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M. Roberts, S. Mannsfeld, N. Queraltó, C. Reese, J. Locklin, W. Knoll, Z. Bao (2008)
Water-stable organic transistors and their application in chemical and biological sensorsProceedings of the National Academy of Sciences, 105
G. Kushto, Woohong Kim, Z. Kafafi (2005)
Flexible organic photovoltaics using conducting polymer electrodesApplied Physics Letters, 86
Yadong Wang, Yu Kim, R. Langer (2003)
In vivo degradation characteristics of poly(glycerol sebacate).Journal of biomedical materials research. Part A, 66 1
E. Fortunato, N. Correia, P. Barquinha, Luís Pereira, G. Gonçalves, R. Martins (2008)
High-Performance Flexible Hybrid Field-Effect Transistors Based on Cellulose Fiber PaperIEEE Electron Device Letters, 29
J. Oh, Shuhong Liu, Zhenan Bao, Rüdiger Schmidt, F. Würthner (2007)
Air-stable n-channel organic thin-film transistors with high field-effect mobility based on N,N′-bis(heptafluorobutyl)-3,4:9,10-perylene diimideApplied Physics Letters, 91
A. Napolitano, A. Pezzella, M. Vincensi, G. Prota (1995)
Oxidative degradation of melanins to pyrrole acids: A model studyTetrahedron, 51
A. Briseno, R. Tseng, M. Ling, E. Falcão, Yang Yang, F. Wudl, Zhenan Bao (2006)
High‐Performance Organic Single‐Crystal Transistors on Flexible SubstratesAdvanced Materials, 18
M. Roberts, S. Mannsfeld, R. Stoltenberg, Zhenan Bao (2009)
Flexible, plastic transistor-based chemical sensorsOrganic Electronics, 10
E. Edelman, P. Seifert, Adam Groothuis, Alisa Morss, Danielle Bornstein, C. Rogers (2001)
Gold-Coated NIR Stents in Porcine Coronary ArteriesCirculation: Journal of the American Heart Association, 103
C. Bettinger, Joost Bruggeman, Asish Misra, J. Borenstein, R. Langer (2009)
Biocompatibility of biodegradable semiconducting melanin films for nerve tissue engineering.Biomaterials, 30 17
P. Stadler, Kerstin Oppelt, T. Singh, J. Grote, R. Schwödiauer, S. Bauer, Heidi Piglmayer-Brezina, D. Bäuerle, N. Sariciftci (2007)
Organic field-effect transistors and memory elements using deoxyribonucleic acid (DNA) gate dielectricOrganic Electronics, 8
J. McGinness, P. Corry, P. Proctor (1974)
Amorphous Semiconductor Switching in MelaninsScience, 183
C. Bettinger, Joost Bruggeman, J. Borenstein, R. Langer (2008)
Amino alcohol-based degradable poly(ester amide) elastomers.Biomaterials, 29 15
Lichun Lu, C. Garcia, A. Mikos (1999)
In vitro degradation of thin poly(DL-lactic-co-glycolic acid) films.Journal of biomedical materials research, 46 2
Thokchom Singh, F. Meghdadi, S. Güneş, N. Marjanović, Gilles Horowitz, Philippe Lang, Siegfried Bauer, N. Sariciftci (2005)
High‐Performance Ambipolar Pentacene Organic Field‐Effect Transistors on Poly(vinyl alcohol) Organic Gate DielectricAdvanced Materials, 17
A. Massè, A. Bruno, M. Bosetti, A. Biasibetti, M. Cannas, P. Gallinaro (2000)
Prevention of pin track infection in external fixation with silver coated pins: clinical and microbiological results.Journal of biomedical materials research, 53 5
Dae-Hyeong Kim, Yun-Soung Kim, J. Amsden, B. Panilaitis, D. Kaplan, F. Omenetto, M. Zakin, J. Rogers (2009)
Silicon electronics on silk as a path to bioresorbable, implantable devices.Applied physics letters, 95 13
S. Ito (2003)
A Chemist's View of MelanogenesisPigment Cell Research, 16
Y. Jang, Do Kim, Y. Park, J. Cho, Minkyu Hwang, Kilwon Cho (2005)
Influence of the dielectric constant of a polyvinyl phenol insulator on the field-effect mobility of a pentacene-based thin-film transistorApplied Physics Letters, 87
Z. Bao, J. Locklin (2007)
Organic Field-Effect Transistors
R. Gross, B. Kalra (2002)
Biodegradable polymers for the environment.Science, 297 5582
M. Bosetti, A. Massè, E. Tobin, M. Cannas (2002)
Silver coated materials for external fixation devices: in vitro biocompatibility and genotoxicity.Biomaterials, 23 3
T. Someya, Y. Kato, T. Sekitani, S. Iba, Y. Noguchi, Y. Murase, H. Kawaguchi, T. Sakurai (2005)
Conformable, flexible, large-area networks of pressure and thermal sensors with organic transistor active matrixes.Proceedings of the National Academy of Sciences of the United States of America, 102 35
J. Rogers, Zhenan Bao, K. Baldwin, A. Dodabalapur, B. Crone, V. Raju, V. Kuck, H. Katz, K. Amundson, J. Ewing, P. Drzaic (2001)
Paper-like electronic displays: Large-area rubber-stamped plastic sheets of electronics and microencapsulated electrophoretic inksProceedings of the National Academy of Sciences of the United States of America, 98
David Martin, S. Williams (2003)
Medical applications of poly-4-hydroxybutyrate: a strong flexible absorbable biomaterialBiochemical Engineering Journal, 16
E. Chiellini, A. Corti, S. D'Antone, R. Solaro (2003)
Biodegradation of poly(vinyl alcohol) based materialsProgress in Polymer Science, 28
G. Voskerician, M. Shive, R. Shawgo, H. Recum, James Anderson, M. Cima, R. Langer (2003)
Biocompatibility and biofouling of MEMS drug delivery devices.Biomaterials, 24 11
J. Santini, M. Cima, R. Langer (1999)
A controlled-release microchipNature, 397
Lichun Lu, S. Peter, Michelle Lyman, H. Lai, Susan Leite, J. Tamada, S. Uyama, J. Vacanti, R. Langer, A. Mikos (2000)
In vitro and in vivo degradation of porous poly(DL-lactic-co-glycolic acid) foams.Biomaterials, 21 18
I. Paetau, C. Chen, J. Jane (1994)
Biodegradable plastic made from soybean products. II. Effects of cross-linking and cellulose incorporation on mechanical properties and water absorptionJournal of Environmental Polymer Degradation, 2
James Prescott, Sara Lipka, Samuel Baldwin, N. Sheppard, J. Maloney, J. Coppeta, B. Yomtov, M. Staples, J. Santini (2006)
Chronic, programmed polypeptide delivery from an implanted, multireservoir microchip deviceNature Biotechnology, 24
Yong‐Hoon Kim, D. Moon, J. Han (2004)
Organic TFT array on a paper substrateIEEE Electron Device Letters, 25
L. Ferreira, S. Gerecht, Jason Fuller, H. Shieh, G. Vunjak‐Novakovic, R. Langer (2007)
Bioactive hydrogel scaffolds for controllable vascular differentiation of human embryonic stem cells.Biomaterials, 28 17
Se Kim, SangYoon Yang, K. Shin, Hayoung Jeon, Jong Lee, K. Hong, Chan Park (2006)
Low-operating-voltage pentacene field-effect transistor with a high-dielectric-constant polymeric gate dielectricApplied Physics Letters, 89
M. Radisic, Hyoungshin Park, Helen Shing, T. Consi, F. Schoen, R. Langer, L. Freed, G. Vunjak‐Novakovic (2004)
Functional assembly of engineered myocardium by electrical stimulation of cardiac myocytes cultured on scaffoldsProceedings of the National Academy of Sciences of the United States of America, 101
J. Locklin, M. Ling, Andrew Sung, M. Roberts, Z. Bao (2006)
High‐Performance Organic Semiconductors Based on Fluorene–Phenylene Oligomers with High Ionization PotentialsAdvanced Materials, 18
H. Tamai, K. Igaki, E. Kyo, K. Kosuga, A. Kawashima, S. Matsui, H. Komori, T. Tsuji, S. Motohara, H. Uehata (2000)
Initial and 6-month results of biodegradable poly-l-lactic acid coronary stents in humans.Circulation, 102 4
J. Middleton, Arthur Tipton (2000)
Synthetic biodegradable polymers as orthopedic devices.Biomaterials, 21 23
Organic electronics and biodegradable materials have the potential to be integrated to create a new class of electronic devices for the use in biomedical and environmental applications. Organic thin‐film field‐effect transistors fabricated using a biodegradable material platform exhibit water stable performance and degrade in vitro.
Advanced Materials – Wiley
Published: Feb 2, 2010
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