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Liangbing Hu, J. Choi, Yuan Yang, Sangmoo Jeong, F. Mantia, Lifeng Cui, Yi Cui (2009)
Highly conductive paper for energy-storage devicesProceedings of the National Academy of Sciences, 106
Caizhi Liao, C. Mak, Meng Zhang, H. Chan, Feng Yan (2015)
Flexible Organic Electrochemical Transistors for Highly Selective Enzyme Biosensors and Used for Saliva TestingAdvanced Materials, 27
Yijie Xia, K. Sun, Jianyong Ouyang (2012)
Solution‐Processed Metallic Conducting Polymer Films as Transparent Electrode of Optoelectronic DevicesAdvanced Materials, 24
Saurabh Kumar, K. Jagadeesan, Amish Joshi, G. Sumana (2013)
Immuno-CoPS (conducting paper strips) for futuristic cost-effective cancer diagnosticsRSC Advances, 3
Hao Tang, Jinhua Chen, L. Nie, Y. Kuang, S. Yao (2007)
A label-free electrochemical immunoassay for carcinoembryonic antigen (CEA) based on gold nanoparticles (AuNPs) and nonconductive polymer film.Biosensors & bioelectronics, 22 6
A. Frenot, I. Chronakis (2003)
Polymer nanofibers assembled by electrospinningCurrent Opinion in Colloid and Interface Science, 8
Ke-Jing Huang, De-Jun Niu, W. Xie, Wei Wang (2010)
A disposable electrochemical immunosensor for carcinoembryonic antigen based on nano-Au/multi-walled carbon nanotubes-chitosans nanocomposite film modified glassy carbon electrode.Analytica chimica acta, 659 1-2
U. Lang, E. Müller, N. Naujoks, J. Dual (2009)
Microscopical Investigations of PEDOT:PSS Thin FilmsAdvanced Functional Materials, 19
Thu Nguyen, A. Fraiwan, Seokheun Choi (2014)
Paper-based batteries: a review.Biosensors & bioelectronics, 54
R. Martins, P. Barquinha, L. Pereira, N. Correia, G. Gonçalves, I. Ferreira, E. Fortunato (2008)
Write-erase and read paper memory transistorApplied Physics Letters, 93
Hongkwan Park, Sun Lee, Seyul Kim, H. Ryu, Seung Lee, H. Choi, I. Cheong, Jung-Hyun Kim (2013)
Conducting polymer nanofiber mats via combination of electrospinning and oxidative polymerizationPolymer, 54
Aaron Mazzeo, William Kalb, Lawrence Chan, Matthew Killian, J. Bloch, B. Mazzeo, G. Whitesides (2012)
Paper‐Based, Capacitive Touch PadsAdvanced Materials, 24
Nishuang Liu, G. Fang, Jiawei Wan, Hai Zhou, H. Long, Xingzhong Zhao (2011)
Electrospun PEDOT:PSS–PVA nanofiber based ultrahigh-strain sensors with controllable electrical conductivityJournal of Materials Chemistry, 21
Qian Cheng, Zeming Song, Teng Ma, Bethany Smith, R. Tang, Hongyu Yu, Hanqing Jiang, Candace Chan (2013)
Folding paper-based lithium-ion batteries for higher areal energy densities.Nano letters, 13 10
Saurabh Kumar, Suveen Kumar, S. Srivastava, B. Yadav, S. Lee, J. Sharma, D. Doval, B. Malhotra (2015)
Reduced graphene oxide modified smart conducting paper for cancer biosensor.Biosensors & bioelectronics, 73
E. Nery, L. Kubota (2013)
Sensing approaches on paper-based devices: a reviewAnalytical and Bioanalytical Chemistry, 405
M. Horikawa, Takanori Fujiki, Tomohiro Shirosaki, N. Ryu, H. Sakurai, S. Nagaoka, H. Ihara (2015)
The development of a highly conductive PEDOT system by doping with partially crystalline sulfated cellulose and its electric conductivityJournal of Materials Chemistry C, 3
K. Jagadeesan, Saurabh Kumar, G. Sumana (2012)
Application of conducting paper for selective detection of troponinElectrochemistry Communications, 20
Cloé Desmet, C. Marquette, L. Blum, B. Doumèche (2016)
Paper electrodes for bioelectrochemistry: Biosensors and biofuel cells.Biosensors & bioelectronics, 76
Shan Hu, R. Rajamani, Xun Yu (2012)
Flexible solid-state paper based carbon nanotube supercapacitorApplied Physics Letters, 100
Jiehua Lin, Wei Qu, Shusheng Zhang (2007)
Electrochemical Immunosensor for Carcinoembryonic Antigen Based on Antigen Immobilization in Gold Nanoparticles Modified Chitosan MembraneAnalytical Sciences, 23
B. Malhotra, Saurabh Kumar, C. Pandey (2016)
Nanomaterials based biosensors for cancer biomarker detectionJournal of Physics: Conference Series, 704
A. Määttänen, Ulriika Vanamo, P. Ihalainen, P. Pulkkinen, H. Tenhu, J. Bobacka, J. Peltonen (2013)
A low-cost paper-based inkjet-printed platform for electrochemical analysesSensors and Actuators B-chemical, 177
Saurabh Kumar, M. Willander, J. Sharma, B. Malhotra (2015)
A solution processed carbon nanotube modified conducting paper sensor for cancer detection.Journal of materials chemistry. B, 3 48
W. Hyun, O. Park, B. Chin (2013)
Foldable Graphene Electronic Circuits Based on Paper SubstratesAdvanced Materials, 25
Jessica Arter, D. Taggart, Theresa McIntire, R. Penner, G. Weiss (2010)
Virus-PEDOT nanowires for biosensing.Nano letters, 10 12
Hansen Hj, Snyder Jj, E. Miller, V. Jp, Miller On, Hines Lr, Burns Jj (1974)
Carcinoembryonic antigen (CEA) assay. A laboratory adjunct in the diagnosis and management of cancer.Human pathology, 5 2
Yongtang Jia, Jian Gong, Xiaohua Gu, Hark-Yong Kim, Jiong Dong, Xinyuan Shen (2007)
Fabrication and characterization of poly (vinyl alcohol)/chitosan blend nanofibers produced by electrospinning methodCarbohydrate Polymers, 67
S. Kirchmeyer, K. Reuter (2005)
Scientific importance, properties and growing applications of poly(3,4-ethylenedioxythiophene)Journal of Materials Chemistry, 15
A. Laforgue, L. Robitaille (2010)
Production of Conductive PEDOT Nanofibers by the Combination of Electrospinning and Vapor-Phase PolymerizationMacromolecules, 43
Lanlan Li, Yaqun Wang, Lijia Pan, Ye Shi, Wen Cheng, Yi Shi, Guihua Yu (2015)
A nanostructured conductive hydrogels-based biosensor platform for human metabolite detection.Nano letters, 15 2
Libing Wang, Wei Chen, Dinghua Xu, B. Shim, Yingyue Zhu, Fengxia Sun, Liqiang Liu, Chifang Peng, Zhengyu Jin, Chuanlai Xu, N. Kotov (2009)
Simple, rapid, sensitive, and versatile SWNT-paper sensor for environmental toxin detection competitive with ELISA.Nano letters, 9 12
V. Saxena, B. Malhotra (2003)
Prospects of conducting polymers in molecular electronicsCurrent Applied Physics, 3
The development of a flexible, label free, low‐cost, and environment friendly biosensor platform is reported for sensitive and rapid detection of cancer biomarker based on poly(3,4‐ethylenedioxythiophene):poly(4‐styrenesulfonate)/polyvinyl alcohol nanofiber decorated conducting paper. This conducting paper based biosensor demonstrates improved sensing performance with linear detection range of 0.2–25 ng mL−1, high sensitivity of 14.2 μA ng−1 mL cm−2, and shelf life of 22 days for a carcinoembryonic antigen (cancer biomarker) detection. This modified conducting paper electrode is a promising alternative over expensive conventional electrodes (indium tin oxide, gold, and glassy carbon) for fabrication of smart point of care devices.
Advanced Materials Technologies – Wiley
Published: Jul 1, 2016
Keywords: ; ; ;
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