Showing total 296,327 results

201. Amplified Spontaneous Emission in Paper

Author

Hoinka, N. M. and Fuhrmann-Lieker, T.

Published

2019

202. Fabricating Paper Based Devices Using Correction Pens

Author

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

Published

2019

203. Corona discharge plasma for green de-inking of inkjet printer ink

Author

Priyanti, Ika, Wongsawaeng, Doonyapong, Ngaosuwan, Kanokwan, Kiatkittipong, Worapon, Hosemann, Peter, and Assabumrungrat, Suttichai

Published

2024

204. 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

205. 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

206. Crack growth and energy dissipation in paper

Author

Hanifpour, Maryam, Mäkinen, Tero, Koivisto, Juha, Ovaska, Markus, and Alava, Mikko J.

Published

2018

207. 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

208. Office paper platform for bioelectrochromic detection of electrochemically active bacteria using tungsten trioxide nanoprobes.

Author

Marques AC, Santos L, Costa MN, Dantas JM, Duarte P, Gonçalves A, Martins R, Salgueiro CA, and Fortunato E

Subjects

Hydrogen-Ion Concentration, Metal Nanoparticles ultrastructure, Microwaves, Colorimetry, Geobacter isolation & purification, Metal Nanoparticles chemistry, Oxides chemistry, Paper, Tungsten chemistry

Abstract

Electrochemically active bacteria (EAB) have the capability to transfer electrons to cell exterior, a feature that is currently explored for important applications in bioremediation and biotechnology fields. However, the number of isolated and characterized EAB species is still very limited regarding their abundance in nature. Colorimetric detection has emerged recently as an attractive mean for fast identification and characterization of analytes based on the use of electrochromic materials. In this work, WO3 nanoparticles were synthesized by microwave assisted hydrothermal synthesis and used to impregnate non-treated regular office paper substrates. This allowed the production of a paper-based colorimetric sensor able to detect EAB in a simple, rapid, reliable, inexpensive and eco-friendly method. The developed platform was then tested with Geobacter sulfurreducens, as a proof of concept. G. sulfurreducens cells were detected at latent phase with an RGB ratio of 1.10 ± 0.04, and a response time of two hours.

Published

2015

209. 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

210. 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

211. Paper-Based Supercapacitive Mechanical Sensors

Author

Zhang, Ye, Sezen, Serdar, Ahmadi, Mahdi, Cheng, Xiang, and Rajamani, Rajesh

Published

2018

212. Simpler, Faster, and Sensitive Zika Virus Assay Using Smartphone Detection of Loop-mediated Isothermal Amplification on Paper Microfluidic Chips

Author

Kaarj, Kattika, Akarapipad, Patarajarin, and Yoon, Jeong-Yeol

Published

2018

213. Heterogeneous network promotes species coexistence: metapopulation model for rock-paper-scissors game

Author

Takashi Nagatani, Genki Ichinose, and Kei-ichi Tainaka

Subjects

Medicine, Science

Abstract

Abstract Understanding mechanisms of biodiversity has been a central question in ecology. The coexistence of three species in rock-paper-scissors (RPS) systems are discussed by many authors; however, the relation between coexistence and network structure is rarely discussed. Here we present a metapopulation model for RPS game. The total population is assumed to consist of three subpopulations (nodes). Each individual migrates by random walk; the destination of migration is randomly determined. From reaction-migration equations, we obtain the population dynamics. It is found that the dynamic highly depends on network structures. When a network is homogeneous, the dynamics are neutrally stable: each node has a periodic solution, and the oscillations synchronize in all nodes. However, when a network is heterogeneous, the dynamics approach stable focus and all nodes reach equilibriums with different densities. Hence, the heterogeneity of the network promotes biodiversity.

Published

2018

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

Author

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

Published

2023

215. Degradation of paper products due to volatile organic compounds

Author

Alam, Izhar, primary and Sharma, Chhaya, additional

Published

2023

216. Negative magnetostrictive paper formed by dispersing CoFe2O4 particles in cellulose nanofibrils

Author

Keino, Takumi, primary, Rova, Lovisa, additional, Gallet--Pandellé, Alia, additional, Kurita, Hiroki, additional, and Narita, Fumio, additional

Published

2023

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

Author

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

Published

2023

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

Author

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

Published

2023

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

Author

Obayashi, Nana, primary, Junge, Kai, additional, Ilić, Stefan, additional, and Hughes, Josie, additional

Published

2023

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

Author

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

Subjects

BETA lactam antibiotics, BIOSENSORS, AFLATOXINS, ANTIBIOTIC residues, RAW milk, OXACILLIN, MILK, DAIRY farms

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. [ABSTRACT FROM AUTHOR]

Published

2022

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

Author

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

Subjects

*POLYVINYL alcohol, *NATURAL dyes & dyeing, *FOURIER transform infrared spectroscopy, *ATOMIC force microscopes, *NANOCOMPOSITE materials, *TRANSMISSION electron microscopes, *SCANNING electron microscopes

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. [ABSTRACT FROM AUTHOR]

Published

2022

222. Non-Hermitian topology in rock–paper–scissors games.

Author

Yoshida, Tsuneya, Mizoguchi, Tomonari, and Hatsugai, Yasuhiro

Subjects

*TOPOLOGY, *SKIN effect, *TOPOLOGICAL property, *CONDENSED matter, *GAME theory

Abstract

Non-Hermitian topology is a recent hot topic in condensed matters. In this paper, we propose a novel platform drawing interdisciplinary attention: rock–paper–scissors (RPS) cycles described by the evolutionary game theory. Specifically, we demonstrate the emergence of an exceptional point and a skin effect by analyzing topological properties of their payoff matrix. Furthermore, we discover striking dynamical properties in an RPS chain: the directive propagation of the population density in the bulk and the enhancement of the population density only around the right edge. Our results open new avenues of the non-Hermitian topology and the evolutionary game theory. [ABSTRACT FROM AUTHOR]

Published

2022

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

Author

Maity, Avisek and Ghosh, Barnali

Published

2018

224. Fire-induced structural changes and long-term stability of burned historical rag papers

Author

Ahn, Kyujin, Schedl, Andreas, Zweckmair, Thomas, Rosenau, Thomas, and Potthast, Antje

Published

2018

225. Nitrogen-doped carbon paper with 3D porous structure as a flexible free-standing anode for lithium-ion batteries

Author

Hua Zhang, Juntan Yang, Haoqing Hou, Shuiliang Chen, and Haimin Yao

Subjects

Medicine, Science

Abstract

Abstract In this paper, a novel nitrogen-doped carbon paper (NCP) with both highly dense three-dimensional cellular structure and excellent bending flexibility is fabricated by pyrolyzing a melamine foam under compression. When serving as a free-standing anode for lithium-ion batteries, the NCP electrode delivers a reversible capacity up to 329.8 mA h g−1 after 200 cycles at 0.5 A g−1 (1.34 C) and 126.5 mA h g−1 after 500 cycles at 8.0 A g−1 (21.5 C). Such electrochemical performance is much higher than those of the counterparts prepared by pyrolysis without compression and can be mainly attributed to (a) the 3D highly dense interconnected carbon network with numerous junctions which can facilitate the efficient electron transfer and provide short transportation paths for lithium ions; and (b) the excellent mechanical flexibility and self-standing capability which exempt the use of binder, conductive additive and current collector. The NCP electrode implies a great promise of application in the high-performance Li-ion batteries for the flexible and wearable electronics.

Published

2017

226. Freestanding and flexible graphene papers as bioelectrochemical cathode for selective and efficient CO2 conversion

Author

Nabin Aryal, Arnab Halder, Minwei Zhang, Patrick R. Whelan, Pier-Luc Tremblay, Qijin Chi, and Tian Zhang

Subjects

Medicine, Science

Abstract

Abstract During microbial electrosynthesis (MES) driven CO2 reduction, cathode plays a vital role by donating electrons to microbe. Here, we exploited the advantage of reduced graphene oxide (RGO) paper as novel cathode material to enhance electron transfer between the cathode and microbe, which in turn facilitated CO2 reduction. The acetate production rate of Sporomusa ovata-driven MES reactors was 168.5 ± 22.4 mmol m−2 d−1 with RGO paper cathodes poised at −690 mV versus standard hydrogen electrode. This rate was approximately 8 fold faster than for carbon paper electrodes of the same dimension. The current density with RGO paper cathodes of 2580 ± 540 mA m−2 was increased 7 fold compared to carbon paper cathodes. This also corresponded to a better cathodic current response on their cyclic voltammetric curves. The coulombic efficiency for the electrons conversion into acetate was 90.7 ± 9.3% with RGO paper cathodes and 83.8 ± 4.2% with carbon paper cathodes, respectively. Furthermore, more intensive cell attachment was observed on RGO paper electrodes than on carbon paper electrodes with confocal laser scanning microscopy and scanning electron microscopy. These results highlight the potential of RGO paper as a promising cathode for MES from CO2.

Published

2017

227. Vertical Paper Analytical Devices Fabricated Using the Principles of Quilling and Kirigami

Author

Bingbing Gao, Junjie Chi, Hong Liu, and Zhongze Gu

Subjects

Medicine, Science

Abstract

Abstract Here we report the vertical paper analytical devices (vPADs) fabricated using the principles of quilling and kirigami. What differentiates the vPADs from conventional paper microfluidic devices is that the paper substrate used to fabricate the device is placed vertically to the device plane. The fabrication of vPADs with high precision is instrument-free, requiring no photolithography, printing or heating. Two- and three-dimensional vPADs are fabricated for multiplex colorimetric assays of four biochemical indicators and automated enzyme-linked immunosorbent assay of human myoglobin, respectively.

Published

2017

228. Electrochemical removal of stains from paper cultural relics based on the electrode system of conductive composite hydrogel and PbO2

Author

Xingtang Liang, Lizhen Zheng, Shirong Li, Xiaoyu Fan, Shukun Shen, and Daodao Hu

Subjects

Medicine, Science

Abstract

Abstract Constructing methods for cleaning stains on paper artworks that meet the requirements of preservation of cultural relics are still challenging. In response to this problem, a novel electrochemical cleaning method and the preparation of corresponding electrodes were proposed. For this purpose, the conductive graphene (rGO)/polyacryamide (PAM)/montmorillonite (MMT) composite hydrogel as cathode and PbO2-based material as anode were prepared and characterized. The electrochemical cleaning efficiencies of real sample and mimicking paper artifacts were evaluated, and the effects of the electrochemical cleaning on paper itself were detected. Based on the above experiments, the following results were obtained. The composite hydrogel with attractive mechanical properties is mainly based on the hydrogen bond interactions between PAM chains and MMT. The results of cleaning efficiency revealed that the black mildew stains together with the yellowish foxing stains were almost completely eliminated within 6 min at 8 mA/cm2, and various stains formed by tideline, foxing, organic dyes and drinks could be thoroughly removed at 4 mA/cm2 within 5 min. In addition, the proposed cleaning method has advantages in local selectivity, easy control of cleaning course, and reusability, which represents a potential utility of this approach.

Published

2017

229. Rapid ILs-polishing Processes Toward Flexible Nanostructured Paper with Dually High Transparency and Haze

Author

Yanghao Ou, Jinbo Chen, Pengbo Lu, Fan Cheng, Meiyan Lin, Lingfeng Su, Jun Li, and Detao Liu

Subjects

Medicine, Science

Abstract

Abstract Biodegradable highly nanostructured paper has received great interest in past years due to its excellent optical properties which facilitate its wide applications in green flexible electronics and devices. However, energy and/or time-consuming procedure during the process of fabricating most nanostructured transparent paper are presently the main obstacle to their scalable production. In this work, we demonstrated a novel nanostructured paper with dually high transparency (∼91%) and high haze (∼89%) that was directly fabricated from original paper with rapid ILs-polishing processes. The whole fabricating time only requires 10 min. Compared to the previously reported nanopaper made of the isolated cellulose nanofibers by pure mechanical and/or chemical approaches, this work presented herein is devoted to use green ILs to polish directly the micrometer-sized fibrous paper into the nanostructured paper. This new method brings a rapid fabrication of transparent nanostructured paper while also retaining dual intriguing properties both in optical transmittance and haze. This work is capable of fabricating next-generation flexible and highly transparent and haze paper by a high-speed roll-to-roll manufacturing process with a much lower cost.

Published

2017

230. Antibacterial cellulose paper made with silver-coated gold nanoparticles

Author

Tsung-Ting Tsai, Tse-Hao Huang, Chih-Jung Chang, Natalie Yi-Ju Ho, Yu-Ting Tseng, and Chien-Fu Chen

Subjects

Medicine, Science

Abstract

Abstract In this study, we investigated the antibacterial activity of silver-coated gold nanoparticles (Au-Ag NPs) immobilized on cellulose paper. Ag NPs are known to have strong antibacterial properties, while Au NPs are biocompatible and relatively simple to prepare. We made the Au-Ag NPs using a facile process called Ag enhancement, in which Au NPs serve as the nuclei for precipitation of a Ag coating, the thickness of which can be easily controlled by varying the ratio of the reactants. After synthesis, electron microscopy showed that the Au-Ag NPs displayed a core-shell structure, and that they could be successfully immobilized onto a cellulose membrane by heat treatment. We then investigated the antibacterial properties of this NP-coated cellulose paper against E. coli JM109. The inhibition rate, growth curve, and AATCC 100 activity test showed that cellulose paper coated with 15 nm Au-Ag NPs possessed excellent antibacterial activity against E. coli JM109. These results suggest that Au-Ag NPs immobilized on cellulose paper could be a valuable antibacterial technology for applications such as food packaging, clothing, wound dressings, and other personal care products.

Published

2017

231. High-throughput rapid-prototyping of low-cost paper-based microfluidics

Author

Fariba Ghaderinezhad, Reza Amin, Mikail Temirel, Bekir Yenilmez, Adam Wentworth, and Savas Tasoglu

Subjects

Medicine, Science

Abstract

Abstract Paper-based micro analytical devices offer significant advantages compared to the conventional microfluidic chips including cost-effectiveness, ease of fabrication, and ease of use while preserving critical features including strong capillary action and biological compatibility. In this work, we demonstrate an inexpensive, rapid method for high-throughput fabrication of paper-based microfluidics by patterning hydrophobic barriers using a desktop pen plotter integrated with a custom-made, low-cost paper feeder. We tested various types of commercial permanent markers and compared their water-resistant capabilities for creating hydrophobic barriers. Additionally, we studied the performance of markers with different types of paper, plotting speeds, and pattern dimensions. To verify the effectiveness of the presented fabrication method, colorimetric analysis was performed on the results of a glucose assay.

Published

2017

232. Synthesis of porous polymer/tissue paper hybrid membranes for switchable oil/water separation

Author

Cong-Xiao Cao, Jiayin Yuan, Jin-Pei Cheng, and Bao-Hang Han

Subjects

Medicine, Science

Abstract

Abstract The unusually broad physical and chemical property window of ionic liquids allows for a wide range of applications, which gives rise to the recent spring-up of ionic liquid-based functional materials. Via solvothermal copolymerization of a monomeric ionic liquid and divinylbenzene in the presence of a tissue paper in autoclave, we fabricated a flexible porous polymer/paper hybrid membrane. The surface areas of the hybrid membranes depend on the weight fraction of the copolymer impregnated inside the tissue paper. The as-prepared hybrid membrane shows controlled surface wettability in terms of ethanol wetting and ethanol removal by harsh drying condition. This unique property provides the hybrid membrane with switchable oil/water separation function, thus of practical values for real life application.

Published

2017

233. Paper-based RNA detection and multiplexed analysis for Ebola virus diagnostics

Author

Laura Magro, Béatrice Jacquelin, Camille Escadafal, Pierre Garneret, Aurélia Kwasiborski, Jean-Claude Manuguerra, Fabrice Monti, Anavaj Sakuntabhai, Jessica Vanhomwegen, Pierre Lafaye, and Patrick Tabeling

Subjects

Medicine, Science

Abstract

Abstract The most performing techniques enabling early diagnosis of infectious diseases rely on nucleic acid detection. Today, because of their high technicality and cost, nucleic acid amplification tests (NAAT) are of benefit only to a small fraction of developing countries population. By reducing costs, simplifying procedures and enabling multiplexing, paper microfluidics has the potential to considerably facilitate their accessibility. However, most of the studies performed in this area have not quit the lab. This letter brings NAAT on paper closer to the field, by using clinical samples and operating in a resource-limited setting. We first performed isothermal reverse transcription and Recombinase Polymerase Amplification (RT-RPA) of synthetic Ribonucleic Acid (RNA) of Ebola virus using paper microfluidics devices. We further applied this method in Guinea to detect the presence of Ebola virus in human sample RNA extracts, with minimal facilities (carry-on detection device and freeze-dried reagents on paper). RT-RPA results were available in few minutes and demonstrate a sensitivity of 90.0% compared to the gold-standard RT-PCR on a set of 43 patient samples. Furthermore, the realization of a nine-spot multilayered device achieving the parallel detection of three distinct RNA sequences opens a route toward the detection of multiple viral strains or pathogens.

Published

2017

234. Office paper decorated with silver nanostars - an alternative cost effective platform for trace analyte detection by SERS

Author

Maria João Oliveira, Pedro Quaresma, Miguel Peixoto de Almeida, Andreia Araújo, Eulália Pereira, Elvira Fortunato, Rodrigo Martins, Ricardo Franco, and Hugo Águas

Subjects

Medicine, Science

Abstract

Abstract For analytical applications in portable sensors to be used in the point-of-need, low-cost SERS substrates using paper as a base, are an alternative. In this work, SERS substrates were produced on two different types of paper: a high porosity paper (Whatman no. 1); and a low porosity paper (commercially available office paper, Portucel Soporcel). Solutions containing spherical silver nanoparticles (AgNPs) and silver nanostars (AgNSs) were separately drop-casted on hydrophilic wells patterned on the papers. The porosity of the paper was found to play a determinant role on the AgNP and AgNS distribution along the paper fibres, with most of the nanoparticles being retained at the illuminated surface of the office paper substrate. The highest SERS enhancements were obtained for the office paper substrate, with deposited AgNSs. A limit of detection for rhodamine-6G as low as 11.4 ± 0.2 pg could be achieved, with an analytical enhancement factor of ≈107 for this specific analyte. The well patterning technique allowed good signal uniformity (RSD of 1.7%). Besides, these SERS substrates remained stable after 5 weeks of storage (RSD of 7.3%). Paper-induced aggregation of AgNPs was found to be a viable alternative to the classical salt-induced aggregation, to obtain a highly sensitive SERS substrates.

Published

2017

235. Paper strip-embedded graphene quantum dots: a screening device with a smartphone readout

Author

Ruslan Álvarez-Diduk, Jahir Orozco, and Arben Merkoçi

Subjects

Medicine, Science

Abstract

Abstract Simple, inexpensive and rapid sensing systems are very demanded for a myriad of uses. Intrinsic properties of emerging paper-based analytical devices have demonstrated considerable potential to fulfill such demand. This work reports an easy-to-use, low cost, and disposable paper-based sensing device for rapid chemical screening with a smartphone readout. The device comprises luminescent graphene quantum dots (GQDs) sensing probes embedded into a nitrocellulose matrix where the resonance energy transfer phenomenon seems to be the sensing mechanism. The GQDs probes were synthesized from citric acid by a pyrolysis procedure, further physisorbed and confined into small wax-traced spots on the nitrocellulose substrate. The GQDs were excited by an UV LED, this, is powered by a smartphone used as both; energy source and imaging capture. The LED was contained within a 3D-printed dark chamber that isolates the paper platform from external light fluctuations leading to highly reproducible data. The cellulose-based device was proven as a promising screening tool for phenols and polyphenols in environmental and food samples, respectively. It opens up new opportunities for simple and fast screening of organic compounds and offers numerous possibilities for versatile applications. It can be especially useful in remote settings where sophisticated instrumentation is not always available.

Published

2017

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

Author

Trinh Lam, Jasmine P. Devadhasan, Ryan Howse, and Jungkyu Kim

Subjects

Medicine, Science

Abstract

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

237. Influences of surface treatments with abrasive paper and sand-blasting on surface morphology, hydrophilicity, mineralization and osteoblasts behaviors of n-CS/PK composite

Author

Xiaoming Tang, Kai Huang, Jian Dai, Zhaoying Wu, Liang Cai, Lili Yang, Jie Wei, and Hailang Sun

Subjects

Medicine, Science

Abstract

Abstract The surfaces of nano-calcium silicate (n-CS)/polyetheretherketone (PK) composites were treated with abrasive paper and sand-blasting, and the surfaces performances of the as-treated composites were studied. The results showed that the surface roughness, hydrophilicity and mineralization of the simulated body fluid (SBF) of the composites surfaces were significantly improved, and the properties of the composites treated by with sand-blasting were better than those treated with abrasive paper. Moreover, the treated composites significantly promoted osteoblasts responses, such as cell attachment, spreading, proliferation and alkaline phosphatase (ALP) activity, compared to un-treated composites, and the cellular responses to the composites treated with sand-blasting were better than those treated with abrasive paper. The results suggested that surface treatment with sand-blasting was an effective method to greatly improve the surface bioperformances of the n-CS/PK composite, and this treated composite with improved bioactivity and cytocompatibility might be a promising implant material for orthopedic applications.

Published

2017

238. Mid-career pitfall of consecutive success in science.

Author

Higashide, Noriyuki, Miura, Takahiro, Tomokiyo, Yuta, Asatani, Kimitaka, and Sakata, Ichiro

Abstract

The creativity of scientists often manifests as localized hot streaks of significant success. Understanding the underlying mechanisms of these influential phases can enhance the effectiveness of support systems and funding allocation, fostering groundbreaking discoveries worthy of accolades. Historically, analyses have suggested that hot streaks occur randomly over time. However, our research, through meticulous examination, reveals that these phases are not flatly distributed but are more frequent at the early and late stages of scientists' careers. Notably, both early and late hot streaks are marked by dense tie collaborations, with the former typically involving close partnerships with particular authors and the latter being characterized by involvement in large-scale projects compared with single-top or ordinary papers. This pattern indicates that mid-career researchers lack both intimate relations and resources to keep big projects, leading to "mid-career pitfall" of consecutive success. This insight holds profound implications for the development of policies and initiatives aimed at bolstering innovative research and discovery. [ABSTRACT FROM AUTHOR]

Published

2024

239. 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

240. 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

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

Author

Srikhao N, Ounkaew A, Kasemsiri P, Theerakulpisut S, Okhawilai M, and Hiziroglu S

Subjects

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

Abstract

Hydrogen peroxide (H 2 O 2 ) has attracted considerable attention for use as a disinfectant ingredient for various applications over the decades. The use of H 2 O 2 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 H 2 O 2 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 (AgNO 3 ) 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 AgNO 3 (P-AgNPs-100) and 15 h synthesis time. The P-AgNPs-100 sensor exhibited high sensitivity with a detection limit of 1.26 mM H 2 O 2 , which might be suitable for the detection of H 2 O 2 -based household and beverage sanitizers. The H 2 O 2 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., (© 2022. The Author(s).)

Published

2022

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

Author

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

Subjects

Luminescence, Fluorides chemistry, Nanoparticles chemistry, Lanthanoid Series Elements chemistry

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 NaErF 4 :Tm 3+ @NaYF 4 core@shell up-converting nanoparticles combined with transparent varnishes. Given the spectroscopic properties of Er 3+ ions present in the fluoride matrix, the obtained up-converting nanoparticles absorb light by 808 and 975 nm wavelengths. The intentionally co-doped Tm 3+ ions enable tuning characteristic green Er 3+ 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 NaErF 4 :Tm 3+ @NaYF 4 NPs can be given to the transparent varnish, providing an excellent anti-counterfeiting system, revealing red emission under two different excitation wavelengths., (© 2022. The Author(s).)

Published

2022

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

Author

Zoghi S and Rahmandoust M

Subjects

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

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 Hg 2+ 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., (© 2022. The Author(s).)

Published

2022

244. Indigenous bacteria as an alternative for promoting recycled paper and cardboard mill wastewater treatment.

Author

Gholami M, Ghaneian MT, Teimouri F, Ehrampoush MH, Nadoushan AJ, Jambarsang S, and Mahvi AH

Subjects

Bacteria, Biodegradation, Environmental, Klebsiella pneumoniae genetics, RNA, Ribosomal, 16S genetics, Recycling, Wastewater, Water Purification

Abstract

The present study aimed to investigate indigenous bacteria possibility in recycled paper and cardboard mill (RPCM) wastewater treatment through the isolation and identification of full-scale RPCM indigenous bacteria. The molecular characterization of the isolated bacteria was performed by 16S rRNA gene sequencing. Klebsiella pneumoniae AT-1 (MZ599583), Citrobacter freundii AT-4 (OK178569), and Bacillus subtilis AT-5 (MZ323975) were dominant strains used for RPCM wastewater bioremediation experiments. Under optimal conditions, the maximum values of chemical oxygen demand (COD) and color biodegradation by C. freundii AT-4 were 79.54% and 43.81% after 10 days of incubation, respectively. In the case of B. subtilis strain AT-5 and K. pneumoniae AT-1, the maximum values of COD and color biodegradation were 70.08%, 45.96%, 71.26%, and 32.06%, respectively. The results from optimal conditions regarding efficiency were higher in comparison with the efficiency obtained from the oxidation ditch treatment unit in full-scale RPCM-WWTP. Therefore, the present study introduces the isolated indigenous bacteria strains as a promising candidate for improving the RPCM-WWTP efficiency using bioremediation., (© 2022. The Author(s).)

Published

2022

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

Author

Huang S, Wang X, Zhang Y, Meng Y, Hua F, and Xia X

Subjects

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

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/m 2 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/m 2 to 18.37 ± 0.63 g/m 2 , 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/m 2 , the grease resistance grade of the paper was 12, the Cobb value was 21.80 ± 0.39 g/m 2 , 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., (© 2022. The Author(s).)

Published

2022

246. Uranium (VI) detection in groundwater using a gold nanoparticle/paper-based lateral flow device

Author

Quesada-González, Daniel, Jairo, Grace A., Blake, II, Robert C., Blake, Diane A., and Merkoçi, Arben

Published

2018

247. Selective laser sintering of inkjet-printed silver nanoparticle inks on paper substrates to achieve highly conductive patterns

Author

Balliu, Enkeleda, Andersson, Henrik, Engholm, Magnus, Öhlund, Thomas, Nilsson, Hans-Erik, and Olin, Håkan

Published

2018

248. 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

249. Trehalose significantly enhances the recovery of serum and serum exosomal miRNA from a paper-based matrix

Author

Shu Hui Neo, Ka Yan Chung, Jia Min Quek, and Heng-Phon Too

Subjects

Medicine, Science

Abstract

Abstract The preservation of nucleic acids from clinical samples is critical to facilitate accurate molecular diagnosis. The use of a paper matrix, Flinders Technology Associates (FTA) Elute cards, to archive DNA and viral RNA is well-documented. However, the feasibility of FTA Elute cards for archiving serum and serum exosomal microRNAs (miRNAs) remains unclear. Here, we performed a comprehensive evaluation of FTA Elute cards for miRNA storage and recovery in different pre-analytical conditions. The recovery of serum miRNA dry-spotted on FTA Elute cards by direct elution with water at high temperature was poor. However, serum miRNAs dry-spotted on the cards were isolated with about 40% yield when using QIAzol lysis reagent and recovery was improved remarkably (>80%) upon extraction from cards pre-treated with trehalose. miRNAs stored on the cards remained stable at room temperature and can be kept for prolonged periods. Furthermore, miRNAs could be similarly recovered from serum exosomes dry-spotted on the cards. Importantly, when using sera from gastric cancer (GC) patients, the miRNAs were efficiently recovered from trehalose pre-treated cards without affecting their representation. Collectively, we have demonstrated the potential of FTA Elute cards to archive serum and serum exosomal miRNAs, making it useful for biomarker discovery and diagnostics.

Published

2017

250. In-situ Electrodeposition of Highly Active Silver Catalyst on Carbon Fiber Papers as Binder Free Cathodes for Aluminum-air Battery

Author

Qingshui Hong and Huimin Lu

Subjects

Medicine, Science

Abstract

Abstract Carbon fiber papers supported Ag catalysts (Ag/CFP) with different coverage of electro-active site are prepared by electrochemical deposition and used as binder free cathodes in primary aluminum-air (Al-air) battery. Scanning Electron Microscopy and X-ray Diffraction studies are carried out to characterize the as-prepared Ag/CFP air cathodes. Oxygen reduction reaction (ORR) activities on these air cathodes in alkaline solutions are systematic studied. A newly designed aluminum-air cell is used to further determine the cathodes performance under real operation condition and during the test, the Ag/CFP electrodes show outstanding catalytic activity for ORR in concentrated alkaline electrolyte, and no obvious activity degradation is observed after long-time discharge. The electrochemical test results display the dependence of coverage of the electro-active Ag on the catalytic performance of the air cathodes. The resulting primary Al-air battery made from the best-performing cathode shows an impressive discharge peak power density, outperforming that of using commercial nano-manganese catalyst air electrodes.

Published

2017