Showing total 269,171 results

151. Fabrication of laser printed microfluidic paper-based analytical devices (LP-µPADs) for point-of-care applications

Author

Ghosh, Rajesh, Gopalakrishnan, Saranya, Savitha, Rangasamy, Renganathan, Thiruvengadam, and Pushpavanam, Subramanium

Published

2019

152. Multifunctional Paper-Based Analytical Device for In Situ Cultivation and Screening of Escherichia coli Infections.

Author

Noiphung J and Laiwattanapaisal W

Subjects

Escherichia coli growth & development, Escherichia coli Infections microbiology, Microscopy, Electron, Scanning, Nitrites analysis, Nitrites chemistry, Point-of-Care Testing, Colorimetry methods, Escherichia coli isolation & purification, Escherichia coli Infections diagnosis, Paper

Abstract

Point-of-care testing (POCT) for uropathogen detection and chemical screening has great benefits for the diagnosis of urinary tract infections (UTIs). The goal of this study was to develop a portable and inexpensive paper-based analytical device (PAD) for cultivating bacteria in situ and rapidly testing for nitrite on the same device. The PAD was fabricated using a wax printing technique to create a pattern on Whatman No. 1 filter paper, which was then combined with a cotton sheet to support bacterial growth. Nitrite detection was based on the principle of the Griess reaction, and a linear detection range of 0-1.6 mg/dL (R 2  = 0.989) was obtained. Scanning electron microscopy (SEM) analysis demonstrated that the bacteria were able to grow and formed a cluster on the cellulose fibres within 2 hours. The enzyme β-glucuronidase, which is specifically produced by Escherichia coli, was able to convert the pre-immobilized 5-bromo-4-chloro-3-indolyl-β-D-glucuronide sodium salt (X-GlcA), a colourless substrate, generating a blue colour. Under optimum conditions, the proposed device allowed bacterial concentrations in the range of 10 4 -10 7 colony forming units (CFU)/mL to be quantified within 6 hours. Moreover, the use of this device enables the identification of E. coli pathogens with selectivity in real urine samples. In conclusion, the PAD developed in this study for UTI screening provides a rapid, cost-effective diagnostic method for use in remote areas.

Published

2019

153. Sensing of electrolytes in urine using a miniaturized paper-based device

Author

Ghaderinezhad, Fariba, Ceylan Koydemir, Hatice, Tseng, Derek, Karinca, Doruk, Liang, Kyle, Ozcan, Aydogan, and Tasoglu, Savas

Published

2020

154. Fast response paper based visual color change gas sensor for efficient ammonia detection at room temperature

Author

Maity, Avisek and Ghosh, Barnali

Published

2018

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

Author

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

Published

2020

156. Development of hydrophobic paper substrates using silane and sol–gel based processes and deriving the best coating technique using machine learning strategies

Author

Kapil Manoharan, Mohd. Tahir Anwar, and Shantanu Bhattacharya

Subjects

Medicine, Science

Abstract

Abstract Low energy surface coatings have found wide range of applications for generating hydrophobic and superhydrophobic surfaces. Most of the studies have been related to use of a single coating material over a single substrate or using a single technique. The degree of hydrophobicity is highly dependent on fabrication processes as well as materials being coated and as such warrants a high-level study using experimental optimization leading to the evaluation of the parametric behavior of coatings and their application techniques. Also, a single platform or system which can predict the required set of parameters for generating hydrophobic surface of required nature for given substrate is of requirement. This work applies the powerful machine learning algorithms (Levenberg Marquardt using Gauss Newton and Gradient methods) to evaluate the various processes affecting the anti-wetting behavior of coated printable paper substrates with the capability to predict the most optimized method of coating and materials that may lead to a desirable surface contact angle. The major application techniques used for this study pertain to dip coating, spray coating, spin coating and inkjet printing and silane and sol–gel base coating materials.

Published

2021

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

Author

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

Subjects

Medicine, Science

Abstract

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

158. Accelerated nucleophilic substitution reactions of dansyl chloride with aniline under ambient conditions via dual-tip reactive paper spray

Author

Norfatirah Muhamad Sarih, David Romero-Perez, Behnam Bastani, Monrawat Rauytanapanit, Cedric Boisdon, Thanit Praneenararat, Hairul Anuar Tajuddin, Zanariah Abdullah, Abraham K. Badu-Tawiah, and Simon Maher

Subjects

Medicine, Science

Abstract

Abstract Paper spray ionization (PSI) mass spectrometry (MS) is an emerging tool for ambient reaction monitoring via microdroplet reaction acceleration. PSI-MS was used to accelerate and monitor the time course of the reaction of dansyl chloride with aniline, in acetonitrile, to produce dansyl aniline. Three distinct PSI arrangements were explored in this study representing alternative approaches for sample loading and interaction; conventional single tip as well as two novel setups, a dual-tip and a co-axial arrangement were designed so as to limit any on-paper interaction between reagents. The effect on product abundance was investigated using these different paper configurations as it relates to the time course and distance of microdroplet travel. It was observed that product yield increases at a given distance and then decreases thereafter for all PSI configurations. The fluorescent property of the product (dansyl aniline) was used to visually inspect the reaction progress on the paper substrate during the spraying process. Amongst the variety of sample loading methods the novel dual-tip arrangement showed an increased product yield and microdroplet density, whilst avoiding any on-paper interaction between the reagents.

Published

2020

159. Solvent-Assisted Paper Spray Ionization Mass Spectrometry (SAPSI-MS) for the Analysis of Biomolecules and Biofluids

Author

Riboni, Nicoló, Quaranta, Alessandro, Motwani, Hitesh V., Österlund, Nicklas, Gräslund, Astrid, Bianchi, Federica, and Ilag, Leopold L.

Published

2019

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

Author

Azarmidokht Sheini, Marzieh Dadkhah Aseman, and Mohammad Mahdi Bordbar

Subjects

Medicine, Science

Abstract

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

161. Impact of shredding degree on papermaking potential of recycled waste.

Author

Lipkiewicz, Aneta, Małachowska, Edyta, Dubowik, Marcin, and Przybysz, Piotr

Subjects

PAPERMAKING, WASTE recycling, CELLULOSE fibers, TENSILE strength, PAPER industry

Abstract

The properties of paper products depend on the structure of the cellulose fibres therein. Although fibre properties in virgin pulps can be modified by a refining process, this is more difficult in pulp from recovered fibre, particularly waste from office shredders that tend to shorten fibres during shredding. The shorter fibres in shredded paper make it difficult to easily reconstitute them into high-quality paper products. Moreover, because of high energy usage during the recycling process and transportation inefficiencies, there is a need to determine how to responsibly shred paper to alleviate this environmental burden. With this in mind, the influence of initial fibre length on the tensile properties of paper was investigated. Changes in initial fibre length significantly influenced many pulp and paper properties. It was found that cutting the paper into pieces with an area less than 25 mm2 caused significant changes in the important morphological parameters of the fibres and a sharp decrease in the tensile properties of the reconstituted paper. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

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

Subjects

Medicine, Science

Abstract

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

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

Author

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

Published

2019

164. A modular paper-and-plastic device for tuberculosis nucleic acid amplification testing in limited-resource settings

Author

Kaur, Navjot, Michael, Joy S., and Toley, Bhushan J.

Published

2019

165. Automated pencil electrode formation platform to realize uniform and reproducible graphite electrodes on paper for microfluidic fuel cells

Author

Lanka Tata Rao, Prakash Rewatkar, Satish Kumar Dubey, Arshad Javed, and Sanket Goel

Subjects

Medicine, Science

Abstract

Abstract Graphite pencil stroked electrodes for paper-based Microfluidic devices are gaining immense attention due to their electrochemical properties, cost efficiency, and ease-of-use. However, their widespread use has been hindered by the challenges associated with their manual fabrication such as non-uniformity in graphite deposition, applied pressure, etc. This work presents the design and development of an automated graphite pencil stroking device for graphite electrode fabrication with high efficiency through a compact, inexpensive and automatic process, with reduced fabrication time and human intervention leading to more uniformity. The motion platform of Graphtec plotter was used to create multiple strokes with the help of the proposed device. Such inexpensive graphite electrodes (less than the US $1) have been observed to be porous in nature, acting as diffusion agents. The automated graphite electrodes were used to study the performance of microfluidic paper fuel cells (MPFCs) with formic acid, oxygen, and sulphuric acid acting as fuel, oxidising agent and electrolyte respectively. From this configuration, the maximum current density and power density were measured to be 1,305.5 µA cm−2 and 135.5 µW cm−2, respectively at 0.3 V stable OCP at 100 strokes. Overall, the study enumerates the development of an automated pencil stroke device for fabricating graphite electrodes, which can potentially be harnessed in numerous miniaturized paper based applications.

Published

2020

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

Author

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

Subjects

Medicine, Science

Abstract

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

167. Multi-AI competing and winning against humans in iterated Rock-Paper-Scissors game

Author

Wang, Lei, Huang, Wenbin, Li, Yuanpeng, Evans, Julian, and He, Sailing

Published

2020

168. Analysis of non-conjugated steroids in water using paper spray mass spectrometry

Author

Jjunju, Fred. P. M., Damon, Deidre E., Romero-Perez, David, Young, Iain S., Ward, Ryan J., Marshall, Alan, Maher, Simon, and Badu-Tawiah, Abraham K.

Published

2020

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

Author

Baker, Adam M. and Potter, Daniel A.

Published

2020

170. A solvent-free microbial-activated air cathode battery paper platform made with pencil-traced graphite electrodes

Author

Lee, Seung Ho, Ban, Ju Yeon, Oh, Chung-Hun, Park, Hun-Kuk, and Choi, Samjin

Published

2016

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

Author

Goel P, Vishweswaraiah RH, and Kumar N

Subjects

Animals, Milk chemistry, Anti-Bacterial Agents analysis, Monobactams, Spores chemistry, Lactams, beta-Lactams

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., (© 2022. The Author(s).)

Published

2022

172. High sensitivity NH3 gas sensor with electrical readout made on paper with perovskite halide as sensor material

Author

Maity, Avisek, Raychaudhuri, A. K., and Ghosh, Barnali

Published

2019

173. Graphene Oxide Papers in Nanogenerators for Self-Powered Humidity Sensing by Finger Tapping

Author

Ejehi, Faezeh, Mohammadpour, Raheleh, Asadian, Elham, Sasanpour, Pezhman, Fardindoost, Somayeh, and Akhavan, Omid

Published

2020

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

Author

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

Published

2019

175. Paper-based MoS 2 nanosheet-mediated FRET aptasensor for rapid malaria diagnosis.

Author

Geldert A, Kenry, and Lim CT

Subjects

Bacterial Proteins analysis, Humans, L-Lactate Dehydrogenase analysis, Materials Testing, Plasmodium enzymology, Point-of-Care Systems, Wettability, Aptamers, Nucleotide chemistry, Disulfides chemistry, Fluorescence Resonance Energy Transfer instrumentation, Malaria diagnosis, Molybdenum chemistry, Nanostructures chemistry, Nanostructures ultrastructure, Paper

Abstract

There has been growing interest in the development of paper-based biosensors because their simplicity and low cost are attractive for point-of-care diagnosis, especially in low-resource areas. However, only a limited range of paper materials - primarily chromatography papers - have been incorporated into diagnostics thus far. Here, we investigate the performance of different types of paper in order to develop an aptamer- and MoS 2 nanosheet-based sensor relying on fluorescence resonance energy transfer (FRET) to signal the presence of a target protein. An aptamer which binds to a malarial biomarker, Plasmodium lactate dehydrogenase (pLDH), is chosen for this study, as point-of-care diagnostics would be especially advantageous in low-resource areas, such as those where malaria is prevalent. We observe that of all papers tested, a measurable and specific fluorescence recovery can only be produced on the sensor created with printer paper, while no significant fluorescence recovery is generated on sensors made from other types of paper, including chromatography, lens, and filter papers. Therefore, our findings demonstrate the importance of careful material selection for the development of a paper-based diagnostic test, and suggest that commercially-available products such as printer paper may serve as viable materials to develop cost-effective and simple diagnostics.

Published

2017

176. A Printed Multicomponent Paper Sensor for Bacterial Detection.

Author

Ali MM, Brown CL, Jahanshahi-Anbuhi S, Kannan B, Li Y, Filipe CDM, and Brennan JD

Subjects

Biosensing Techniques economics, DNA, Catalytic chemistry, Enzymes, Immobilized chemistry, Fluorescence, Glucans chemistry, Limit of Detection, Muramidase chemistry, Trehalose chemistry, Bacteria isolation & purification, Biosensing Techniques methods, Biotechnology methods, Molecular Probes chemistry, Paper

Abstract

We present a simple all-in-one paper-based sensor for E. coli detection using a composite ink made of a fluorogenic DNAzyme probe for bacterial recognition and signal generation, lysozyme that lyses whole bacterial cells, and pullulan/trehalose sugars that stabilize printed bioactive molecules. The paper sensor is capable of producing a fluorescence signal as a readout within 5 minutes upon contacting E. coli, can achieve a limit of detection of 100 cells/mL, in a variety of sample matrixes, without sample enrichment, and remains stable for at least 6 months when stored at ambient temperature. Therefore, this simple paper sensor provides rapid bacterial testing on site, and can be shipped and stored under ambient conditions to benefit users living in resource-limited regions.

Published

2017

177. Determination of Quality Changes in Peaches Wrapped in Active Paper and Stored at Ambient Temperature in Summer.

Author

Du XL, Li H, Zhou WH, Liu Y, and Li JL

Subjects

Food Analysis, Food Microbiology, Food Preservation, Fruit microbiology, Fungi classification, Fungi growth & development, Paper, Prunus persica microbiology

Abstract

Peaches are known for their palatable flavor and abundant nutrients. However, peaches are perishable, and the existing preservation techniques for peaches are still immature. To further extend the shelf life and prevent nutrient loss of perishable peaches under ambient temperature in summer (approximately 25-32 °C), we conducted experiments wrapping peaches (Prunus persica cv 'Baihua') in single- and composite-treated vegetal fibrous papers that contained calcium carbonate, phytic acid, Na-alginate and vitamin C. The pathogenic fungi that primarily caused peach decay during storage belonged to the genera of Penicillium, Botrytis, Aspergillus, Alternaria, and Rhizopus. After analyzing quality attributes, including weight loss, firmness, soluble sugar content, respiration rate, relative electric conductivity, malonaldehyde content, peroxidase activity and the decay index, we proved that vitamin C within the preservative paper greatly contributes to peach preservation. Combined with phytic acid and Na-alginate, the composite vitamin C preservative papers played significant roles in delaying fruit senescence, and 0.4% (w/v) vitamin C preservative paper with 1% Na-alginate could maintain quality and extend shelf life with the best effect. This preservation technique significantly postponed the respiration peak by 2-3 days and is a significant contribution to contemporary commercial production.

Published

2017

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

Author

Adel AM, Ahmed NM, Diab MA, El-Shall FN, and El-Shinnawy N

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 TiO 2 /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., (© 2023. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published

2023

179. Degradation of paper products due to volatile organic compounds.

Author

Alam I and Sharma C

Abstract

Paper and packaging materials a lignocellulose-based natural biodegradable polymer that spontaneously releases acetic acid, aldehydes, alcohol, and ester-based volatile organic compounds (VOCs) upon ageing and these VOCs start degrading the paper products and decline their mechanical strength properties. The reactivity of the paper of unbleached wheat straw pulp towards acetic acid and hexanal, which has been proven to have more degrading effects on paper than other VOCs, was considered in this work. The papers were exposed to these volatile compounds for 90 days in an air-tight vessel under ambient environmental conditions. The results showed that hexanal was more destructive than acetic acid with regards to cellulose degradation and depletion in the mechanical strength properties. The paper properties like, tensile, tear and burst index, viscosity, pH and carbonyl group content was measured. The growth of the carbonyl group, evidence of the ageing effects in the paper, detected more in the paper exposed to acetic acid. However, the strength of paper properties declined more with hexanal. FE-SEM analysis of the sample showed the development of pores and damage of cellulose fibre upon ageing. Similarly, the damaging effects of VOCs on cellulose, hemicelluloses and lignin were confirmed by significantly reduced peak detection through FT-IR \analysis. The high crystallinity index of the paper products due to exposure to VOCs was detected by XRD analysis, which confirmed the degradation of the low molecular weight cellulose molecule. Thus, the results are strongly recommended that VOCs that generates due to natural or artificial ageing could be the leading cause of paper degradation., (© 2023. The Author(s).)

Published

2023

180. Negative magnetostrictive paper formed by dispersing CoFe 2 O 4 particles in cellulose nanofibrils.

Author

Keino T, Rova L, Gallet-Pandellé A, Kurita H, and Narita F

Abstract

Polymers are often combined with magnetostrictive materials to enhance their toughness. This study reports a cellulose nanofibril (CNF)-based composite paper containing dispersed CoFe 2 O 4 particles (CNF-CoFe 2 O 4 ). Besides imparting magnetization and magnetostriction, the incorporation of CoFe 2 O 4 particles decreased the ultimate tensile strength and increased the fracture elongation of the CNF-CoFe 2 O 4 composite paper. CNF was responsible for the tensile properties of CNF-CoFe 2 O 4 composite paper. Consequently, the magnetic and magnetostrictive properties and tensile properties of CNF-CoFe 2 O 4 composite paper can be controlled by changing the mixture ratio of CNF and CoFe 2 O 4 particles., (© 2023. The Author(s).)

Published

2023

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

Author

Chen JC, Tsai SF, and Liu SA

Subjects

Humans, Retrospective Studies, Anxiety, Personal Satisfaction, Decision Making, Patient Satisfaction

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., (© 2023. The Author(s).)

Published

2023

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

Author

Alves MVS, Maciel LIL, Passos JOS, Morais CLM, Dos Santos MCD, Lima LAS, Vaz BG, Pegado R, and Lima KMG

Subjects

Humans, Quality of Life, Mass Spectrometry, Discriminant Analysis, Principal Component Analysis, Fibromyalgia diagnosis

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., (© 2023. The Author(s).)

Published

2023

183. Robotic automation and unsupervised cluster assisted modeling for solving the forward and reverse design problem of paper airplanes.

Author

Obayashi N, Junge K, Ilić S, and Hughes J

Abstract

Although often regarded a childhood toy, the design of paper airplanes is subtly complex. The design space and mapping from geometry to distance flown is highly nonlinear and probabilistic where a single airplane design exhibits a multitude of trajectory forms and flight distances. This makes optimization and understanding of their behavior challenging for humans. By understanding the behavior of paper airplanes and predicting flight behavior, there is a potential to improve the design of aerial vehicles that operate at low Reynolds numbers. By developing a robotic system that can fabricate, test, analyze, and model the flight behavior in an unsupervised fashion, a wide design space can be reliably characterized. We find there are discrete behavioral groups that result in different trajectories: nose dive, glide, and recovery glide. Informed by this characterization we propose a method of using Gaussian mixture models to extract the clusters of the design space that map to these different behaviors. This allows us to solve both the forward and reverse design problem for paper airplanes, and also to perform efficient optimization of the geometry for a given target flight distance., (© 2023. The Author(s).)

Published

2023

184. Sensing of electrolytes in urine using a miniaturized paper-based device

Author

Fariba Ghaderinezhad, Hatice Ceylan Koydemir, Derek Tseng, Doruk Karinca, Kyle Liang, Aydogan Ozcan, and Savas Tasoglu

Subjects

Medicine, Science

Abstract

Abstract Analyzing electrolytes in urine, such as sodium, potassium, calcium, chloride, and nitrite, has significant diagnostic value in detecting various conditions, such as kidney disorder, urinary stone disease, urinary tract infection, and cystic fibrosis. Ideally, by regularly monitoring these ions with the convenience of dipsticks and portable tools, such as cellphones, informed decision making is possible to control the consumption of these ions. Here, we report a paper-based sensor for measuring the concentration of sodium, potassium, calcium, chloride, and nitrite in urine, accurately quantified using a smartphone-enabled platform. By testing the device with both Tris buffer and artificial urine containing a wide range of electrolyte concentrations, we demonstrate that the proposed device can be used for detecting potassium, calcium, chloride, and nitrite within the whole physiological range of concentrations, and for binary quantification of sodium concentration.

Published

2020

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

Author

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

Published

2020

186. A modular paper-and-plastic device for tuberculosis nucleic acid amplification testing in limited-resource settings

Author

Navjot Kaur, Joy S. Michael, and Bhushan J. Toley

Subjects

Medicine, Science

Abstract

Abstract We present a prototype for conducting rapid, inexpensive and point-of-care-compatible nucleic acid amplification tests (NAATs) for tuberculosis (TB). The fluorescent isothermal paper-and-plastic NAAT (FLIPP-NAAT) uses paper-based loop mediated isothermal amplification (LAMP) for DNA detection. The cost of materials required to build a 12-test-zone device is $0.88 and the cost of reagents per reaction is $0.43. An inexpensive imaging platform enables filter-free fluorescence detection of amplified DNA using a cell-phone camera. FLIPP-NAAT can be operated by an untrained user and only requires a regular laboratory incubator as ancillary equipment. All reagents can be dry-stored in the device, facilitating storage and transportation without cold chains. The device design is modular and the assay demonstrated high specificity to Mycobacterium tuberculosis (Mtb), analytical sensitivity of the order of 10 copies of Mtb gDNA, and tolerance to complex samples. The clinical sensitivity and specificity of sputum-based FLIPP NAAT tests were 100% (zero false negatives) and 68.75% (five false positives), respectively (N = 30), using Xpert MTB/RIF assay as the reference standard. FLIPP-NAAT has the potential to provide affordable and accessible molecular diagnostics for TB in low- and middle-income countries, when used in conjunction with an appropriate sample preparation technique. Although demonstrated for the detection of TB, FLIPP-NAAT is a platform technology for amplification of any nucleic acid sequence.

Published

2019

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

Author

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

Subjects

*AMINO acids, *AMINO acid analysis, *PAPER chromatography, *AMINOACYL-tRNA, *DETECTION limit, *HISTIDINE, *TRYPTOPHAN

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). [ABSTRACT FROM AUTHOR]

Published

2022

188. Improved de-inking of inkjet-printed paper using environmentally friendly atmospheric pressure low temperature plasma for paper recycling

Author

Mauchauffé, Rodolphe, primary, Lee, Seung Jun, additional, Han, Isaac, additional, Kim, Sang Hyeong, additional, and Moon, Se Youn, additional

Published

2019

189. Preparation and Characterization of Optimized Hydrochar from Paper Board Mill Sludge

Author

Oumabady, Sadish, S., Paul Sebastian, Kamaludeen, Sara P. B., Ramasamy, Mahendiran, Kalaiselvi, P., and Parameswari, E.

Published

2020

190. Factors promoting research activities among Japanese pharmacists: a questionnaire survey.

Author

Takigawa, Masaki, Kondo, Yuki, Kobayashi, Yutaka, Iihoshi, Akane, Kinoshita, Masako, Ishitsuka, Yoichi, and Masuda, Masayuki

Subjects

DRUGSTORES, PHARMACISTS, REPORT writing, LOGISTIC regression analysis, MASTER'S degree

Abstract

Pharmacists are expected to demonstrate their expertise in clinical practice and conduct research activities to generate new evidence. However, the factors promoting research activities among pharmacists remain unclear. Therefore, we investigated the research activities of Japanese pharmacists through a questionnaire survey and examined the factors contributing to the promotion of research activities. A web-based questionnaire using Google Forms was disseminated across pharmacists working in community pharmacies, drugstores, hospitals, and clinics. The questionnaire included respondents' backgrounds, research activities, and research environments. Logistic regression analysis was used to examine the factors promoting pharmacists' research activities, with experience in research paper acceptance as the objective variable. In total, 401 responses were included in the analysis. Of the respondents, 54.1% were hospital pharmacists, and 77.1% were pharmacists with > 5 years of pharmacist experience. Furthermore, 50.4% of the pharmacists had presented at conferences, and 22.2% had experience in research paper acceptance. The influential factors were "master's degree or higher," "number of affiliated academic societies," "acquisition of specialists/certified pharmacists," and "daily availability of a consultant for writing research papers." This study revealed the factors contributing to the promotion of research activities among pharmacists. We believe that our findings will help promote research among pharmacists. [ABSTRACT FROM AUTHOR]

Published

2024

191. Uncovering floral composition of paper wasp nests (Hymenoptera: Vespidae: Polistes) through DNA metabarcoding.

Author

Mohamadzade Namin, Saeed, Son, Minwoong, and Jung, Chuleui

Subjects

VESPIDAE, GENETIC barcoding, WASPS, HYMENOPTERA, NEST building, PLANT DNA

Abstract

As the social organism, Polistes wasps build a communal nest using woody fibers with saliva for sustaining brood and adult population throughout the season. Limited information exists regarding the identification specific plant materials employed in wasp nest building. Thus, we firstly tested if the DNA metabarcoding approach utilizing rbcL and trnL molecular markers could identify the plant species quantitatively and qualitatively inform the mixed-origin woody samples. A threshold of 0.01 proportion of reads was applied for rbcL and trnL molecular markers, while this threshold for median proportion was 0.0025. In assessing taxa richness, the median proportion demonstrated superior performance, exhibiting higher taxa detection power, however, rbcL marker outperformed in quantitative analysis. Subsequently, we applied DNA metabarcoding to identify the plant materials from the nests of two Polistes species, P. mandarinus and P. rothneyi. The results showed that higher preference of Quercus and Robinia as the major nest building materials regardless of the surrounding plant communities, by two wasp species. Material diversity was higher for P. rothneyi than P. mandarinus, which may explain the abundance of this species possibly with heightened adaptive capacities in their nesting behavior. This study demonstrated that DNA metabarcoding could identify the complex nest-building plant materials of paper wasps and provide insights into their ecological interactions in the natural ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

192. A Paper-Based Test for Screening Newborns for Sickle Cell Disease.

Author

Piety NZ, George A, Serrano S, Lanzi MR, Patel PR, Noli MP, Kahan S, Nirenberg D, Camanda JF, Airewele G, and Shevkoplyas SS

Subjects

Anemia, Sickle Cell blood, Humans, Infant, Newborn, Isoelectric Focusing, Limit of Detection, Saponins chemistry, Solubility, Sulfites chemistry, Anemia, Sickle Cell diagnosis, Hemoglobin, Sickle analysis, Neonatal Screening methods, Paper

Abstract

The high cost, complexity and reliance on electricity, specialized equipment and supplies associated with conventional diagnostic methods limit the scope and sustainability of newborn screening for sickle cell disease (SCD) in sub-Saharan Africa and other resource-limited areas worldwide. Here we describe the development of a simple, low-cost, rapid, equipment- and electricity-free paper-based test capable of detecting sickle hemoglobin (HbS) in newborn blood samples with a limit of detection of 2% HbS. We validated this newborn paper-based test in a cohort of 159 newborns at an obstetric hospital in Cabinda, Angola. Newborn screening results using the paper-based test were compared to conventional isoelectric focusing (IEF). The test detected the presence of HbS with 81.8% sensitivity and 83.3% specificity, and identified SCD newborns with 100.0% sensitivity and 70.7% specificity. The use of the paper-based test in a two-stage newborn screening process could have excluded about 70% of all newborns from expensive confirmatory testing by IEF, without missing any of the SCD newborns in the studied cohort. This study demonstrates the potential utility of the newborn paper-based test for reducing the overall cost of screening newborns for SCD and thus increasing the practicality of universal newborn SCD screening programs in resource-limited settings.

Published

2017

193. Validation of the recycled backfill material for the landslide stabilization at a railway line

Author

Karmen Fifer Bizjak and Barbara Likar

Subjects

Landslides, Recycled backfill material, Paper sludge ash, Paper sludge, Geotechnical composite, Railway line, Medicine, Science

Abstract

Abstract In mountain areas landslides many times endanger safety of transport infrastructures, and these must be stabilized with retaining wall structures. In this paper the validation of a new composite as a backfill material for landslide stabilization with a large scale demo retaining wall is presented. The new composite was made from residues of paper industry, which uses for its production deinking process. New composite was validated with the laboratory tests, construction of small demo sites and at the end with a large demo retaining wall structure with a length of 50 m. It was concluded that the paper sludge ash and the paper sludge are in proportion 70:30, compacted on the optimal water content and maximum dry density, reached sufficient uniaxial compressive and shear strength. However, the composite's hydration processes required the definition of an optimal time between the composite mixing and installation. In 2019, the retaining wall structure from the new composite was successfully built. The large demo structure is an example of the knowledge transfer from the laboratory to the construction site, in which composite and installing technology could be verified.

Published

2024

194. Ultrasensitive, rapid and inexpensive detection of DNA using paper based lateral flow assay.

Author

Jauset-Rubio M, Svobodová M, Mairal T, McNeil C, Keegan N, Saeed A, Abbas MN, El-Shahawi MS, Bashammakh AS, Alyoubi AO, and O Sullivan CK

Subjects

Gold chemistry, Limit of Detection, Metal Nanoparticles, Point-of-Care Systems, Polymerase Chain Reaction methods, DNA analysis, Paper

Abstract

Sensitive, specific, rapid, inexpensive and easy-to-use nucleic acid tests for use at the point-of-need are critical for the emerging field of personalised medicine for which companion diagnostics are essential, as well as for application in low resource settings. Here we report on the development of a point-of-care nucleic acid lateral flow test for the direct detection of isothermally amplified DNA. The recombinase polymerase amplification method is modified slightly to use tailed primers, resulting in an amplicon with a duplex flanked by two single stranded DNA tails. This tailed amplicon facilitates detection via hybridisation to a surface immobilised oligonucleotide capture probe and a gold nanoparticle labelled reporter probe. A detection limit of 1 × 10 -11  M (190 amol), equivalent to 8.67 × 10 5 copies of DNA was achieved, with the entire assay, both amplification and detection, being completed in less than 15 minutes at a constant temperature of 37 °C. The use of the tailed primers obviates the need for hapten labelling and consequent use of capture and reporter antibodies, whilst also avoiding the need for any post-amplification processing for the generation of single stranded DNA, thus presenting an assay that can facilely find application at the point of need.

Published

2016

195. A paper/polymer hybrid microfluidic microplate for rapid quantitative detection of multiple disease biomarkers.

Author

Sanjay ST, Dou M, Sun J, and Li X

Subjects

Enzyme-Linked Immunosorbent Assay, Hepatitis B Surface Antigens blood, Humans, Immunoglobulin G blood, Indoles chemistry, Indoles metabolism, Nitroblue Tetrazolium chemistry, Nitroblue Tetrazolium metabolism, Polymethyl Methacrylate chemistry, Time Factors, Biomarkers analysis, Microfluidics methods, Paper, Polymers chemistry

Abstract

Enzyme linked immunosorbent assay (ELISA) is one of the most widely used laboratory disease diagnosis methods. However, performing ELISA in low-resource settings is limited by long incubation time, large volumes of precious reagents, and well-equipped laboratories. Herein, we developed a simple, miniaturized paper/PMMA (poly(methyl methacrylate)) hybrid microfluidic microplate for low-cost, high throughput, and point-of-care (POC) infectious disease diagnosis. The novel use of porous paper in flow-through microwells facilitates rapid antibody/antigen immobilization and efficient washing, avoiding complicated surface modifications. The top reagent delivery channels can simply transfer reagents to multiple microwells thus avoiding repeated manual pipetting and costly robots. Results of colorimetric ELISA can be observed within an hour by the naked eye. Quantitative analysis was achieved by calculating the brightness of images scanned by an office scanner. Immunoglobulin G (IgG) and Hepatitis B surface Antigen (HBsAg) were quantitatively analyzed with good reliability in human serum samples. Without using any specialized equipment, the limits of detection of 1.6 ng/mL for IgG and 1.3 ng/mL for HBsAg were achieved, which were comparable to commercial ELISA kits using specialized equipment. We envisage that this simple POC hybrid microplate can have broad applications in various bioassays, especially in resource-limited settings.

Published

2016

196. Paper-Based SERS Platform for One-Step Screening of Tetracycline in Milk

Author

Marques, Ana, Veigas, Bruno, Araújo, Andreia, Pagará, Beatriz, Baptista, Pedro Viana, Águas, Hugo, Martins, Rodrigo, and Fortunato, Elvira

Published

2019

197. Biomineralization Guided by Paper Templates.

Author

Camci-Unal G, Laromaine A, Hong E, Derda R, and Whitesides GM

Subjects

Animals, Calcium Phosphates metabolism, Cell Line, Cell Proliferation, Mice, Osteoblasts metabolism, Osteoblasts physiology, Calcification, Physiologic, Osteoblasts cytology, Paper, Tissue Engineering methods, Tissue Scaffolds chemistry

Abstract

This work demonstrates the fabrication of partially mineralized scaffolds fabricated in 3D shapes using paper by folding, and by supporting deposition of calcium phosphate by osteoblasts cultured in these scaffolds. This process generates centimeter-scale free-standing structures composed of paper supporting regions of calcium phosphate deposited by osteoblasts. This work is the first demonstration that paper can be used as a scaffold to induce template-guided mineralization by osteoblasts. Because paper has a porous structure, it allows transport of O2 and nutrients across its entire thickness. Paper supports a uniform distribution of cells upon seeding in hydrogel matrices, and allows growth, remodelling, and proliferation of cells. Scaffolds made of paper make it possible to construct 3D tissue models easily by tuning material properties such as thickness, porosity, and density of chemical functional groups. Paper offers a new approach to study mechanisms of biomineralization, and perhaps ultimately new techniques to guide or accelerate the repair of bone.

Published

2016

198. Fungal and bacterial species richness in biodeteriorated seventeenth century Venetian manuscripts.

Author

Stratigaki, Maria, Armirotti, Andrea, Ottonello, Giuliana, Manente, Sabrina, and Traviglia, Arianna

Subjects

ASPERGILLUS, SEVENTEENTH century, SPECIES diversity, ASPERGILLUS fumigatus, HISTORICAL source material, FLUORESCENCE microscopy

Abstract

Historical paper documents are susceptible to complex degradation processes, including biodeterioration, which can progressively compromise their aesthetic and structural integrity. This study analyses seventeenth century handwritten historical letters stored at the Correr Museum Library in Venice, Italy, exhibiting pronounced signs of biodeterioration. The techniques used encompassed traditional colony isolation on agar plates and proteomics analyses, employing nanoscale liquid chromatography coupled with high-resolution mass spectrometry (nano-LC–MS). Fluorescence microscopy was used for the first time in the historical paper biodeterioration context to supplement the conventional stereoscopic, optical, and scanning electron microscopic imaging techniques. This method enables the visualisation of microorganisms beyond and beneath the paper's surface through their natural intrinsic autofluorescence in a non-invasive and non-destructive way. The results demonstrate a diverse, complex, and abundant microbiota composed of coexisting fungal and bacterial species (Ascomycota, Mucoromycota, Basidiomycota, Proteobacteria, and Actinobacteria), along with mite carcasses, insects, parasites, and possibly protists. Furthermore, this study reveals certain species that were not previously documented in the biodeterioration of historical paper, including human pathogens, such as Histoplasma capsulatum, Brucella, Candida albicans, and species of Aspergillus (A. flavus, A. fumigatus, A. oryzae, A. terreus, A. niger) known to cause infections or produce mycotoxins, posing substantial risk to both artefacts and humans. [ABSTRACT FROM AUTHOR]

Published

2024

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

Author

Elsenety MM, Mohamed MBI, Sultan ME, and Elsayed BA

Subjects

Algorithms, Machine Learning, Hydrogen-Ion Concentration, Smartphone, Mobile Applications

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., (© 2022. The Author(s).)

Published

2022

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

Author

Kim SC and Byun H

Subjects

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

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., (© 2022. The Author(s).)

Published

2022