Showing total 8,494 results

1. Exploration on ability of printable modified papers for the application in heat sublimation transfer printing of polyester fabric

Author

Abeer M. Adel, Nivin M. Ahmed, Mohamed A. Diab, Fatma N. El-Shall, and Nabila El-Shinnawy

Subjects

Multidisciplinary

Abstract

In this work heat transfer papers were loaded with a new core–shell pigment based on precipitating thin shell of titanium dioxide on a core of rice husk silica ash TiO2/RHSA to be applied in dye sublimation printing of textile fabrics. Besides, 0.1% (w/w) cationic polyacrylamide (CPAM) and 1% (w/w) bentonite (Bt) were also added sequentially to improve drainage and filler retention of the paper hand-sheets made from bleached kraft bagasse pulps. The effect of the new core–shell pigment on the mechanical and barrier properties, thermal stability and surface morphology of modified paper sheets were investigated. In addition, the study of transfer printability and ease of dye release from paper to fabric in this heat transfer printing of polyester fabrics using silk-screen printing under different transfer parameters were studied. Also, fastness measurements including washing, light and perspiration of printing polyester fabric were also estimated.

Published

2023

2. A retrospective study of differences in patients’ anxiety and satisfaction between paper-based and computer-based tools for 'Shared Decision-Making'

Author

Jung-Chen Chen, Shang-Feng Tsai, and Shih-An Liu

Subjects

Multidisciplinary

Abstract

We aimed to investigate differences in patients’ anxiety and satisfaction between patients undergoing paper-based patient decision aid (PDA) for shared decision-making (SDM) and those receiving computer-based PDA. We retrospectively collected questionnaires before and after SDM. Basic demographic data as well as anxiety, satisfaction, knowledge acquisition, and participation in SDM were recorded. We divided our population into subgroups according to use of paper-based or computer-based PDA. In addition, Pearson correlation analysis was applied to assess the relationships among variables. In total, 304 patients who visited our Division of Nephrology were included in the final analysis. Overall, over half of the patients felt anxiety (n = 217, 71.4%). Near half of the patients felt a reduction in anxiety after SDM (n = 143, 47.0%) and 281 patients (92.4%) were satisfied with the whole process of SDM. When we divided all the patients based on use of paper-based or computer-based PDA, the reduction of anxiety level was greater in the patients who underwent paper-based PDA when compared with that of those who underwent computer-based PDA. However, there was no significant difference in satisfaction between the two groups. Paper-based PDA was as effective as computer-based PDA. Further studies comparing different types of PDA are warranted to fill the knowledge gaps in the literature.

Published

2023

3. Spectrochemical approach combined with symptoms data to diagnose fibromyalgia through paper spray ionization mass spectrometry (PSI-MS) and multivariate classification

Author

Marcelo V. S. Alves, Lanaia I. L. Maciel, João O. S. Passos, Camilo L. M. Morais, Marfran C. D. dos Santos, Leomir A. S. Lima, Boniek G. Vaz, Rodrigo Pegado, and Kássio M. G. Lima

Subjects

Multidisciplinary

Abstract

This study performs a chemical investigation of blood plasma samples from patients with and without fibromyalgia, combined with some of the symptoms and their levels of intensity used in the diagnosis of this disease. The symptoms evaluated were: visual analogue pain scale (VAS); fibromyalgia impact questionnaire (FIQ); Hamilton anxiety rating scale (HAM); Tampa Scale for Kinesiophobia (TAMPA); quality of life Questionnaire—physical and mental health (QL); and Pain Catastrophizing Scale (CAT). Plasma samples were analyzed by paper spray ionization mass spectrometry (PSI-MS). Spectral data were organized into datasets and related to each of the symptoms measured. The datasets were submitted to multivariate classification using supervised models such as principal component analysis with linear discriminant analysis (PCA-LDA), successive projections algorithm with linear discriminant analysis (SPA-LDA), genetic algorithm with linear discriminant analysis (GA-LDA) and their versions with quadratic discriminant analysis (PCA/SPA/GA-QDA) and support vector machines (PCA/SPA/GA-SVM). These algorithm combinations were performed aiming the best class separation. Good discrimination between the controls and fibromyalgia samples were observed using PCA-LDA, where the spectral data associated with the CAT symptom achieved 100% classification sensitivity, and associated with the VAS symptom achieved 100% classification specificity, with both symptoms at the moderate level of intensity. The spectral variable at 579 m/z was found to be substantially significant for classification according to the PCA loadings. According to the human metabolites database, this variable can be associated with a LysoPC compound, which comprises a class of metabolites already evidenced in other studies for fibromyalgia diagnosis. This study proposed an investigation of spectral data combined with clinical data to compare the classification ability of different datasets. The good classification results obtained confirm this technique is as a good analytical tool for the detection of fibromyalgia, and provides theoretical support for other studies about fibromyalgia diagnosis.

Published

2023

4. Copper on chitosan-modified cellulose filter paper as an efficient dip catalyst for ATRP of MMA

Author

Saeed Tavangar, Mojtaba Mahyari, Elham Feiz, and Hamid Reza Ghaieni

Subjects

inorganic chemicals, Materials science, Science, Dispersity, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Article, Catalysis, chemistry.chemical_compound, Engineering, Nanoscience and technology, Cellulose, Methyl methacrylate, chemistry.chemical_classification, Multidisciplinary, Filter paper, Polymer, 021001 nanoscience & nanotechnology, Copper, 0104 chemical sciences, Chemistry, chemistry, Chemical engineering, Polymerization, Medicine, 0210 nano-technology

Abstract

Achieving an efficient catalyst in the ATRP system with a simple design, preparation from available materials, and high recyclability is a significant challenging issue. To attain the goal, herein, we used chitosan (CS)-modified cellulose filter paper (FP) as a green support for the synthesis of dip catalyst. The preparation of this catalyst involved surface treatment of the FP strips by CS coating through a dipping method, which increased the affinity of the substrate for adsorbing copper ions in the next step. The Cu@CS-FP catalyst was prepared without the requirement of any ligands. The synthesized dip-catalyst, in the form of the strips, was employed for the first time in the ATRP reaction of methyl methacrylate to assay catalytic activity. Catalytic insertion/ removal (ON/OFF) experiments were carried out during the polymerization. A reasonable control over the molecular weight with high conversion (68%) and polydispersity index of 1.32 under mild reaction conditions were obtained. Significantly, because of the facile separation of the catalyst, the amount of copper that remained in the polymer was very low (2.7 ppm). Also, the recyclability of the catalyst was investigated for five runs. The conversion in the final run was 64% without a loss of catalyst efficiency.

Published

2021

5. Development of a one-step analysis method for several amino acids using a microfluidic paper-based analytical device

Author

Akimitsu, Kugimiya, Sho, Wakimoto, Jiro, Kohda, Yasuhisa, Nakano, and Yu, Takano

Subjects

Amino Acyl-tRNA Synthetases, Paper, Multidisciplinary, Lab-On-A-Chip Devices, Microfluidics, Histidine, Amino Acids, Microfluidic Analytical Techniques

Abstract

A one-step analysis method was developed for four types of amino acids using a microfluidic paper-based analytical device fabricated from chromatography filtration paper and laminate films. Aminoacyl-tRNA synthetase was used to detect each amino acid. The obtained laminated paper-based analytical device (LPAD) contained four enzymatic reaction areas. Colorimetric detection was performed based on the molybdenum blue reaction. A model method for the simple, easy, and simultaneous detection of several amino acid concentrations was suggested, in contrast to the conventional methods such as HPLC or LC–MS. The method provided a selective quantification at the ranges of 3.6–100 μM for tryptophan, 10.1–100 μM for glycine, 5.9–100 μM for histidine and 5.6–100 μM for lysine with a detection limit of 1.1 μM, 3.3 μM, 1.9 μM and 1.8 μM, respectively. LPAD fabrication was considerably simple, and the subsequent detection process was easy and required a short period of time (within 15 min).

Published

2022

6. Facile and highly precise pH-value estimation using common pH paper based on machine learning techniques and supported mobile devices

Author

Mohamed M. Elsenety, Mahmoud Basseem I. Mohamed, Mohamed E. Sultan, and Badr A. Elsayed

Subjects

Multidisciplinary

Abstract

Numerous scientific, health care, and industrial applications are showing increasing interest in developing optical pH sensors with low-cost, high precision that cover a wide pH range. Although serious efforts, the development of high accuracy and cost-effectiveness, remains challenging. In this perspective, we present the implementation of the machine learning technique on the common pH paper for precise pH-value estimation. Further, we develop a simple, flexible, and free precise mobile application based on a machine learning algorithm to predict the accurate pH value of a solution using an available commercial pH paper. The common light conditions were studied under different light intensities of 350, 200, and 20 Lux. The models were trained using 2689 experimental values without a special instrument control. The pH range of 1: 14 is covered by an interval of ~ 0.1 pH value. The results show a significant relationship between pH values and both the red color and green color, in contrast to the poor correlation by the blue color. The K Neighbors Regressor model improves linearity and shows a significant coefficient of determination of 0.995 combined with the lowest errors. The free, publicly accessible online and mobile application was developed and enables the highly precise estimation of the pH value as a function of the RGB color code of typical pH paper. Our findings could replace higher expensive pH instruments using handheld pH detection, and an intelligent smartphone system for everyone, even the chef in the kitchen, without the need for additional costly and time-consuming experimental work.

Published

2022

7. Development of ultra-thin radiation-shielding paper through nanofiber modeling of morpho butterfly wing structure

Author

Seon-Chil, Kim and Hongsik, Byun

Subjects

Radiation Protection, Multidisciplinary, Protective Clothing, Polymers, Nanofibers, Humans, Tungsten

Abstract

In medical institutions, radiation shielding is an effective strategy to protect medical personnel and patients from exposure. Reducing the weight of the shield worn by medical personnel in the radiation generating area plays a key role in improving their productivity and mobility. In this study, a new lightweight radiation shield was developed by electrospinning a polymer-tungsten composite material to produce nanofibers with a multi-layered thin-film structure similar to that of a morpho butterfly wing. The fabricated shield was in the form of 0.1 mm thick flexible shielding paper. The multi-layer structure of the thin shielding paper was obtained through nanofiber pattern formation via electrospinning a dispersion of tungsten particles. At 0.1 mm thickness, the paper’s shielding rate was 64.88% at 60 keV. Furthermore, at 0.3 mm thick and arranged in a laminated structure, the shielding rate was 90.10% and the lead equivalent was 0.296 mmPb. When used as an apron material, the weight can be reduced by 45% compared to existing lead products. In addition, the material is highly processable and can be used to manufacture various flexible products, such as hats, gloves, underwear, and scarves used in medical institutions.

Published

2022

8. Spore-based innovative paper-strip biosensor for the rapid detection of ß-lactam group in milk

Author

Prashant, Goel, Raghu Hirikyathanahalli, Vishweswaraiah, and Naresh, Kumar

Subjects

Spores, Milk, Multidisciplinary, Lactams, Animals, beta-Lactams, Anti-Bacterial Agents, Monobactams

Abstract

The study's goal was to develop a spore-based paper strip biosensor for detecting ß-lactam antibiotics in milk using the enzyme induction principle. A new spore-based paper strip biosensor has been developed after important operating parameters such as spore volume, substrate volume, exposure time and temperature, and incubation time and temperature were optimised. The limit of detection for various ß-lactam antibiotics, including amoxicillin, penicillin, ampicillin, carbenicillin, cloxacillin, nafcillin, oxacillin, cephalothin, cefalexin, cefoxitin, cefazolin, and cefuroxime, was determined in milk with detection sensitivity of 1 ppb, 2 ppb, 2 ppb, 10 ppb, 10 ppb, 10 ppb, 20 ppb, 10 ppb 1000 ppb, 10 ppb 300 ppb and 100 ppb, respectively. It was also tested with other contaminants such non-ß-lactam antibiotics, pesticides, aflatoxin, heavy metals, and other chemical contaminants, and no interference was found, indicating that the created biosensor had a low rate of false positive and negative results. In comparison to the AOAC-approved CHARM-ROSA ß-lactam strip test, which identified 7 raw milk and zero pasteurised milk samples positive for ß-lactam antibiotics, the sensor was further analysed and verified using 200 raw milk and 105 pasteurised milk samples. This indicates a perfect match between our biosensor and the AOAC-approved CHARM-ROSA ß-lactam strip test. The developed spore-based paper strip biosensors are expected to be useful in the rapid and cost-effective detection of ß-lactam antibiotic residues in milk samples at the dairy farm, reception dock, and production units, respectively.

Published

2022

9. A fully-automated paper ECG digitisation algorithm using deep learning

Author

Huiyi Wu, Kiran Haresh Kumar Patel, Xinyang Li, Bowen Zhang, Christoforos Galazis, Nikesh Bajaj, Arunashis Sau, Xili Shi, Lin Sun, Yanda Tao, Harith Al-Qaysi, Lawrence Tarusan, Najira Yasmin, Natasha Grewal, Gaurika Kapoor, Jonathan W. Waks, Daniel B. Kramer, Nicholas S. Peters, and Fu Siong Ng

Subjects

Electrocardiography, Deep Learning, Multidisciplinary, Atrial Fibrillation, Humans, Neural Networks, Computer, Algorithms

Abstract

There is increasing focus on applying deep learning methods to electrocardiograms (ECGs), with recent studies showing that neural networks (NNs) can predict future heart failure or atrial fibrillation from the ECG alone. However, large numbers of ECGs are needed to train NNs, and many ECGs are currently only in paper format, which are not suitable for NN training. We developed a fully-automated online ECG digitisation tool to convert scanned paper ECGs into digital signals. Using automated horizontal and vertical anchor point detection, the algorithm automatically segments the ECG image into separate images for the 12 leads and a dynamical morphological algorithm is then applied to extract the signal of interest. We then validated the performance of the algorithm on 515 digital ECGs, of which 45 were printed, scanned and redigitised. The automated digitisation tool achieved 99.0% correlation between the digitised signals and the ground truth ECG (n = 515 standard 3-by-4 ECGs) after excluding ECGs with overlap of lead signals. Without exclusion, the performance of average correlation was from 90 to 97% across the leads on all 3-by-4 ECGs. There was a 97% correlation for 12-by-1 and 3-by-1 ECG formats after excluding ECGs with overlap of lead signals. Without exclusion, the average correlation of some leads in 12-by-1 ECGs was 60–70% and the average correlation of 3-by-1 ECGs achieved 80–90%. ECGs that were printed, scanned, and redigitised, our tool achieved 96% correlation with the original signals. We have developed and validated a fully-automated, user-friendly, online ECG digitisation tool. Unlike other available tools, this does not require any manual segmentation of ECG signals. Our tool can facilitate the rapid and automated digitisation of large repositories of paper ECGs to allow them to be used for deep learning projects.

Published

2022

10. Minor compositional alterations in faecal microbiota after five weeks and five months storage at room temperature on filter papers

Author

Corinna Bang, Uffe Holmskov, Louise B. Thingholm, Sebastian von Huth, Malte C. Rühlemann, and Andre Franke

Subjects

Adult, Male, Paper, 0301 basic medicine, Firmicutes, Preservation, Biological, 030106 microbiology, lcsh:Medicine, Article, Feces, Young Adult, 03 medical and health sciences, Animal science, Humans, lcsh:Science, Phylogeny, Multidisciplinary, Bacteria, biology, Microbiota, lcsh:R, Temperature, Bacteroidetes, Biodiversity, Middle Aged, biology.organism_classification, 030104 developmental biology, Next-generation sequencing, 16s rrna gene sequencing, Female, lcsh:Q, Metagenomics, Microbiome, Faecal occult blood test, Filtration

Abstract

The gut microbiota is recognized as having major impact in health and disease. Sample storage is an important aspect to obtain reliable results. Mostly recommended is immediate freezing, however, this is not always feasible. Faecal occult blood test (FOBT) papers are an appealing solution in such situations, and most studies find these to be applicable, showing no major changes within 7 days storage at room temperature (RT). As fieldwork often requires RT storage for longer periods, evaluation of this is warranted. We performed 16S rRNA gene sequencing of 19 paired faecal samples immediately frozen or kept five weeks and five months at RT on FOBT papers. Alpha-diversity evaluation revealed no effect of FOBT storage, and evaluation of beta-diversity showed that host explained 65% of community variation, while storage method explained 5%. Evaluation of community dispersion and the Firmicutes/Bacteroidetes ratio revealed a larger effect of storage time for fresh-frozen samples. Single taxa evaluation (order-to-genus level) showed significant alterations of four (of 37) genera after five weeks and five genera after five months. When comparing the two timepoints, alterations were only detectable for fresh-frozen samples. Our findings reveal that long term storage on FOBT papers is an applicable approach for microbiota research.

Published

2019

11. Open software platform for automated analysis of paper-based microfluidic devices

Author

Daniel J. Wilson, Charles R. Mace, and Rayleigh W. Parker

Subjects

Computer science, Science, Microfluidics, Image processing, 02 engineering and technology, 01 natural sciences, Signal, Article, Imaging studies, Medical and clinical diagnostics, Measure (data warehouse), Multidisciplinary, Lab-on-a-chip, business.industry, 010401 analytical chemistry, Color intensity, Process (computing), Bioanalytical chemistry, Paper based, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Open software, Medicine, 0210 nano-technology, business, Computer hardware

Abstract

Development of paper-based microfluidic devices that perform colorimetric measurements requires quantitative image analysis. Because the design geometries of paper-based microfluidic devices are not standardized, conventional methods for performing batch measurements of regularly spaced areas of signal intensity, such as those for well plates, cannot be used to quantify signal from most of these devices. To streamline the device development process, we have developed an open-source program called ColorScan that can automatically recognize and measure signal-containing zones from images of devices, regardless of output zone geometry or spatial arrangement. This program, which measures color intensity with the same accuracy as standard manual approaches, can rapidly process scanned device images, simultaneously measure identified output zones, and effectively manage measurement results to eliminate requirements for time-consuming and user-dependent image processing procedures.

Published

2020

12. Invasive paper wasp turns urban pollinator gardens into ecological traps for monarch butterfly larvae

Author

Adam Baker and Daniel A. Potter

Subjects

0106 biological sciences, Population, Population Dynamics, Wasps, lcsh:Medicine, Polistes dominula, 010603 evolutionary biology, 01 natural sciences, Article, Predation, Danaus, Pollinator, Monarch butterfly, Animals, education, Pollination, lcsh:Science, Asclepias, Ecosystem, Paper wasp, education.field_of_study, Multidisciplinary, biology, Ecology, lcsh:R, Gardening, biology.organism_classification, 010602 entomology, Geography, Larva, Animal Migration, lcsh:Q, Ecological trap, Introduced Species, Zoology, Butterflies, Gardens

Abstract

Invasive species can be particularly disruptive when they intersect with organisms of conservation concern. Stabilizing the declining eastern migratory population of monarch butterflies (Danaus plexippus) is projected to require extensive habitat restoration across multiple land use sectors including metropolitan areas. Numerous conservation programs encourage urban citizens to plant gardens with milkweeds, the obligate larval host plants of the monarch. Here, we show that predation by Polistes dominula, an invasive paper wasp that is particularly abundant in urban settings, can turn such sites into ecological traps for monarch larvae. Polistes dominula was the predominant paper wasp seen foraging in central Kentucky pollinator gardens. In 120 observed encounters with monarch larvae on milkweeds in gardens, most second to fourth instars were killed, whereas most fifth instars escaped by thrashing or dropping. The wasps bit and carried off second instars whole, whereas third and fourth instar kills were first gutted, then processed and carried away piecemeal. Predation on sentinel larvae was much higher in urban gardens than in rural settings. The wasps exploited ornamental butterfly “hibernation boxes” in pollinator gardens as nesting habitat. Polistes dominula is an under-recognized predator that may diminish the urban sector’s contributions to monarch habitat restoration.

Published

2020

13. Paper-based electrochemical immunosensor for label-free detection of multiple avian influenza virus antigens using flexible screen-printed carbon nanotube-polydimethylsiloxane electrodes

Author

Daesoon Lee, Jyoti Bhardwaj, and Jaesung Jang

Subjects

Immunoassay, Paper, Multidisciplinary, Influenza A Virus, H5N1 Subtype, Nanotubes, Carbon, Science, Reproducibility of Results, Biosensing Techniques, Electrochemical Techniques, Influenza A Virus, H7N9 Subtype, Birds, Limit of Detection, Influenza in Birds, Virology, Influenza, Human, Influenza A Virus, H9N2 Subtype, Medicine, Animals, Humans, Dimethylpolysiloxanes, Antigens, Viral, Electrodes

Abstract

Many studies have been conducted on measuring avian influenza viruses and their hemagglutinin (HA) antigens via electrochemical principles; most of these studies have used gold electrodes on ceramic, glass, or silicon substrates, and/or labeling for signal enhancement. Herein, we present a paper-based immunosensor for label-free measurement of multiple avian influenza virus (H5N1, H7N9, and H9N2) antigens using flexible screen-printed carbon nanotube-polydimethylsiloxane electrodes. These flexible electrodes on a paper substrate can complement the physical weakness of the paper-based sensors when wetted, without affecting flexibility. The relative standard deviation of the peak currents was 1.88% when the electrodes were repeatedly bent and unfolded twenty times with deionized water provided each cycle, showing the stability of the electrodes. For the detection of HA antigens, approximately 10-μl samples (concentration: 100 pg/ml–100 ng/ml) were needed to form the antigen–antibody complexes during 20–30 min incubation, and the immune responses were measured via differential pulse voltammetry. The limits of detections were 55.7 pg/ml (0.95 pM) for H5N1 HA, 99.6 pg/ml (1.69 pM) for H7N9 HA, and 54.0 pg/ml (0.72 pM) for H9N2 HA antigens in phosphate buffered saline, and the sensors showed good selectivity and reproducibility. Such paper-based sensors are economical, flexible, robust, and easy-to-manufacture, with the ability to detect several avian influenza viruses.

Published

2022

14. Cellulose nanofibers/polyvinyl alcohol blends as an efficient coating to improve the hydrophobic and oleophobic properties of paper

Author

Shancong, Huang, Xiyun, Wang, Yu, Zhang, Yu, Meng, Feiguo, Hua, and Xinxing, Xia

Subjects

Multidisciplinary, Polyvinyl Alcohol, Tensile Strength, Nanofibers, Cellulose, Hydrophobic and Hydrophilic Interactions

Abstract

The effect of cellulose nanofibers (CNFs)/polyvinyl alcohol (PVA) coating on the hydrophobic, oleophobic, and strength properties of paper were investigated. The results showed that the size of bamboo fibers (BFs) decreased significantly and the crystallinity increased significantly after biological enzyme treatment. The average length of CNFs obtained by high pressure homogenization was 2.4 µm, the diameter was 28.7 nm, and the crystallinity was 63.63%. When the coating weight of PVA/CNF was 2.0 g/m2 and the CNF dosage was increased from 0.0% to 3.0%, the paper grease resistance grade was increased from 7 to 9, the Cobb value was decreased from 22.68 ± 0.29 g/m2 to 18.37 ± 0.63 g/m2, the contact angle was increased from 67.82° to 93.56°, and the longitudinal and transverse tensile index were increased from 67.72 ± 0.21 N m/g and 37.63 ± 0.25 N m/g to 68.61 ± 0.55 N m/g and 40.71 ± 0.78 N m/g, respectively. When the CNF dosage was 3.0% and the coating weight of PVA/CNF was 4.0 g/m2, the grease resistance grade of the paper was 12, the Cobb value was 21.80 ± 0.39 g/m2, and the longitudinal and transverse tensile indices were 72.11 ± 0.43 N m/g and 42.58 ± 0.48 N m/g, respectively. In summary, the increase of CNFs can effectively improve the lipophobicity, hydrophobicity and tensile strength of the PVA coated paper.

Published

2022

15. Potential effects of nano-cellulose and nano-silica/polyvinyl alcohol nanocomposites in the strengthening of dyed paper manuscripts with madder: an experimental study

Author

Mostafa Abdel-Hamied, Rushdya Rabee Ali Hassan, Mohamed Z. M. Salem, Toka Ashraf, Merihan Mohammed, Nariman Mahmoud, Yasmin Saad El-din, and Sameh H. Ismail

Subjects

Multidisciplinary, Plant Extracts, Polyvinyl Alcohol, Cellulose, Silicon Dioxide, Coloring Agents, Nanocomposites

Abstract

In the present work, the composite cross-linked were used to consolidate the dyed paper manuscripts. Nanocomposites of mesoporous silica nanoparticle (MPSNP)/polyvinyl alcohol (PVA) and cellulose nanofiber (CNF)/PVA, which have never been used before, have been evaluated for the consolidation process of the dyed paper manuscripts with madder extract. Three concentrations 1%, 3%, and 5% have been prepared. Analysis and investigation methods like scanning electron microscope (SEM), transmission electron microscope (TEM), dynamic light scattering analysis (DLS), X-Ray diffraction Analysis (XRD), atomic force microscope (AFM), Fourier transform infrared spectroscopy (FTIR) and total color difference (ΔE) by spectrophotometer have been used in order to characterize the prepared nano-sized composites and evaluate the treated dyed paper samples before and after the aging process. The results of surface morphology by SEM revealed the effectiveness of MPSNP/PVA core–shell nanocomposite at 5% in the consolidation process, where the improvement of properties of the aged dyed paper samples. The fibers of the treated paper became strong and appeared clearly. The result of ΔE measurements showed that the treated sample with MPSNP/PVA nanocomposite at 5% gave the lowest ΔE (5.22), while, the treated sample with CNF/PVA nanocomposite at 5% gave the highest ΔE value (11.66). Mechanical measurements (tensile strength and elongation) revealed the efficiency of MPSNP/PVA nanocomposite at 5% in the treatment of the aged dyed paper samples. The treated sample with the mentioned material gave tensile strength and elongation values of 84.8 N/nm2 and 1.736%, respectively. In contrast, the treated sample with CNF/PVA nanocomposite at 1% gave the lowest tensile strength and elongation values 38.2 N/nm2, and 1.166%, respectively. FTIR analysis revealed an increase was noticed in the CH2 stretching band (refers to the crystallinity of cellulose), where the intensity of the treated sample with MPSNP/PVA nanocomposite was at a 5% increase compared to the control sample. The FTIR results supported the results of mechanical measurements. The intensity of the CH2 stretching band, which refers to the crystallinity index of cellulose, was increased with the use of MPSNP/PVA nanocomposite at 3% and 5%, which explains the improvement in mechanical properties. This may be due to the nano-mineral particles, which improve the mechanical properties. Additionally, they reduce the effect of accelerated thermal aging on the cellulosic fibers and give them stability. The detailed analysis of analytical methods used for evaluation revealed the novelty of MPSNP/PVA nanocomposite, especially at 5%. It has a potential role in strengthening and improving different properties of the dyed paper manuscripts with madder extract.

Published

2022

16. Immobilization of Pt nanoparticles on hydrolyzed polyacrylonitrile-based nanofiber paper

Author

Seong Ho Kong, Soon Yeol Kwon, Dong Geon Jung, and EunJu Ra

Subjects

Materials science, Science, Dispersity, Nucleation, 02 engineering and technology, 010402 general chemistry, Electrochemistry, 01 natural sciences, Article, chemistry.chemical_compound, Engineering, Adsorption, Nanoscience and technology, Multidisciplinary, Polyacrylonitrile, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemistry, Chemical engineering, chemistry, Nanofiber, Electrode, Medicine, Particle size, 0210 nano-technology

Abstract

The electrochemical activity of catalysts strongly depends on the uniform distribution of monodisperse Pt nanoparticles without aggregates. Here, we propose a new hydrolysis-assisted smearing method for Pt loading on a free-standing paper-type electrode. Polyacrylonitrile (PAN)-based nanofiber paper was used as the electrode, and it acted as a Pt support. Hydrolysis of the electrode tripled the number of active nucleation sites for Pt adsorption on the PAN nanofibers, thereby significantly enhancing the wettability of the nanofibers. This facilitated the uniform distribution of Pt nanoparticles without aggregate formation up to 40 wt% (about 0.8 mg/cm2) with a particle size of about 3 nm. The catalytic current of the hydrolyzed Pt electrode in CH3OH/H2SO4 solution exceeded 213 mA/cm2 Pt mg, which was considerably greater than the current was 148 mA/cm2 Pt mg for an unhydrolyzed electrode.

Published

2021

17. Anti-counterfeiting system based on luminescent varnish enriched by NIR- excited nanoparticles for paper security

Author

D, Przybylska, T, Grzyb, A, Erdman, K, Olejnik, and A, Szczeszak

Subjects

Fluorides, Luminescence, Multidisciplinary, Nanoparticles, Lanthanoid Series Elements

Abstract

Up-converting nanoparticles can be a demand for requirements in many areas, including bioimaging and conversion of energy, but also in the battle against counterfeiting. The properties of lanthanide ions make falsification difficult or even impossible using appropriately designed systems. The proposition of such an approach is the NaErF4:Tm3+@NaYF4 core@shell up-converting nanoparticles combined with transparent varnishes. Given the spectroscopic properties of Er3+ ions present in the fluoride matrix, the obtained up-converting nanoparticles absorb light by 808 and 975 nm wavelengths. The intentionally co-doped Tm3+ ions enable tuning characteristic green Er3+ emission to red luminescence, particularly desirable in anti-counterfeiting applications. The article includes a thorough analysis of structural and morphological properties. Moreover, this work shows that exclusive luminescent properties of NaErF4:Tm3+@NaYF4 NPs can be given to the transparent varnish, providing an excellent anti-counterfeiting system, revealing red emission under two different excitation wavelengths.

Published

2022

18. Near-digital amplification in paper improves sensitivity and speed in biplexed reactions

Author

Kamal G, Shah, Sujatha, Kumar, and Paul, Yager

Subjects

Methicillin-Resistant Staphylococcus aureus, Multidisciplinary, Nucleic Acids, DNA, Nucleic Acid Amplification Techniques, Plastics

Abstract

The simplest point-of-care assays are usually paper and plastic devices that detect proteins or nucleic acids at low cost and minimal user steps, albeit with poor limits of detection. Digital assays improve limits of detection and analyte quantification by splitting a sample across many wells (or droplets), preventing diffusion, and performing analyte amplification and detection in multiple small wells. However, truly digital nucleic acid amplification tests (NAATs) require costly consumable cartridges that are precisely manufactured, aligned, and operated to enable low detection limits. In this study, we demonstrate how to implement near-digital NAATs in low-cost porous media while approaching the low limits of detection of digital assays. The near-digital NAAT was enabled by a paper membrane containing lyophilized amplification reagents that automatically, passively meters and distributes a sample over a wide area. Performing a NAAT in the paper membrane while allowing diffusion captures many of the benefits of digital NAATs if the pad is imaged at a high spatial resolution during amplification. We show that the near-digital NAAT is compatible with a low-cost paper and plastic disposable cartridge coupled to a 2-layer rigid printed circuit board heater (the MD NAAT platform). We also demonstrate compatibility with biplexing and imaging with mobile phones with different camera sensors. We show that the near-digital NAAT increased signal-to-noise ratios by ~ 10×, improved limits of detection from above 103 copies of methicillin-resistant Staphylococcus aureus genomic DNA to between 100 and 316 copies in a biplexed reaction containing 105 copies of co-amplifying internal amplification control DNA, and reduced time-to-result from 45 min of amplification to 15–20 min for the positive samples.

Published

2022

19. Assessment of creatinine concentration in whole blood spheroids using paper spray ionization–tandem mass spectrometry

Author

Tung-Ting Sham, Abraham K. Badu-Tawiah, Stephen J. McWilliam, and Simon Maher

Subjects

Multidisciplinary, Tandem Mass Spectrometry, Creatinine, Humans, Reproducibility of Results, Chromatography, High Pressure Liquid, Chromatography, Liquid, Glomerular Filtration Rate

Abstract

Accurate quantification of blood creatinine is important to estimate the glomerular filtration rate. Existing techniques using liquid chromatography tandem mass spectrometry (LC–MS/MS) have a high accuracy and eliminate most interferences encountered in routine enzymatic and Jaffé methods. However, they require laborious and time-consuming sample treatment and data acquisition. The aim of this study is to develop a fast and simple method to enable a direct analysis of whole blood creatinine with performance measures that are comparable to conventional LC–MS/MS. 5μL whole blood is formed as a three-dimensional spheroid on hydrophobic silanized paper substrates which then undergoes paper-spray ionization—tandem mass spectrometry (PSI–MS/MS). The method is validated using real human samples and compared with LC–MS/MS. PSI–MS/MS whole blood analysis exhibited a lower limit of quantification of 2.5 μg/mL, precision ≤ 6.3%, recovery in the range of 88–94% and excellent linearity (R2 > 0.99; 2.5—20 μg/mL) covering the normal range for creatinine levels. Creatinine levels were comparable to those measured by LC–MS/MS with small deviations of less than 0.3 μg/mL. This simple, fast and accurate microsampling technique for direct analysis of creatinine from whole blood shows promise for routine clinical screening and monitoring. This approach can be readily extended for other analytes of interest and, due to inherent advantages relating to cost, storability, speed, and simplicity, it can be especially advantageous for use in resource-limited settings.

Published

2022

20. A novel technique to overcome fluid flow influence in carbon quantum dots/paper-based analytical devices

Author

Sepideh Zoghi and Moones Rahmandoust

Subjects

Multidisciplinary, Polyvinyl Alcohol, Quantum Dots, Mercury, Cellulose, Carbon

Abstract

Paper-based analytical devices are promising choices for rapid tests and lab-on-chip detection techniques. Carbon quantum dots (CQDs), on the other hand, are biocompatible nanomaterials, which are industrially promising, due to their fast and cost-effective gram-scale synthesis techniques, as well as their significantly high and stable photoluminescence (PL) properties, which are durable and reliable over a year. However, there have been limitations in the entrapment of CQDs on cellulose papers in a way that their PL is not influenced by the flowing of the CQDs with the stream of analyte fluid, making the sensors less accurate at very low concentrations of liquid analytes. Therefore, in this investigation, a polyvinyl alcohol/alkaline-based method was systematically generated and developed to entrap CQDs inside a 3D crystalline matrix on paper, in a way that they can be used directly as probes for a simple drop-and-detect method. As a proof of concept, N/P-doped CQD on cellulose paper was used to make fluorescent paper-based analytical devices for identifying traces of Hg2+ of around 100 ppb. The designed sensor was tested over several months, to study its durability and functionality over long periods, for potential industrial applications.

Published

2022

21. Superhydrophobic functionalized cellulosic paper by copper hydroxide nanorods for oils purification

Author

Jehan El Nady, Ahmed S.F. Belal, Moataz Soliman, Azza Shokry, Shaker Ebrahim, and Marwa Khalil

Subjects

Multidisciplinary, Materials science, Filter paper, Scanning electron microscope, Science, Environmental pollution, Article, Solvent, Contact angle, Diesel fuel, Chemical engineering, Nanoscience and technology, Medicine, Nanorod, Layer (electronics)

Abstract

Oily water contamination has been sighted as one of the most global environmental pollution. Herein, copper hydroxide nanorods layer was constructed onto cellulosic filter paper surface cured with polydopamine, Ag nanoparticles, and Cu NPs through immersion method. This work has been aimed to produce a superhydrophobic and superoleophilic cellulosic filter paper. The structure, crystalline, and morphological properties of these modified cellulosic filter paper were investigated. Scanning electron microscope images confirmed that the modified surface was rougher compared with the pristine surface. The contact angle measurement confirmed the hydrophobic nature of these modified surfaces with a water contact angle of 169.7°. The absorption capacity was 8.2 g/g for diesel oil and the separation efficiency was higher than 99%. It was noted that the flux in the case of low viscosity solvent as n-hexane was 9663.5 Lm−2 h−1, while for the viscous oil as diesel was 1452.7 Lm−2 h−1.

Published

2021

22. Cellulose nanofibrils manufactured by various methods with application as paper strength additives

Author

Jinsong Zeng, Wenhua Gao, Yu Wang, Zhanting Zeng, Xiaojun Wang, Bin Wang, and Zheng Cheng

Subjects

Materials science, Scanning electron microscope, Science, 02 engineering and technology, engineering.material, 010402 general chemistry, 01 natural sciences, Article, Crystallinity, chemistry.chemical_compound, Nanoscience and technology, Ultimate tensile strength, Fourier transform infrared spectroscopy, Cellulose, Composite material, Multidisciplinary, Pulp (paper), 021001 nanoscience & nanotechnology, Folding endurance, 0104 chemical sciences, Grinding, chemistry, engineering, Medicine, 0210 nano-technology

Abstract

Recycled paper and some hardwood paper often display poorer mechanical properties, which hinder its practical applications and need to be addressed. In this work, cellulose nanofibrils (CNFs) obtained by a combined process of enzymatic hydrolysis and grinding (EG-CNFs), grinding and microfluidization (GH-CNFs) or TEMPO-mediated oxidation and grinding (TE-CNFs) were characterized by scanning electron microscopy (SEM) and atomic force microscopy (AFM). Moreover, CNFs were made into films on which some characterizations including X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FTIR), and UV–Vis transmittance spectroscopy were implemented. Results showed that CNF fibrillation was promoted as times of passes increased in microfluidization, and CNFs pretreated by enzyme possessed shorter length. Crystallinity of CNFs was related to CNF manufacturing methods, while CNF films’ transparency was correlated to CNF diameter distributions. Moreover, CNFs were applied with different dosages on recycled and hardwood paper. Lengths of CNFs, strength of CNF network, and pulp properties were critical factors affecting the mechanical strength of CNFs-enhanced paper. GH-CNFs showed better strengthened effect on tensile strength of paper than TE-CNFs and EG-CNFs. The best overall improvement was achieved at GH-CNF10 dosage of 5.0 wt% on hardwood paper. The increment of tensile index, burst index, and folding endurance were 108.32%, 104.65%, and 600%, respectively. This work aims to find out the relationship between production methods and morphologies of CNFs and how the morphological characteristics of CNFs affecting the mechanical performance of paper when they are added as strength additives.

Published

2021

23. Distance-based paper device using combined SYBR safe and gold nanoparticle probe LAMP assay to detect Leishmania among patients with HIV

Author

Toon Ruang-areerate, Natkrittaya Saengsawang, Panthita Ruang-areerate, Nalin Ratnarathorn, Thanyapit Thita, Saovanee Leelayoova, Suradej Siripattanapipong, Kiattawee Choowongkomon, and Wijitar Dungchai

Subjects

Leishmania, Multidisciplinary, Molecular Diagnostic Techniques, Humans, Metal Nanoparticles, Gold, Leishmaniasis, Nucleic Acid Amplification Techniques, Sensitivity and Specificity

Abstract

Asymptomatic visceral leishmaniasis cases increase continuously, particularly among patients with HIV who are at risk to develop further symptoms of leishmaniasis. A simple, sensitive and reliable diagnosis is crucially needed due to risk populations mostly residing in rural communities with limited resources of laboratory equipment. In this study, a highly sensitive and selective determination of Leishmania among asymptomatic patients with Leishmania/HIV co-infection was achieved to simultaneously interpret and semi-quantify using colorimetric precipitates (gold-nanoparticle probe; AuNP-probe) and fluorescence (SYBR safe dye and distance-based paper device; dPAD) in one-step loop-mediated isothermal amplification (LAMP) assay. The sensitivities and specificities of 3 detection methods were equivalent and had reliable performances achieving as high as 95.5%. Detection limits were 102 parasites/mL (0.0147 ng/µL) which were 10 times more sensitive than other related studies. To empower leishmaniasis surveillance as well as prevention and control, this dPAD combined with SYBR safe and gold nanoparticle probe LAMP assay is reliably fast, simple, inexpensive and practical for field diagnostics to point-of-care settings in resource-limited areas which can be set up in all levels of healthcare facilities, especially in low to middle income countries.

Published

2022

24. 3D Paper-based milk adulteration detection device

Author

Subhashis, Patari, Priyankan, Datta, and Pallab Sinha, Mahapatra

Subjects

Milk, Multidisciplinary, Calibration, Animals, Humans, Reproducibility of Results, Urea, Food Contamination

Abstract

Milk adulteration is a common problem in developing countries, and it can lead to fatal diseases in humans. Despite several studies to identify different adulterants in milk samples, the effects of multiple adulterants remain unexplored. In this work, a three-dimensional (3D) paper-based microfluidic device is designed and fabricated to simultaneously detect multiple chemical adulterants in milk. This device comprises a top cover, a bottom cover, and a middle layer composed of transportation and a detection zone. By making cuts on the middle layer’s support, the device’s flow path is characterised by optimum and uniform velocity. For the first time, seven adulterants (urea, detergents, soap, starch, hydrogen peroxide, sodium-hydrogen-carbonate, and salt) are detected in the milk sample simultaneously with specificity evaluation and detailed color interference analysis. Only 1–2 mL of sample volume is required to detect 7 adulterants at one time. We have used only 10 $$\upmu$$ μ L of the reagent’s volume for the colorimetric reaction and found the results within a few seconds. Observation reveals that the limit of detection (LOD) of the adulterants lies in the range between $$0.05\%$$ 0.05 % (vol./vol.) to $$0.2\%$$ 0.2 % (vol./vol.) using the colorimetric detection technique. The unknown quantity of the added adulterants is measured using the calibration curves obtained from the experiments results. The repeatability and reproducibility of the process, sensitivity, and the linear range of detection of the calibration curves and the statistical study of the color intensity data are thoroughly analysed herein. In any resource-limited setting, this simple, portable, and user-friendly 3D microfluidic device is expected to be used for testing liquid foods before consumption.

Published

2022

25. Nepotistic colony fission in dense colony aggregations of an Australian paper wasp

Author

Koji, Tsuchida, Norio, Ishiguro, Fuki, Saito-Morooka, Jun-Ichi, Kojima, and Philip, Spradbery

Subjects

Male, Insecta, Multidisciplinary, Ants, Reproduction, Wasps, Australia, Animals, Humans, Female, Sex Ratio

Abstract

Social insects are highly diverse in their social structures, aside from the consistent presence of reproductive castes. Among social insects, the Australian paper wasp Ropalidia plebeiana constructs extremely dense colony aggregations consisting of hundreds of colonies within a few square meters; however, little is known about the aggregation structures. We genetically analyzed the colony and population structure of R. plebeiana, and concomitant variations in colony sex ratios. In spring, the foundress (candidate queen) group started their colonies on a single old comb from the previous season, subsequently dividing these old combs via relatedness-based comb-cutting. Female philopatry, a prerequisite condition of Local Resource Competition (LRC), was confirmed. The colony sex ratio of reproductive individuals (male and female offspring for the next generation) became slightly male-biased in larger colonies, as predicted under LRC. However, the number of foundresses was positively associated with the number of reproductive individuals, suggesting that Local Resource Enhancement (LRE) also operates. Although the population structure appears to meet the prerequisites of LRC, the sex ratio appears to be modulated by factors other than LRC. Rather, through LRE, the availability of female helpers at the founding stage is likely to mitigate the sex ratios predicted under LRC.

Published

2022

26. Filter paper supported nZVI for continuous treatment of simulated dyeing wastewater

Author

Haifan Yu, Qisong Sun, Pingping Yu, and Bomou Ma

Subjects

0301 basic medicine, Materials science, Pollution remediation, Methyl blue, lcsh:Medicine, Article, law.invention, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, law, lcsh:Science, Filtration, Acrylic acid, Zerovalent iron, Multidisciplinary, Filter paper, Polyacrylic acid, lcsh:R, 030104 developmental biology, chemistry, Wastewater, Nanoparticles, lcsh:Q, 030217 neurology & neurosurgery, Methylene blue, Nuclear chemistry

Abstract

In this study, polyacrylic acid modified filter paper (FP/PAA) was synthesized by in-situ polymerization of acrylic acid, which was used as a matrix to chelate nano-scale zero valent iron (nZVI). The loading content of nZVI in the filter paper reached 24.8%. The fabricated composite FP/PAA/nZVI was characterized by SEM, FT-IR and TGA respectively. Moreover, it was used for the removal of methyl blue and methylene blue as model anionic and cationic dyes. The effect of initial dye concentration on decolorization efficiency was investigated. The results showed that FP/PAA/nZVI enhanced the removal of dye from the simulated dye wastewater and the decolorization efficiency exceeded 95% for the dye solutions lower than 20 mg/L. More importantly, the filter paper supported nZVI realized the continuous treatment of simulated dye wastewater by a simple filtration process. This study hopes to serve as a basis for the application of nZVI in textile wastewater treatment.

Published

2019

27. Freestanding flexible, pure and composite form of reduced graphene oxide paper for ammonia vapor sensing

Author

Ali Alsalme, Ahmad Al-Ghamdi, Ramasamy Jayavel, D. Selvakumar, and H. Sivaram

Subjects

0301 basic medicine, Materials science, Composite number, Oxide, lcsh:Medicine, Synthesis of graphene, Article, Metal, Environmental impact, 03 medical and health sciences, Ammonia, chemistry.chemical_compound, 0302 clinical medicine, lcsh:Science, Graphene oxide paper, Multidisciplinary, lcsh:R, Humidity, Ammonia vapor, 030104 developmental biology, chemistry, Graphene nanocomposites, Chemical engineering, visual_art, visual_art.visual_art_medium, lcsh:Q, 030217 neurology & neurosurgery

Abstract

Metal oxides based graphene nanocomposites were used for ammonia vapour sensing. The self-assembly process was adopted to prepare freestanding flexible pure rGO, CeO2-rGO and SnO2-rGO composite papers. The structural studies confirmed the formation of rGO composite papers. The ammonia vapor sensing was demonstrated using an impedance analyzer at different humidity levels as well as concentration. The CeO2-rGO composite paper achieved a sensitivity of 51.70 ± 1.2%, which was higher than that of pure rGO and SnO2-rGO composite paper. Both the surfaces (top and bottom) of the papers are active in efficiently sensing ammonia, which makes the present work unique. The results reveal that metal oxide/rGO papers can be effectively utilized in real time sensor application.

Published

2019

28. A preliminary investigation of a two-step, non-invasive process to determine chronological deposition order of fingerprints and printed ink on paper

Author

Roberto S P, King, Beth, McMurchie, Richard, Wilson, and Paul F, Kelly

Subjects

Multidisciplinary, Metals, Gelatin, Ink, Dermatoglyphics, Forensic Medicine

Abstract

While traditional techniques have long allowed forensic investigators to positively identify fingermarks on documents of interest, understanding the chronological sequence of events that led to their deposition is still seen as a ‘holy grail’ for forensic examinations. By way of example, the question of whether a mark is above or below printed text is crucial. The work herein reveals that a novel application of a recently established fingermark development technique readily allows such differentiation. The process in question allies forensic gelatin lifters with RECOVER, a development system that hinges on the polymerisation of disulfur dinitride. While the latter was specifically developed in its current form for the retrieval of prints from metal surfaces exposed to extreme conditions or washing, its ability to target surface effects allows for visualisation of surface interactions on forensic gelatin lifts. Crucially, in doing so the order in which the lifted material was originally deposited is also revealed. This, therefore, permits clear elucidation of the order of deposition of printed text and fingermarks—and does so both rapidly and in a non-invasive way. This long sought-after capability has the potential to revolutionise forensic document examinations.

Published

2022

29. Water activated disposable paper battery

Author

Alexandre, Poulin, Xavier, Aeby, and Gustav, Nyström

Subjects

Zinc, Electric Power Supplies, Water, Graphite, Electrodes

Abstract

We developed a disposable paper battery aiming to reduce the environmental impact of single-use electronics for applications such as point of care diagnosis, smart packaging and environmental sensing. The battery uses Zinc as a biodegradable metal anode, graphite as a nontoxic cathode material and paper as a biodegradable substrate. To facilitate additive manufacturing, we developed electrodes and current collector inks that can be stencil printed on paper to create water-activated batteries of arbitrary shape and size. The battery remains inactive until water is provided and absorbed by the paper substrate, taking advantage of its natural wicking behavior. Once activated, a single cell provides an open circuit potential of 1.2 V and a peak power density of 150 µW/cm

Published

2022

30. Heavy metal removal using an advanced removal method to obtain recyclable paper incineration ash

Author

Hak-Min Kim, Tae-Yeol Choi, Min-Ju Park, and Dae-Woon Jeong

Subjects

Multidisciplinary

Abstract

Various agents, including ethylenediaminetetraacetic acid, oxalic acid, citric acid, and HCl, were applied to remove heavy metals from raw paper incineration ash and render the ash recyclable. Among these prepared agent solutions, ethylenediaminetetraacetic acid showed the highest efficiency for Pb removal, while oxalic acid showed the highest efficiencies for Cu, Cd, and As removal. Additionally, three modes of an advanced removal method, which involved the use of both ethylenediaminetetraacetic acid and oxalic acid, were considered for use at the end of the rendering process. Among these three modes of the advanced removal method, that which involved the simultaneous use of ethylenediaminetetraacetic acid and oxalic acid, i.e., a mixture of both solutions, showed the best heavy metal removal efficiencies. In detail, 11.9% of Cd, 10% of Hg, 28.42% of As, 31.29% of Cu, and 49.19% of Pb were removed when this method was used. Furthermore, the application of these three modes of the advanced removal method resulted in a decrease in the amounts of heavy metals eluted and brought about an increase in the CaO content of the treated incineration ash, while decreasing its Cl content. These combined results enhanced the solidification effect of the treated incineration ash. Thus, it was confirmed that the advanced removal method is a promising strategy by which recyclable paper incineration ash can be obtained.

Published

2022

31. Development of a paper printed colorimetric sensor based on Cu-Curcumin nanoparticles for evolving point-of-care clinical diagnosis of sodium

Author

Neeli, Chandran, Prajit, Janardhanan, Manikanta, Bayal, Rajendra, Pilankatta, and Swapna S, Nair

Subjects

Ions, Curcumin, Multidisciplinary, Point-of-Care Systems, Sodium, Humans, Nanoparticles, Colorimetry, Copper

Abstract

The homeostatic control of Sodium (Na+) ion in the human body assumes paramount relevance owing to its physiological importance. Any deviation from the normal level causes serious health problems like hypernatremia, hyponatremia, stroke, kidney problems etc. Therefore, quantification of Na+ levels in body fluids has significant diagnostic and prognostic importance. However, interfering ions like Potassium ion (K+) is the major hurdle in sodium detection. In this work, we synthesized the clusters of 3–9 nm-sized highly stable and pure Copper nanoparticles surface functionalised with curcumin, through chemical reduction method. Each cluster of particles is encapsulated in a curcumin layer which is clearly visible in TEM images. The results show that these curcumin functionalized Cu NPs (CuC) are highly selective to the colorimetric detection of Na+. The ions like K+, Mg2+ and Zn2+ did not interfere with the Na+ in this sensing technique. Low-cost paper-based sensor strips are fabricated and calibrated for the sensing of sodium in the physiological range and shade cards were developed as a calorimetric guide for estimation of Na+ which makes them ideal point of care diagnostic platform. We demonstrate that the proposed CuC paper strip can be used for detecting Na+ concentration within the whole physiological range in both blood serum and urine.

Published

2022

32. Electrochemical detection of uric acid in undiluted human saliva using uricase paper integrated electrodes

Author

Seong Hyun Han, You-Jung Ha, Eun Ha Kang, Kichul Shin, Yun Jong Lee, and Gi-Ja Lee

Subjects

Multidisciplinary, Urate Oxidase, Humans, Reproducibility of Results, Biosensing Techniques, Electrochemical Techniques, Saliva, Electrodes, Uric Acid

Abstract

In this study, we introduce a uricase-immobilized paper (UOx­-paper) integrated electrochemical sensor for detection of uric acid (UA) in saliva. The UOx was immobilized on the detection zone in the wax-patterned paper substrate. This UOx-paper was integrated with a Prussian blue­-modified, screen-printed carbon electrode after electropolymerization of o-phenylenediamine to construct an electrochemical cell for small-volume (20 μL) of samples. First, we optimized the fabrication conditions of UOx-paper. Next, the amperometric response of the UOx-paper-based electrochemical UA sensor was analyzed using a known concentration of UA standard solution in artificial saliva at an applied potential of − 0.1 V (versus Ag pseudo-reference electrode). The UOx-­paper based electrochemical UA sensor showed a sensitivity of 4.9 μA·mM−1 in a linear range of 50 to 1000 μM (R2 = 0.998), high selectivity and good reproducibility, as well as a limit of detection of 18.7 μM (0.31 mg/dL) UA. Finally, we quantified the UA levels in undiluted saliva samples of healthy controls (n = 20) and gout patients (n = 8). The levels were correlated with those measured with conventional salivary UA enzymatic assays as well as serum UA levels. The UOx-paper-based electrochemical UA sensor is a user-friendly and convenient tool to assess salivary UA levels.

Published

2022

33. Origami paper analytical assay based on metal complex sensor for rapid determination of blood cyanide concentration in fire survivors

Author

Marzieh Dadkhah Aseman, Mohammad Mahdi Bordbar, and Azarmidokht Sheini

Subjects

Cyanide, Science, 02 engineering and technology, 01 natural sciences, Biochemistry, Methemoglobin, Article, Fires, Metal, chemistry.chemical_compound, Hydrogen Cyanide, Humans, Survivors, Detection limit, Multidisciplinary, Chromatography, Cyanides, 010401 analytical chemistry, Smoke Inhalation Injury, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemistry, chemistry, Color changes, BORATE BUFFER, visual_art, Environmental chemistry, visual_art.visual_art_medium, Medicine, 0210 nano-technology, Analytical chemistry

Abstract

Cyanide-based blood poisoning can seriously damage fire victims and cause death if not detected quickly. Previous conventional methods require laboratory equipment, which are expensive and increase the duration of the analysis. Here, a simple origami based microfluidic device was introduced for point of need detection of blood cyanide concentration in people involved in fire. The device is made of four layers of paper. Each layer was in the size of 1 × 1 cm folded on each other. In this work, the blood sample was acidified by trichloroacetic acid to separate cyanide from methaemoglobin in the form of HCN gas. The produced gas released into borate buffer to recover free cyanide ions which interacted with the Pt complex ([Pt(p-MeC6H4)2(phen)]) used as a receptor in this study. Optimized conditions were applied to have a suitable interaction causing the color of the receptor to change from yellow to colorless. The color changes were recorded by a smartphone, and the sensor response was calculated by the routine image analysis software. The assay was capable of determining cyanide ions at different concentrations in the range of 1.0 to 100.0 µmol L−1. The detection limit of these determination was equal to 0.4 µmol L−1. The assay responses were not affected by the interfering species. As a practical analysis, the proposed sensor was applied to determine cyanide ions in the blood sample of 20 studied fire survivors and 10 controls with high accuracy.

Published

2021

34. Fabricating Paper Based Devices Using Correction Pens

Author

Suman Chakraborty, Sujay Kumar Biswas, Anusha Prabhu, and Naresh Kumar Mani

Subjects

0301 basic medicine, Masking (art), Multidisciplinary, Computer science, business.industry, lcsh:R, Process (computing), lcsh:Medicine, Paper based, Article, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Simplicity (photography), Optoelectronics, lcsh:Q, Instrumentation (computer programming), business, lcsh:Science, Transverse direction, 030217 neurology & neurosurgery

Abstract

We present a rapid (

Published

2019

35. Green synthesis of silver nanoparticles using the extract of spent coffee used for paper-based hydrogen peroxide sensing device

Author

Natwat Srikhao, Artjima Ounkaew, Pornnapa Kasemsiri, Somnuk Theerakulpisut, Manunya Okhawilai, and Salim Hiziroglu

Subjects

Beverages, Multidisciplinary, Silver, Humans, Metal Nanoparticles, Hydrogen Peroxide, Coffee

Abstract

Hydrogen peroxide (H2O2) has attracted considerable attention for use as a disinfectant ingredient for various applications over the decades. The use of H2O2 within the safety regulations can avoid its toxicity to human health and the environment. In this study, a paper-based sensor containing green-synthesized silver nanoparticles (P-AgNPs) was developed for use in a smartphone in the determination of the H2O2 concentration. In the synthesis process, an extract of spent coffee grounds was used as a bioreducing agent. The effects of reaction time and silver nitrate (AgNO3) concentration on the green synthesis of silver nanoparticles (AgNPs) were investigated. The optimum conditions for the preparation of P-AgNPs were determined to be 100 mM AgNO3 (P-AgNPs-100) and 15 h synthesis time. The P-AgNPs-100 sensor exhibited high sensitivity with a detection limit of 1.26 mM H2O2, which might be suitable for the detection of H2O2-based household and beverage sanitizers. The H2O2 detection capability of P-AgNPs-100 was comparable to that of a commercial strip sensor. Furthermore, P-AgNPs-100 had a detection efficiency of more than 95% after long-term storage for 100 days.

Published

2022

36. High energy storage capabilities of CaCu3Ti4O12 for paper-based zinc–air battery

Author

Upasana Bhardwaj, Aditi Sharma, Vinay Gupta, Khalid Mujasam Batoo, Sajjad Hussain, and H. S. Kushwaha

Subjects

Multidisciplinary

Abstract

Zinc–air batteries proffer high energy density and cyclic stability at low costs but lack disadvantages like sluggish reactions at the cathode and the formation of by-products at the cathode. To resolve these issues, a new perovskite material, CaCu3Ti4O12 (CCTO), is proposed as an efficacious electrocatalyst for oxygen evolution/reduction reactions to develop zinc–air batteries (ZAB). Synthesis of this material adopted an effective oxalate route, which led to the purity in the electrocatalyst composition. The CCTO material is a proven potential candidate for energy applications because of its high dielectric permittivity (ε) and occupies an improved ORR-OER activity with better onset potential, current density, and stability. The Tafel value for CCTO was obtained out to be 80 mV dec−1. The CCTO perovskite was also evaluated for the zinc–air battery as an air electrode, corresponding to the high specific capacitance of 801 mAh g−1 with the greater cyclic efficiency and minimum variations in both charge/discharge processes. The highest power density (Pmax) measured was 127 mW cm−2. Also, the CCTO based paper battery shows an excellent performance achieving a specific capacity of 614 mAh g−1. The obtained results promise CCTO as a potential and cheap electrocatalyst for energy applications.

Published

2022

37. Influence of lignin content in cellulose pulp on paper durability

Author

Piotr Przybysz, Marcin Dubowik, Joanna Łojewska, Edyta Małachowska, and Piotr Boruszewski

Subjects

0106 biological sciences, lcsh:Medicine, 02 engineering and technology, Aluminium sulfate, 01 natural sciences, Redox, complex mixtures, Article, chemistry.chemical_compound, Hydrolysis, Chemical engineering, 010608 biotechnology, Ultimate tensile strength, Lignin, Fourier transform infrared spectroscopy, lcsh:Science, Multidisciplinary, Chemistry, lcsh:R, technology, industry, and agriculture, 021001 nanoscience & nanotechnology, Ageing, Degradation (geology), Materials chemistry, lcsh:Q, 0210 nano-technology, Analytical chemistry

Abstract

Paper degradation on a macroscopic scale is characterised primarily by yellowing, an increase in brittleness, and other destructive changes caused by the hydrolysis of glycoside bonds and oxidation reactions. Until now, lignin has been believed to cause these changes. However, contemporary analysis has not confirmed this assumption and has attributed low paper resistance to ageing with acidification owing to the production in acid environments that involve aluminium sulfate. In view of the common belief this manuscript presents studies on the accelerated ageing of papers with different lignin contents that are produced in neutral environments. To achieve the objective, artificially aged papers under conditions of increased humidity and temperature were investigated using chromatographic (SEC) and spectroscopic (FTIR and UV–Vis spectroscopy) techniques. Mechanical tests were used to determine the decrease in tensile properties of the samples. We observed no effects of the lignin content on the ageing rate of paper produced at neutral pH. This work also reveals the extent to which spectroscopic methods are useful for studying the papers containing lignin.

Published

2020

38. Rewritable acidochromic papers based on oxazolidine for anticounterfeiting and photosensing of polarity and pH of aqueous media

Author

Bahareh Razavi, Hossein Roghani-Mamaqani, and Mehdi Salami-Kalajahi

Subjects

Multidisciplinary

Abstract

Oxazolidine is a new category of stimuli-chromic organic compounds with unique characteristics in response to polarity, pH changes, water, light, and metal ions that were well-known as solvatochromism, acidochromism, hydrochromism, photochromism, and ionochromism, respectively. Therefore, oxazolidine derivatives have been developed for their potential applications in chemosensors, anticounterfeiting, and rewritable hydrochromic papers. In this study, various oxazolidine derivatives containing hydroxyl and naphthalene substituted groups were synthesized by using two different indolenine compounds. The synthesized oxazolidine derivatives were used for investigation of solvatochromism in different solvents, and also acidochromism in various pHs by using UV–Vis and fluorescence spectroscopies. In addition, the oxazolidine derivatives were coated on cellulosic papers using a layer-by-layer strategy to develop rewritable acidochromic papers for printing of security tags on cellulosic papers by using acidic and alkaline solutions as water-based inks. Therefore, the developed rewritable acidochromic papers could be used as security papers.

Published

2022

39. Relationship between wettability of pulp fibers and tensile strength of paper during recycling

Author

Hailan Jin, Ryota Kose, Nobushige Akada, and Takayuki Okayama

Subjects

stomatognathic diseases, Engineering, Multidisciplinary, stomatognathic system, Science, Medicine, Article, Materials science

Abstract

The wettability of the paper surface is greatly affected by the wettability of the pulp fibers. We conducted this study in order to understand the relationship between the wettability of a single fiber of recycled pulp and the strength of recycled paper, as well as the inter-fiber bonding strength. The contact angle was determined from a series of photographs of the pulp fiber and the water silhouettes at the point of contact. The contact line and profile history were continuously photographed in every 1 s after the initial contact. The recycled softwood kraft pulp fibers were clearly much less hydrophilic than the original fibers, regardless of whether the fibers had been bleached or not. The contact angle of the original chemi-thermomechanical pulp fiber was much higher than that of the original softwood bleached kraft pulp fiber. Furthermore, increased number of recycling decreased the contact angle of the chemi-thermomechanical pulp fiber. The Page equation was used to evaluate the strength contributions of single fiber and fiber–fiber bonding to tensile strength of paper. As a result, an increase in weakness factor of fiber–fiber bonding strength was obtained for the recycled softwood kraft pulp handsheet. On the other hand, the weakness factor of the original chemi-thermomechanical pulp handsheet decreased with recycling. In addition, the weakness factor of fiber–fiber bonding strength and the contact angles of the provided softwood bleached kraft pulp fibers bore a proportional relationship to each other.

Published

2022

40. Multiplexed paper-based assay for personalized antimicrobial susceptibility profiling of Carbapenem-resistant Enterobacterales performed in a rechargeable coffee mug

Author

Taylor Oeschger, Lauren Kret, and David Erickson

Subjects

Multidisciplinary, Carbapenems, Humans, Bacterial Infections, Microbial Sensitivity Tests, Coffee, Anti-Bacterial Agents

Abstract

The increasing prevalence of antibiotic resistance threatens to make currently treatable bacterial diseases deadly again. As drug resistance rises, antibiotic susceptibility testing needs to adapt to allow for widespread, individualized testing. Paper-based diagnostics offer low-cost, disposable alternatives to traditional time consuming and costly in-house methods. Here, we describe a paper-based microfluidic device, called the Bac-PAC, capable of categorizing the antibiotic susceptibly of individual strains of Carbapenem-resistant Enterobacterales. Each chip provides a colored readout with actionable susceptibility classification of three antibiotics, thus maximizing the chances of identifying a viable therapy. We verified the technology on thirty bacterial strains with two dyes using six clinically relevant antibiotics. We demonstrated that the dried tests are stable for one month and can be incubated in a rechargeable coffee mug that reduces the need for external infrastructure.

Published

2022

41. Anti-SARS-CoV-2 IgM/IgG antibodies detection using a patch sensor containing porous microneedles and a paper-based immunoassay

Author

Leilei Bao, Jongho Park, Boyu Qin, and Beomjoon Kim

Subjects

Immunoassay, Multidisciplinary, Immunoglobulin M, SARS-CoV-2, Immunoglobulin G, COVID-19, Humans, Enzyme-Linked Immunosorbent Assay, Antibodies, Viral, Communicable Diseases, Porosity

Abstract

Infectious diseases are among the leading causes of mortality worldwide. A new coronavirus named severe acute respiratory syndrome corona virus 2 (SARS-CoV-2) was identified in Wuhan, China in 2019, and the World Health Organization (WHO) declared its outbreak, coronavirus disease 2019 (COVID-19), as a global pandemic in 2020. COVID-19 can spread quickly from person to person. One of the most challenging issues is to identify the infected individuals and prevent potential spread of SARS-CoV-2. Recently, anti-SARS-CoV-2 immunoglobulin M (IgM) and immunoglobulin G (IgG) antibody tests using immunochromatographic methods have been used as a complement to current detection methods and have provided information of the approximate course of COVID-19 infection. However, blood sampling causes pain and poses risks of infection at the needle puncture site. In this study, a novel patch sensor integrating porous microneedles and an immunochromatographic assay (PMNIA) was developed for the rapid detection of anti-SARS-CoV-2 IgM/IgG in dermal interstitial fluid (ISF), which is a rich source of protein biomarkers, such as antibodies. Biodegradable porous microneedles (MNs) made of polylactic acid were fabricated to extract ISF from human skin by capillary effect. The extracted ISF was vertically transported and flowed into the affixed immunoassay biosensor, where specific antibodies could be detected colorimetrically on-site. Anti-SARS-CoV-2 IgM/IgG antibodies were simultaneously detected within 3 min in vitro. Moreover, the limit of detection of anti-SARS-CoV-2 IgM and IgG concentrations was as low as 3 and 7 ng/mL, respectively. The developed device integrating porous MNs and immunochromatographic biosensors is expected to enable minimally invasive, simple, and rapid anti-SARS-CoV-2 IgM/IgG antibody testing. Furthermore, the compact size of the MN and biosensor-integrated device is advantageous for its widespread use. The proposed device has great potential for rapid screening of various infectious diseases in addition to COVID-19 as an effective complementary method with other diagnostic tests.

Published

2022

42. A novel paper MAP method for rapid high resolution histological analysis

Author

Seok Gu Kang, Eunice Yoojin Lee, Mirae Lee, Jin-Kyung Shim, Jiwon Woo, Jung Hee Kim, Doh-Hee Kim, Jeong Yoon Park, and Yu-Mi Yang

Subjects

Male, Proteome, Computer science, Science, Mice, Nude, High resolution, Apoptosis, Diseases, Computational biology, Article, Mice, Imaging, Three-Dimensional, Alzheimer Disease, Tumor Cells, Cultured, Animals, Humans, Spinal Cord Injuries, Cell Proliferation, Microscopy, Confocal, Multidisciplinary, Molecular medicine, Brain Neoplasms, Biological techniques, Brain, Xenograft Model Antitumor Assays, Visualization, Neurology, Medicine, Glioblastoma, Biotechnology, Neuroscience

Abstract

Three-dimensional visualization of cellular and subcellular-structures in histological-tissues is essential for understanding the complexities of biological-phenomena, especially with regards structural and spatial relationships and pathologlical-diagnosis. Recent advancements in tissue-clearing technology, such as Magnified Analysis of Proteome (MAP), have significantly improved our ability to study biological-structures in three-dimensional space; however, their wide applicability to a variety of tissues is limited by long incubation-times and a need for advanced imaging-systems that are not readily available in most-laboratories. Here, we present optimized MAP-based method for paper-thin samples, Paper-MAP, which allow for rapid clearing and subsequent imaging of three-dimensional sections derived from various tissues using conventional confocal-microscopy. Paper-MAP successfully clear tissues within 1-day, compared to the original-MAP, without significant differences in achieved optical-transparency. As a proof-of-concept, we investigated the vasculature and neuronal-networks of a variety of human and rodent tissues processed via Paper-MAP, in both healthy and diseased contexts, including Alzheimer’s disease and glioma.

Published

2021

43. Development of microsatellite loci and optimization of a multiplex assay for Latibulus argiolus (Hymenoptera: Ichneumonidae), the specialized parasitoid of paper wasps

Author

Anna Siekiera, Magdalena Czajkowska, Jan J. Pomorski, Agata Kostro-Ambroziak, and Hanna Panagiotopoulou

Subjects

0106 biological sciences, 0301 basic medicine, Genetic Markers, Population, Genome, Insect, Wasps, lcsh:Medicine, Locus (genetics), Ectoparasitic Infestations, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Animals, Multiplex, Genetic variability, Allele, education, lcsh:Science, Alleles, education.field_of_study, Multidisciplinary, Polymorphism, Genetic, lcsh:R, biology.organism_classification, Null allele, Ichneumonidae, 030104 developmental biology, Genetics, Population, Evolutionary biology, Genetic Loci, Microsatellite, lcsh:Q, Multiplex Polymerase Chain Reaction, Microsatellite Repeats

Abstract

Microsatellite loci are commonly used markers in population genetic studies. In this study, we present 40 novel and polymorphic microsatellite loci elaborated for the ichneumonid parasitoid Latibulus argiolus (Rossi, 1790). Reaction condition optimisation procedures allowed 14 of these loci to be co-amplified in two PCRs and loaded in two multiplex panels onto a genetic analyser. The assay was tested on 197 individuals of L. argiolus originating from ten natural populations obtained from the host nests of paper wasps. The validated loci were polymorphic with high allele numbers ranging from eight to 27 (average 17.6 alleles per locus). Both observed and expected heterozygosity values were high, ranging between 0.75 and 0.92 for HO (mean 0.83) and from 0.70 to 0.90 for HE (mean 0.85). The optimized assay showed low genotyping error rate and negligible null allele frequency. The designed multiplex panels could be successfully applied in relatedness analyses and genetic variability studies of L. argiolus populations, which would be particularly interesting considering the coevolutionary context of this species with its social host.

Published

2020

44. Optoelectronic nose based on an origami paper sensor for selective detection of pesticide aerosols

Author

Anh Quang Tran, Hasan Bagheri, Tien Anh Nguyen, and Mohammad Mahdi Bordbar

Subjects

Analyte, Diazinon, Science, 02 engineering and technology, 01 natural sciences, Article, chemistry.chemical_compound, Pollutant, Detection limit, Multidisciplinary, Chromatography, Filter paper, Sensors, 010401 analytical chemistry, Pesticide, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Chemistry, Parathion, chemistry, Chlorpyrifos, Medicine, 0210 nano-technology, Analytical chemistry

Abstract

This study introduces an applicable colorimetric sensor array for the detection of pesticides in the vapor phase. The array consisted of six metal nanoparticles spotted on the piece of filter paper. 3D-origami pattern was used for the fabrication of a paper-based sensor to decrease the effect of the nanoparticles leaching after exposure to analytes. Exposure to pesticide aerosols caused changes in the color of the array due to the aggregation of nanoparticles. These changes provided selective responses to thion pesticides such as malathion, parathion, chlorpyrifos, and diazinon. The sensing assay could also differentiate between aliphatic and aromatic thions and discriminate amine-containing compounds from the other studied analytes. These finding results are clearly confirmed by both visual detection and multivariate statistical methods. The proposed sensor was successfully developed for the quantitative measurement of pesticide aerosols at a very low concentration. The limit of detection of this method determined for malathion, parathion, chlorpyrifos and diazinon were 58.0, 103.0, 81.0 and 117.0, respectively. Moreover, the array could be employed to simultaneously analyze four studied pesticides. The statistcal results confirmed that the method has high performance for concurrent detection of thions as a major air pollutant without the interference of other species.

Published

2020

45. Crack growth and energy dissipation in paper

Author

Juha Koivisto, Tero Mäkinen, Mikko J. Alava, Markus Ovaska, Maryam Hanifpour, Complex Systems and Materials, Department of Applied Physics, Aalto-yliopisto, and Aalto University

Subjects

Digital image correlation, Multidisciplinary, Materials science, Nonlinear phenomena, lcsh:R, lcsh:Medicine, Hot spot (veterinary medicine), 02 engineering and technology, Mechanics, Dissipation, 021001 nanoscience & nanotechnology, 01 natural sciences, Article, law.invention, law, Intermittency, 0103 physical sciences, Paper sample, lcsh:Q, Fracture process, 010306 general physics, 0210 nano-technology, lcsh:Science

Abstract

Here, we follow the stable propagation of a roughening crack using simultaneously Digital Image Correlation and Infra-Red imaging. In a quasi-two-dimensional paper sample, the crack tip and ahead of that the fracture process zone follow the slowly, diffusively moving “hot spot” ahead of the tip. This also holds when the crack starts to roughen during propagation. The well-established intermittency of the crack advancement and the roughening of the crack in paper are thus subject to the dissipation and decohesion in the hot spot zone. They are therefore not only a result of the depinning of the crack in a heterogeneous material.

Published

2018

46. Rapid DNA visual detection of polymicrobial bloodstream infection using filter paper

Author

Yajing Song and Peter Gyarmati

Subjects

Multidisciplinary, Blood Culture, Coinfection, Sepsis, Escherichia coli, Humans, Bacteremia, DNA, Anti-Bacterial Agents

Abstract

Bloodstream infection (BSI) is a major complication in patients with cancers due to therapy-induced neutropenia and underlying conditions, which increases hospitalization time and mortality rate. Targeted and timely antimicrobial management is crucial to save the patients’ lives and reduce the social and economic burdens. Blood culture is a routine clinical diagnostic method of BSI with a long turnaround time, and generally identifies monomicrobial BSI. Thus, polymicrobial BSI often goes undetected although it occurs more frequently in these patients and results in more severe outcomes compared to monomicrobial BSI. In this work, we apply glutaric anhydride, N-hydroxysuccinimide and N,N′-dicyclohexylcarbodiimide to fabricate a functional surface on cellulose filter paper. Targeting three pathogens (Escherichia coli, Saccharomyces cerevisiae, and human cytomegalovirus) commonly occurring in BSI in neutropenic patients, we demonstrate rapid and accurate triplex pathogen DNA detection using the functionalized paper. All three pathogen DNA was identified in 1–5 min with a detection limit of 0.1–0.5 ng/µL. The developed test tool has the potential to provide rapid polymicrobial BSI diagnosis in support of timely, accurate antimicrobial treatment, and could be integrated into an automatic sample-to-result portable equipment.

Published

2021

47. The transverse and longitudinal elastic constants of pulp fibers in paper sheets

Author

Aleksandar Matković, Artem Kulachenko, Ulrich Hirn, Megan J. Cordill, August Brandberg, Oleksandr Glushko, Caterina Czibula, Christian Teichert, and Chiara Czibula

Subjects

Multidisciplinary, Yield (engineering), Materials science, Science, Modulus, Nanoindentation, Article, Biomaterials, Cellulose fiber, Medicine, Fiber, Composite material, Material properties, Elastic modulus, Tensile testing

Abstract

Cellulose fibers are a major industrial input, but due to their irregular shape and anisotropic material response, accurate material characterization is difficult. Single fiber tensile testing is the most popular way to estimate the material properties of individual fibers. However, such tests can only be performed along the axis of the fiber and are associated with problems of enforcing restraints. Alternative indirect approaches, such as micro-mechanical modeling, can help but yield results that are not fully decoupled from the model assumptions. Here, we compare these methods with nanoindentation as a method to extract elastic material constants of the individual fibers. We show that both the longitudinal and the transverse elastic modulus can be determined, additionally enabling the measurement of fiber properties in-situ inside a sheet of paper such that the entire industrial process history is captured. The obtained longitudinal modulus is comparable to traditional methods for larger indents but with a strongly increased scatter as the size of the indentation is decreased further.

Published

2021

48. Effect of climate on strategies of nest and body temperature regulation in paper wasps, Polistes biglumis and Polistes gallicus

Author

Anton Stabentheiner, Julia Magdalena Nagy, Helmut Kovac, Helmut Käfer, Iacopo Petrocelli, and Stefano Turillazzi

Subjects

Multidisciplinary, Wasps, Temperature, Animals, Water, Body Temperature Regulation, Nesting Behavior

Abstract

Polistes paper wasps are a widespread taxon inhabiting various climates. They build nests in the open without a protective outer layer, which makes them vulnerable to changing temperatures. To better understand the options they have to react to environmental variation and climate change, we here compare the thermoregulatory behavior of Polistes biglumis from cool Alpine climate with Polistes gallicus from warm Mediterranean climate. Behavioral plasticity helps both of them to withstand environmental variation. P. biglumis builds the nests oriented toward east-south-east to gain solar heat of the morning sun. This increases the brood temperature considerably above the ambience, which speeds up brood development. P. gallicus, by contrast, mostly avoids nesting sites with direct insolation, which protects their brood from heat stress on hot days. To keep the brood temperature below 40–42 °C on warm days, the adults of the two species show differential use of their common cooling behaviors. While P. biglumis prefers fanning of cool ambient air onto the nest heated by the sun and additionally cools with water drops, P. gallicus prefers cooling with water drops because fanning of warm ambient air onto a warm nest would not cool it, and restricts fanning to nests heated by the sun.

Published

2021

49. Recurrence monitoring for ovarian cancer using a cell phone-integrated paper device to measure the ovarian cancer biomarker HE4/CRE ratio in urine

Author

Iftak Hussain, Frederick R. Haselton, Audrey K. Bowden, and Emily C Kight

Subjects

Oncology, medicine.medical_specialty, Science, Cell, Urine, Article, Cancer screening, chemistry.chemical_compound, WAP Four-Disulfide Core Domain Protein 2, Internal medicine, Diagnosis, medicine, Biomarkers, Tumor, Humans, Blood testing, Ovarian Neoplasms, Creatinine, Multidisciplinary, business.industry, Assay systems, Ultrasound, Significant difference, Urological manifestations, medicine.disease, medicine.anatomical_structure, chemistry, Biomarker (medicine), Medicine, Female, Smartphone, Neoplasm Recurrence, Local, business, Ovarian cancer

Abstract

Ovarian cancer has a poor cure rate and rates of relapse are high. Current recurrence detection is limited by non-specific methods such as blood testing and ultrasound. Based on reports that human epididymis four (HE4) / creatinine (CRE) ratios found in urine are elevated in ovarian cancers, we have developed a paper-based device that combines lateral flow technology and cell phone analysis to quantitatively measure HE4/CRE. Surrogate samples were used to test the performance over clinically expected HE4/CRE ratios. For HE4/CRE ratios of 2 to 47, the percent error was found to be 16.0% on average whether measured by a flatbed scanner or cell phone. There was not a significant difference between the results from the cell phone or scanner. Based on published studies, error in this method was less than the difference required to detect recurrence. This promising new tool, with further development, could be used at home or in low-resource settings to provide timely detection of ovarian cancer recurrence.

Published

2021

50. A Chemically Patterned Microfluidic Paper-based Analytical Device (C-µPAD) for Point-of-Care Diagnostics

Author

Trinh Lam, Jungkyu Kim, Jasmine Pramila Devadhasan, and Ryan Howse

Subjects

Paper, Materials science, Point-of-Care Systems, Science, Microfluidics, 02 engineering and technology, Chemical vapor deposition, 01 natural sciences, Article, Chemistry Techniques, Analytical, chemistry.chemical_compound, Trichlorosilane, medicine, Fluidics, Immunoassay, Detection limit, Multidisciplinary, Chromatography, medicine.diagnostic_test, Diagnostic Tests, Routine, 010401 analytical chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Standard curve, Paper chromatography, chemistry, 13. Climate action, Medicine, 0210 nano-technology

Abstract

A chemically patterned microfluidic paper-based analytical device (C-µPAD) is developed to create fluidic networks by forming hydrophobic barriers using chemical vapor deposition (CVD) of trichlorosilane (TCS) on a chromatography paper. By controlling temperature, pattern size, and CVD duration, optimal conditions were determined by characterizing hydrophobicity, spreading patterns, and flow behavior on various sized fluidic patterns. With these optimal conditions, we demonstrated glucose assay, immunoassay, and heavy metal detection on well-spot C-µPAD and lateral flow C-µPAD. For these assays, standard curves showing correlation between target concentration and gray intensity were obtained to determine a limit of detection (LOD) of each assay. For the glucose assays on both well-spot C-µPAD and lateral flow C-µPAD, we achieved LOD of 13 mg/dL, which is equivalent to that of a commercial glucose sensor. Similar results were obtained from tumor necrosis factor alpha (TNFα) detection with 3 ng/mL of LOD. For Ni detection, a colorimetric agent was immobilized to obtain a stationary and uniform reaction by using thermal condensation coupling method. During the immobilization, we successfully functionalized amine for coupling the colorimetric agent on the C-µPAD and detected as low as 150 μg/L of Ni. These C-µPADs enable simple, rapid, and cost-effective bioassays and environmental monitoring, which provide practically relevant LODs with high expandability and adaptability.

Published

2017