip analysis, Signal amplification

Abstract

[EN] In this work, the optimization of the immunochemical response of antibody-gated indicator delivery (gAID) systems prepared with mesoporous silica nanoparticles has been studied along various lines of system tailoring, targeting the peroxide-type explosive TATP as an exemplary analyte. The mechanism of detection of these gAID systems relies on a displacement of an antibody "cap" bound to hapten derivatives anchored to the surface of a porous hybrid material, allowing the indicator cargo stored in the mesopores to escape and massively amplify the analyte-related signal. Since our aim was to obtain gAID systems with the best possible response in terms of sensitivity, selectivity, and assay time, sera obtained from different immunization boosts were screened, the influence of auxiliary reagents was assessed, structural hapten modification (hapten heterology) was investigated, and various indicator dyes and host materials were tested. Considering that highly selective and sensitive immunological responses are best obtained with highaffinity antibodies which, however, could possess rather slow dissociation constants, leading to slow responses, the main challenge was to optimize the immunochemical recognition system for a rapid response while maintaining a high sensitivity and selectivity. The best performance was observed by grafting a slightly mismatching (heterologous) hapten to the surface of the nanoparticles in combination with high-affinity antibodies as "caps", yielding for the first time gAID nanomaterials for which the response time could be improved from hours to, This research was funded by the German Research Foundation (DFG; CL 761/1-19), the Spanish Government (project RTI2018-100910-B-C41 (MCUI/FEDER, EU)), and the Generalitat Valenciana (project PROMETEO 2018/024).

Published

2022

32. Dualplex lateral flow assay for simultaneous scopolamine and 'cannibal drug' detection based on receptor-gated mesoporous nanoparticles

Author

Eva Garrido, Estela Climent, M. Dolores Marcos, Félix Sancenón, Knut Rurack, and Ramón Martínez-Máñez

Subjects

QUIMICA ORGANICA, Scopolamine, QUIMICA INORGANICA, Humans, Nanoparticles, General Materials Science, Bethanechol, Silicon Dioxide, Nanostructures

Abstract

[EN] We report herein the design of a strip-based rapid test utilizing bio-inspired hybrid nanomaterials for the in situ and at site detection of the drug scopolamine (SCP) using a smartphone for readout, allowing SCP identification in diluted saliva down to 40 nM in less than 15 min. For this purpose, we prepared a nanosensor based on mesoporous silica nanoparticles loaded with a fluorescent reporter (rhodamine B) and functionalized with bethanechol, a potent agonist of recombinant human muscarinic acetylcholine receptor M-2 (M-2-AChR). M-2-AChR interaction with the anchored bethanechol derivative leads to capping of the pores. The sensing mechanism relies on binding of SCP to M-2-AChR resulting in pore opening and delivery of the entrapped rhodamine B reporter. Moreover, the material was incorporated into strips for lateral-flow assays coupled to smartphone readout, giving fast response time, good selectivity, and exceptional sensitivity. In an attempt to a mobile analytical test system for law enforcement services, we have also developed a dualplex lateral flow assay for SCP and 3,4-methylenedioxypyrovalerone (MDPV) also known as the so-called "cannibal drug"., This research was funded by the Ministerio de Ciencia, Innovacion y Universidades (Spanish Government), the Agencia Estatal de Investigacion (AEI), the European Union (projects RTI2018-100910-B-C41 and RTI2018-101599-B-C22-AR (MCIU/AEI/FEDER, EU), the Conselleria de Innovacion, Universidades, Ciencia y Sociedad Digital, Generalitat Valenciana (Project PROMETEO 2018/024) and the German Research Foundation (DFG; CL 761/1-19). E. G. is grateful to the Spanish MEC for her FPU grant (FPU16/02464).

Published

2022

33. Strip-based lateral flow-type indicator displacement assay for γ-hydroxybutyric acid (GHB) detection in beverages

Author

Eva Garrido, Guillermo Hernández-Sigüenza, Estela Climent, M. Dolores Marcos, Knut Rurack, Pablo Gaviña, Margarita Parra, Félix Sancenón, Vicente Martí-Centelles, and Ramón Martínez-Máñez

Subjects

Materials Chemistry, Metals and Alloys, Electrical and Electronic Engineering, Condensed Matter Physics, Instrumentation, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Published

2023

34. Thiourea- and Amino-Substituted Benzoxadiazole Dyes with Large Stokes Shifts as Red-Emitting Probe Monomers for Imprinted Polymer Layers Targeting Carboxylate-Containing Antibiotics

Author

Virginia Valderrey, Kornelia Gawlitza, and Knut Rurack

Subjects

Molecular Imprinting, Polymers, Molecular Probes, Organic Chemistry, Thiourea, General Chemistry, Catalysis, Anti-Bacterial Agents, Fluorescent Dyes

Abstract

Bifunctional fluorescent molecular oxoanion probes based on the benzoxadiazole (BD) chromophore are described which integrate a thiourea binding motif and a polymerizable 2-aminoethyl methacrylate unit in the 4,7-positions of the BD core. Concerted charge transfer in this electron donor-acceptor-donor architecture endows the dyes with strongly Stokes shifted (up to250 nm) absorption and fluorescence. Binding of electron-rich carboxylate guests at the thiourea receptor leads to further analyte-induced red-shifts of the emission, shifting the fluorescence maximum of the complexes to ≥700 nm. Association constants for acetate are ranging from 1-5×10

Published

2021

35. Dual-Fluorescent Nanoparticle Probes Consisting of a Carbon Nanodot Core and a Molecularly Imprinted Polymer Shell

Author

Shan, Jiang, Kornelia, Gawlitza, and Knut, Rurack

Subjects

Molecular Imprinting, Molecularly Imprinted Polymers, Quantum Dots, Nanoparticles, Carbon, Fluorescent Dyes

Abstract

Dual-fluorescent molecularly imprinted nanoparticles with a red-emissive carbon nanodot-doped silica core and a chlorogenic acid-imprinted fluorescent polymer layer are prepared and their use in ratiometric fluorometric analysis is described. Nanoparticle probes consisting of a shielded and stably emitting core and a shell with embedded binding sites that indicates the presence of an analyte with a change in emission allow for internally referenced measurements potentially accounting for detrimental influences from instrument drifts, light source fluctuations or sensor materials-related inhomogeneities.

Published

2021

36. On the Aggregation Behaviour and Spectroscopic Properties of Alkylated and Annelated Boron‐Dipyrromethene (BODIPY) Dyes in Aqueous Solution

Author

Ana B. Descalzo, Pichandi Ashokkumar, Zhen Shen, and Knut Rurack

Subjects

Aqueous solution, Aqueous medium, Chemistry, Organic Chemistry, chemistry.chemical_element, Alkylation, Photochemistry, Excimer, Fluorescence, Analytical Chemistry, chemistry.chemical_compound, Physical and Theoretical Chemistry, BODIPY, Boron, J-aggregate

Abstract

The tendency of boron-dipyrromethene (BODIPY) dyes to associate in water is well known, and usually a cause for inferior fluorescence properties. Synthetic efforts to chemically improve BODIPYs’ water solubility and minimize this problem have been numerous in the past. However, a deeper understanding of the phenomena responsible for fluorescence quenching is still required. Commonly, the spectroscopic behaviour in aqueous media has been attributed to aggregate or excimer formation, with such works often centring on a single BODIPY family. Herein, we provide an integrating discussion including very diverse types of BODIPY dyes. Our studies revealed that even subtle structural changes can distinctly affect the association behaviour of the fluorophores in water, involving different photophysical processes. The palette of behaviour found ranges from unperturbed emission, to the formation of H or J aggregates and excimers, to the involvement of tightly bound, preformed excimers. These results are a first step to a more generalized understanding of spectroscopic properties vs. structure, facilitating future molecular design of BODIPYs, especially as probes for biological applications.

Published

2019

37. Wash-Free Multiplexed Mix-and-Read Suspension Array Fluorescence Immunoassay for Anthropogenic Markers in Wastewater

Author

Andreas Lehmann, Knut Rurack, Rudolf J. Schneider, Dominik Sarma, Kristin Hoffmann, Bruno J.R. Gregório, and Peter Carl

Subjects

Diclofenac, Formaldehyde, Wastewater, 010402 general chemistry, Tandem mass spectrometry, 01 natural sciences, Fluorescence, Analytical Chemistry, chemistry.chemical_compound, Microtiter plate, Suspensions, Limit of Detection, Tandem Mass Spectrometry, Caffeine, medicine, Humans, Immunoassay, Detection limit, Chromatography, medicine.diagnostic_test, Chemistry, 010401 analytical chemistry, 0104 chemical sciences, Carbamazepine, Reagent, Sewage treatment, Biomarkers, Water Pollutants, Chemical, Chromatography, Liquid, Environmental Monitoring

Abstract

Pharmaceuticals, certain food ingredients, and mammalian endogenous metabolic products in wastewater are mostly of human origin. They are anthropogenic markers. Proper knowledge of their levels in wastewater helps to track sources of pollutants in natural waters and allows for calculation of removal efficiencies in wastewater treatment plants. Here, we describe the development and application of an indirect competitive, multiplexing suspension array fluorescence immunoassay (SAFIA) for the detection of carbamazepine (CBZ), diclofenac (DCF), caffeine (CAF), and isolithocholic acid (ILA) in wastewater, covering those classes of anthropogenic markers. The assay consists of haptens covalently conjugated to fluorescence-encoded polystyrene core/silica shell microparticles to create a site for competitive binding of the antibodies (Abs). Bound Abs are then stained with fluorophore-labeled Abs. Encoding and signaling fluorescence of the particles are determined by an automated flow cytometer. For compatibility of the immunoassay with the 96-well microtiter plate format, a stop reagent, containing formaldehyde, is used. This enables a wash-free procedure while decreasing time-to-result. Detection limits of 140 ± 40 ng/L for CBZ, 180 ± 110 ng/L for CAF, 4 ± 3 ng/L for DCF, and 310 ± 70 ng/L for ILA are achieved, which meet the sensitivity criteria of wastewater analysis. We demonstrate the applicability of SAFIA to real wastewater samples from three different wastewater treatment plants, finding the results in good agreement with LC-MS/MS. Moreover, the accuracy in general exceeded that from classical ELISAs. We therefore propose SAFIA as a quick and reliable approach for wastewater analysis meeting the requirements for process analytical technology.

Published

2019

38. Microfluidic Device for the Determination of Water Chlorination Levels Combining a Fluorescent meso-Enamine Boron Dipyrromethene Probe and a Microhydrocyclone for Gas Bubble Separation

Author

Juergen Bartelmess, Adam Tillo, Jérémy Bell, Knut Rurack, and Vraj P. Chauhan

Subjects

Detection limit, 010401 analytical chemistry, Microfluidics, Hypochlorite, chemistry.chemical_element, 010402 general chemistry, 01 natural sciences, Fluorescence, 0104 chemical sciences, Analytical Chemistry, chemistry.chemical_compound, Water chlorination, chemistry, Chemical engineering, Chlorine, Fluidics, BODIPY

Abstract

Chlorination procedures are commonly applied in swimming pool water and wastewater treatment, yet also in food, pharmaceutical, and paper production. The amount of chlorine in water needs to be strictly controlled to ensure efficient killing of pathogens but avoid the induction of negative health effects. Miniaturized microfluidic fluorescence sensors are an appealing approach here when aiming at online or at-site measurements. Two meso-enamine-substituted boron dipyrromethene (BODIPY) dyes were found to exhibit favorable indication properties, their reaction with hypochlorite leading to strong fluorescence enhancement. Real-time assays became possible after integration of these fluorescent probes with designed two-dimensional (2D) and three-dimensional (3D) microfluidic chips, incorporating a passive sinusoidal mixer and a microhydrocyclone, respectively. A comparison of the two microfluidic systems, including their abilities to prevent accumulation or circulation of microbubbles produced by the chemical indication reaction, showed excellent fluidic behavior for the microhydrocyclone-based device. After coupling to a miniaturized optical reader for fluorescence detection, the 2D microfluidic system showed a promising detection range of 0.04-0.5 mg L-1 while still being prone to bubble-induced fluctuations and suffering from considerably low signal gain. The microhydrocyclone-based system was distinctly more robust against gas bubbles, showed a higher signal gain, and allowed us to halve the limit of detection to 0.02 mg L-1. The use of the 3D system to quantify the chlorine content of swimming pool water samples for sensitive and quantitative chlorine monitoring was demonstrated.

Published

2019

39. Tailored fluorescent solvatochromic test strips for quantitative on-site detection of gasoline fuel adulteration

Author

Knut Rurack, Jérémy Bell, and Raúl Gotor

Subjects

Kerosene, Materials science, business.industry, Solvatochromism, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Test strips, chemistry.chemical_compound, chemistry, Materials Chemistry, Solvent polarity, Chemical test, Gasoline, 0210 nano-technology, Process engineering, business, Gasoline fuel

Abstract

Gasoline adulteration is a frequent problem world-wide, because of the chance of quick, maximized profits. However, addition of cheaper ethanol or hydrocarbons like kerosene does not only result in economic damage but also poses problems for vehicles and the environment. To enable law enforcement forces, customers or enterprises to uncover such a fraudulent activity directly upon suspicion and without the need to organize for sampling and laboratory analysis, we developed a simple strip-based chemical test. Key to the favorable performance was the dedicated materials tailoring, which led to test strips that consisted of a cellulose support coated with silica, passivated with hexamethyldisilazane and functionalized covalently with a molecular probe. The probe fluoresces brightly across a broad solvent polarity range, enabling reliable quantitative measurements and data analysis with a conventional smartphone. The assays showed high reproducibility and accuracy, allowing not only for the detection of gasoline adulteration but also for the on-site monitoring of the quality of commercial E10 gasoline.

Published

2019

40. Loading and Release of Charged and Neutral Fluorescent Dyes into and from Mesoporous Materials: A Key Role for Sensing Applications

Author

Mandy Hecht, Knut Rurack, and Estela Climent

Subjects

lcsh:Mechanical engineering and machinery, Sulforhodamine B, dye release, 02 engineering and technology, mesoporous materials, dye loading optimisation, 010402 general chemistry, 01 natural sciences, Chloride, Article, Rhodamine, chemistry.chemical_compound, medicine, lcsh:TJ1-1570, Electrical and Electronic Engineering, Acetonitrile, Mechanical Engineering, Cationic polymerization, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Solvent, neutral dyes, chemistry, Control and Systems Engineering, BODIPY, 0210 nano-technology, Mesoporous material, charged dyes, medicine.drug, Nuclear chemistry

Abstract

The aim of this study is to determine the efficiency of loading and release of several zwitterionic, neutral, anionic and cationic dyes into/from mesoporous nanoparticles to find the optimum loading and release conditions for their application in detection protocols. The loading is carried out for MCM-41 type silica supports suspended in phosphate-buffered saline (PBS) buffer (pH 7.4) or in acetonitrile, involving the dyes (rhodamine B chloride, rhodamine 101 chloride, rhodamine 101 perchlorate, rhodamine 101 inner salt, meso-(4-hydroxyphenyl)-boron–dipyrromethene (BODIPY), sulforhodamine B sodium salt and fluorescein 27). As a general trend, rhodamine-based dyes are loaded with higher efficiency, when compared with BODIPY and fluorescein dyes. Between the rhodamine-based dyes, their charge and the solvent in which the loading process is carried out play important roles for the amount of cargo that can be loaded into the materials. The delivery experiments carried out in PBS buffer at pH 7.4 reveal for all the materials that anionic dyes are more efficiently released compared to their neutral or cationic counterparts. The overall best performance is achieved with the negatively charged sulforhodamine B dye in acetonitrile. This material also shows a high delivery degree in PBS buffer.

Published

2021

41. Dual detection of nafcillin using a molecularly imprinted polymer-based platform coupled to thermal and fluorescence read-out

Author

Katarina Novakovic, A. Hudson, Thais C. C. Soares, Francesco Mecozzi, Knut Rurack, Oliver Jamieson, Marloes Peeters, Robert D. Crapnell, Alex Laude, and Jonas Gruber

Subjects

Fluorophore, Materials science, Molecularly imprinted polymer, FLUORESCÊNCIA, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Methacrylate, 01 natural sciences, Fluorescence, 0104 chemical sciences, chemistry.chemical_compound, Monomer, chemistry, Polymerization, Chemical engineering, Methacrylic acid, Chemistry (miscellaneous), General Materials Science, 0210 nano-technology, Molecular imprinting

Abstract

Reported here is the production of molecularly imprinted polymer (MIP) films, integrating a fluorescent moiety that serves as both an element for template interaction and signalling, for the thermal and optical detection of the beta-lactam antibiotic nafcillin. Fluorescein methacrylate (FluMa) was synthesized and introduced during the molecular imprinting process as the sole monomer and in a 1 : 1 mixture with methacrylic acid (MAA), allowing to draw first conclusions on the MIP formation potential of such a rather large and rigid monomer. At first, MIP microparticles containing FluMa were prepared by free radical polymerisation. Optical batch rebinding experiments revealed that FluMa can act as a functional monomer for selective detection of nafcillin; however, the addition of MAA as co-monomer significantly improved performance. Subsequently, thin MIP films containing FluMa were deposited onto functionalised glass slides and the influence of porogen, drying time, and monomer composition was studied. These MIP-functionalised glass electrodes were mounted into a customised 3D-printed flow cell, where changes in the liquid were either evaluated with a thermal device or using fluorescence bright field microscopy. Thermal analysis demonstrated that multiple MIP layers enhanced sensor specificity, with detection in the environmentally relevant range. The fluorescence bright field microscope investigations validated these results, showing an increase in the fluorescence intensity upon exposure of the MIP-functionalised glass slides to nafcillin solutions. These are promising results for developing a portable sensor device that can be deployed for antibiotics outside of a dedicated laboratory environment, especially if sensor design and fluorophore architecture are optimised.

Published

2021

42. Polystyrene Microparticles with Convergently Grown Mesoporous Silica Shells as a Promising Tool for Multiplexed Bioanalytical Assays

Author

Knut Rurack, Kornelia Gawlitza, Charlie Tobias, and Estela Climent

Subjects

Boron Compounds, Materials science, Microplastics, Oligonucleotides, DNA, Single-Stranded, 02 engineering and technology, Alphapapillomavirus, 010402 general chemistry, 01 natural sciences, chemistry.chemical_compound, Limit of Detection, General Materials Science, Fluorescent Dyes, Detection limit, chemistry.chemical_classification, Mobil Composition of Matter, Biomolecule, Succinic anhydride, Nucleic Acid Hybridization, Mesoporous silica, 021001 nanoscience & nanotechnology, Flow Cytometry, Fluoresceins, Silicon Dioxide, 0104 chemical sciences, Chemical engineering, chemistry, DNA, Viral, Surface modification, Polystyrenes, Polystyrene, 0210 nano-technology, Mesoporous material, Porosity

Abstract

Functional core/shell particles are highly sought after in analytical chemistry, especially in methods suitable for single-particle analysis such as flow cytometry because they allow for facile multiplexed detection of several analytes in a single run. Aiming to develop a powerful bead platform of which the core particle can be doped in a straightforward manner while the shell offers the highest possible sensitivity when functionalized with (bio)chemical binders, polystyrene particles were coated with different kinds of mesoporous silica shells in a convergent growth approach. Mesoporous shells allow us to obtain distinctly higher surface areas in comparison with conventional nonporous shells. While assessing the potential of narrow- as well as wide-pore silicas such as Mobil composition of matter no. 41 (MCM-41) and Santa Barbara amorphous material no. 15 (SBA-15), especially the synthesis of the latter shells that are much more suitable for biomolecule anchoring was optimized by altering the pH and both, the amount and type of the mediator salt. Our studies showed that the best performing material resulted from a synthesis using neutral conditions and MgSO4 as an ionic mediator. The analytical potential of the particles was investigated in flow cytometric DNA assays after their respective functionalization for individual and multiplexed detection of short oligonucleotide strands. These experiments revealed that a two-step modification of the silica surface with amino silane and succinic anhydride prior to coupling of an amino-terminated capture DNA (c-DNA) strand is superior to coupling carboxylic acid-terminated c-DNA to aminated core/shell particles, yielding limits of detection (LOD) down to 5 pM for a hybridization assay, using labeled complementary single-stranded target DNA (t-DNA) 15mers. The potential of the use of the particles in multiplexed analysis was shown with the aid of dye-doped core particles carrying a respective SBA-15 shell. Characteristic genomic sequences of human papillomaviruses (HPV) were chosen as the t-DNA analytes here, since their high relevance as carcinogens and the high number of different pathogens is a relevant model case. The title particles showed a promising performance and allowed us to unequivocally detect the different high- and low-risk HPV types in a single experimental run.

Published

2020

43. Optimization of analytical assay performance of antibody-gated indicator-releasing mesoporous silica particles

Author

Wei Wan, Kornelia Gawlitza, Elena Costa, Knut Rurack, Estela Climent, and Michael G. Weller

Subjects

Analyte, Materials science, Surface Properties, Microfluidics, Biomedical Engineering, Nanotechnology, Antibodies, Drug Delivery Systems, Lab-On-A-Chip Devices, Nano, General Materials Science, Microparticle, Particle Size, Pesticides, Fluorescent Dyes, Molecular Structure, General Chemistry, General Medicine, Mesoporous silica, Microfluidic Analytical Techniques, Silicon Dioxide, Drug delivery, Particle, Indicators and Reagents, Smartphone, Biosensor, Porosity

Abstract

Antibody-gated indicator delivery (gAID) systems based on mesoporous silica nano- and microparticle scaffolds are a promising class of materials for the sensitive chemical detection of small-molecule analytes in simple test formats such as lateral flow assays (LFAs) or microfluidic chips. Their architecture is reminiscent of drug delivery systems, only that reporter molecules instead of drugs are stored in the voids of a porous host particle. In addition, the pores are closed with macromolecular “caps” through a tailored “gatekeeping” recognition chemistry so that the caps are opened when an analyte has reacted with a “gatekeeper”. The subsequent uncapping leads to a release of a large number of indicator molecules, endowing the system with signal amplification features. Particular benefits of such systems are their modularity and adaptability. With the example of the immunochemical detection of type-I pyrethroids by fluorescent dye-releasing gAID systems, the influence of several tuning modes on the optimisation of such hybrid sensory materials is introduced here. In particular, different mesoporous silica supports (from nano- and microparticles to platelets and short fibres), different functionalisation routes and different loading sequences were assessed. The materials’ performances were evaluated by studying their temporal response behaviour and detection sensitivity, including the tightness of pore closure (through the amount of blank release in the absence of analyte) and the release kinetics. Our results indicate that the better the paratope-accommodating Fab region of the antibody “cap” fits into the host material's pore opening, the better the closing/opening mechanism can be controlled. Because such materials are well-suited for LFAs, performance assessment included a test-strip format besides conventional assays in suspension. In combination with dyes as indicators and smartphones for read-out, simple analytical tests for use by untrained personnel directly at a point-of-need such as an aeroplane cabin can be devised, allowing for sensitivities down to the μg kg−1 range in

Published

2020

44. Development of a lateral flow test for rapid pyrethroid detection using antibody-gated indicator-releasing hybrid materials

Author

Sandra Ast, Elena Costa, John Canning, Knut Rurack, Michael G. Weller, and Estela Climent

Subjects

Materials science, Time Factors, 02 engineering and technology, Gating, STRIPS, Biosensing Techniques, 010402 general chemistry, 01 natural sciences, Biochemistry, Rapid detection, Antibodies, 0301 Analytical Chemistry, 0399 Other Chemical Sciences, Analytical Chemistry, law.invention, Polyethylene Glycols, Test strips, Lateral flow test, chemistry.chemical_compound, law, Pyrethrins, Electrochemistry, Environmental Chemistry, Spectroscopy, Pyrethroid, Chromatography, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Surface modification, 0210 nano-technology, Hybrid material

Abstract

The employment of type-I pyrethroids for airplane disinfection in recent years underlines the necessity to develop sensing schemes for the rapid detection of these pesticides directly at the point-of-use. Antibody-gated indicator-releasing materials were thus developed and implemented with test strips for lateral-flow assay-based analysis employing a smartphone for readout. Besides a proper matching of pore sizes and gating macromolecules, the functionalization of both the material's outer surface as well as the strips with PEG chains enhanced system performance. This simple assay allowed for the detection of permethrin as a target molecule at concentrations down to the lower ppb level in less than 5 minutes.

Published

2020

45. Selective detection of phospholipids using molecularly imprinted fluorescent sensory core-shell particles

Author

Sudhirkumar Shinde, Guoqing Pan, BoÌrje Sellergren, Michele Lanzillotta, Giuliana Grasso, Qianjin Li, Rahma Abouhany, Knut Rurack, Antonio Caroli, and Wei Wan

Subjects

Polymers, lcsh:Medicine, 010402 general chemistry, 01 natural sciences, Fluorescence, Article, Analytical Chemistry, Nanocomposites, Molecular Imprinting, chemistry.chemical_compound, Sphingosine, Analytisk kemi, Humans, lcsh:Science, Fluorescence spectroscopy, Detection limit, Multidisciplinary, Aqueous solution, Chromatography, 010405 organic chemistry, Fingolimod Hydrochloride, Sensors, lcsh:R, Molecularly imprinted polymer, Phosphatidic acid, Phosphate, Silicon Dioxide, Sensors and biosensors, 0104 chemical sciences, Monomer, Biosensors, chemistry, Linear range, Fluorescent probes, Nanoparticles, lcsh:Q, lipids (amino acids, peptides, and proteins), Lysophospholipids, Biomarkers

Abstract

Sphingosine-1-phosphate (S1P) is a bioactive sphingo-lipid with a broad range of activities coupled to its role in G-protein coupled receptor signalling. Monitoring of both intra and extra cellular levels of this lipid is challenging due to its low abundance and lack of robust affinity assays or sensors. We here report on fluorescent sensory core-shell molecularly imprinted polymer (MIP) particles responsive to near physiologically relevant levels of S1P and the S1P receptor modulator fingolimod phosphate (FP) in spiked human serum samples. Imprinting was achieved using the tetrabutylammonium (TBA) salt of FP or phosphatidic acid (DPPA·Na) as templates in combination with a polymerizable nitrobenzoxadiazole (NBD)-urea monomer with the dual role of capturing the phospho-anion and signalling its presence. The monomers were grafted from ca 300 nm RAFT-modified silica core particles using ethyleneglycol dimethacrylate (EGDMA) as crosslinker resulting in 10–20 nm thick shells displaying selective fluorescence response to the targeted lipids S1P and DPPA in aqueous buffered media. Potential use of the sensory particles for monitoring S1P in serum was demonstrated on spiked serum samples, proving a linear range of 18–60 µM and a detection limit of 5.6 µM, a value in the same range as the plasma concentration of the biomarker.

Published

2020

46. Generalized Analysis Approach of the Profile Roughness by Electron Microscopy with the Example of Hierarchically Grown Polystyrene–Iron Oxide–Silica Core–Shell–Shell Particles

Author

Deniz Hülagü, Charlie Tobias, Estela Climent, Ardian Gojani, Knut Rurack, and Vasile-Dan Hodoroaba

Subjects

General Materials Science, Condensed Matter Physics

Published

2022

47. Multifunctional Polystyrene Core/Silica Shell Microparticles with Antifouling Properties for Bead-Based Multiplexed and Quantitative Analysis

Author

Estela Climent, Dominik Sarma, Knut Rurack, Peter Carl, and Rudolf J. Schneider

Subjects

Materials science, High-refractive-index polymer, Dispersity, Core (manufacturing), 02 engineering and technology, Bead, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Chemical engineering, Polymerization, visual_art, visual_art.visual_art_medium, Surface modification, General Materials Science, Polystyrene, BODIPY, 0210 nano-technology

Abstract

Commercial bead-based assays are commonly built upon polystyrene particles. The polymeric carrier can be encoded with organic dyes and has ideal material properties for cytometric applications such as low density and high refractive index. However, functional groups are conventionally integrated during polymerization and subsequent modification is limited to the reactivity of those groups. Additionally, polystyrene as the core material leads to many hydrophobic areas still being present on the beads’ surfaces even after functionalization, rendering the particles prone to nonspecific adsorption during an application. The latter calls for several washing steps and the use of additives in (bio)analytical assays. In this contribution, we show how these limitations can be overcome by using monodisperse polystyrene (PS) core/silica (SiO2) shell particles (SiO2@PS). Two different hydrophobic BODIPY (boron–dipyrromethene) dyes were encapsulated inside a poly(vinylpyrrolidone) (PVP) -stabilized polystyrene core in...

Published

2018

48. Microfluidic electrochemical immunosensor for the trace analysis of cocaine in water and body fluids

Author

Rudolf J. Schneider, Nahla A. Abdelshafi, Knut Rurack, and Jérémy Bell

Subjects

Microfluidics, Pharmaceutical Science, Enzyme-Linked Immunosorbent Assay, Electrochemistry, 01 natural sciences, Analytical Chemistry, law.invention, 03 medical and health sciences, 0302 clinical medicine, Cocaine, Limit of Detection, law, Humans, Environmental Chemistry, 030216 legal & forensic medicine, Saliva, Spectroscopy, Detection limit, Chromatography, Chemistry, Magnetic Phenomena, 010401 analytical chemistry, Water, Electrochemical Techniques, Lab-on-a-chip, Microspheres, 0104 chemical sciences, Working range, Substance Abuse Detection, Trace analysis, Cyclic voltammetry, Biosensor

Abstract

Quick but accurate testing and on-the-spot monitoring of cocaine in oral fluids and urine continues to be an important toxicological issue. In terms of drug testing, a number of devices have been introduced into the market in recent decades, notably for workplace inspection or roadside testing. However, these systems do not always fulfill the requirements in terms of reliability, especially when low cut-off levels are required. With respect to surface water, the presence of anthropogenic small organic molecules such as prescription and over-the-counter pharmaceuticals as well as illicit drugs like cannabinoids, heroin, or cocaine, has become a challenge for scientists to develop new analytical tools for screening and on-site analysis because many of them serve as markers for anthropogenic input and consumer behavior. Here, a modular approach for the detection of cocaine is presented, integrating an electrochemical enzyme-linked immunosorbent assay (ELISA) performed on antibody-grafted magnetic beads in a hybrid microfluidic sensor utilizing flexible tubing, static chip and screen-printed electrode (SPE) elements for incubation, recognition, and cyclic voltammetry measurements. A linear response of the sensor vs. the logarithm of cocaine concentration was obtained with a limit of detection of 0.15 ng/L. Within an overall assay time of 25 minutes, concentrations down to 1 ng/L could be reliably determined in water, oral fluids, and urine, the system possessing a dynamic working range up to 1 mg/L.

Published

2018

49. Mix‐&‐Read Determination of Mercury(II) at Trace Levels with Hybrid Mesoporous Silica Materials Incorporating Fluorescent Probes by a Simple Mix‐&‐Load Technique

Author

Estela Climent, Kornelia Gawlitza, Knut Rurack, Heike Witthuhn, and Mandy Hecht

Subjects

mercury, Trace Amounts, Inorganic chemistry, 02 engineering and technology, mesoporous materials, 010402 general chemistry, 01 natural sciences, Cover Profile, lcsh:Chemistry, chemistry.chemical_compound, Crown ether, Detection limit, chemistry.chemical_classification, Aqueous solution, Full Paper, 010405 organic chemistry, Chemistry, General Chemistry, Mesoporous silica, Full Papers, 021001 nanoscience & nanotechnology, Fluorescence, 0104 chemical sciences, test strips, lcsh:QD1-999, fluorescence, BODIPY, dyes/pigments, 0210 nano-technology, Mesoporous material

Abstract

The synthesis, characterization, and application of mesoporous materials containing boron–dipyrromethene (BODIPY) moieties that allow the sensitive and selective detection of HgII in aqueous environments by fluorescence enhancement is reported. For this purpose, BODIPY dye I containing a thia‐aza crown ether receptor as the fluorescent probe for the detection of HgII in aqueous environments is encapsulated into mesoporous materials to avoid self‐quenching or aggregation in water. Determination of HgII is accomplished within a few seconds with high selectivity and sensitivity, reaching a limit of detection of 12 ppt. The determination of trace amounts of HgII in natural waters and in fish extracts is demonstrated by using our sensing material. The incorporation of the material into several μ‐PAD strips yields a portable, cheap, quick, and easy‐to‐handle tool for trace HgII analysis in water.

Published

2018

50. Rational design of boron-dipyrromethene (BODIPY) reporter dyes for cucurbit[7]uril

Author

Werner M. Nau, Pichandi Ashokkumar, Jürgen Bartelmeß, Mohammad A. Alnajjar, Robert Hein, Knut Rurack, Mohamed Nilam, and Andreas Hennig

Subjects

Supramolecular chemistry, Fluorescence correlation spectroscopy, Protonation, 010402 general chemistry, Photochemistry, 01 natural sciences, Full Research Paper, supramolecular chemistry, Photoinduced electron transfer, lcsh:QD241-441, photoinduced electron transfer, chemistry.chemical_compound, lcsh:Organic chemistry, BODIPY, lcsh:Science, pH, 010405 organic chemistry, Chemistry, Organic Chemistry, Rational design, Chromophore, Fluorescence, cucurbituril, 0104 chemical sciences, lcsh:Q, fluorescence

Abstract

We introduce herein boron-dipyrromethene (BODIPY) dyes as a new class of fluorophores for the design of reporter dyes for supramolecular host–guest complex formation with cucurbit[7]uril (CB7). The BODIPYs contain a protonatable aniline nitrogen in the meso-position of the BODIPY chromophore, which was functionalized with known binding motifs for CB7. The unprotonated dyes show low fluorescence due to photoinduced electron transfer (PET), whereas the protonated dyes are highly fluorescent. Encapsulation of the binding motif inside CB7 positions the aniline nitrogen at the carbonyl rim of CB7, which affects the pKa value, and leads to a host-induced protonation and thus to a fluorescence increase. The possibility to tune binding affinities and pKa values is demonstrated and it is shown that, in combination with the beneficial photophysical properties of BODIPYs, several new applications of host–dye reporter pairs can be implemented. This includes indicator displacement assays with favourable absorption and emission wavelengths in the visible spectral region, fluorescence correlation spectroscopy, and noncovalent surface functionalization with fluorophores.

Published

2018