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Pernaut, Jean-Michel, Reynolds, John R. (2000) Use of Conducting Electroactive Polymers for Drug Delivery and Sensing of Bioactive Molecules. A Redox Chemistry Approach. The Journal of Physical Chemistry B, 104 (17). 4080-4090 doi:10.1021/jp994274o

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Reference TypeJournal (article/letter/editorial)
TitleUse of Conducting Electroactive Polymers for Drug Delivery and Sensing of Bioactive Molecules. A Redox Chemistry Approach
JournalThe Journal of Physical Chemistry B
AuthorsPernaut, Jean-MichelAuthor
Reynolds, John R.Author
Year2000 (May)Volume104
Issue17
PublisherAmerican Chemical Society (ACS)
DOIdoi:10.1021/jp994274oSearch in ResearchGate
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Mindat Ref. ID3852051Long-form Identifiermindat:1:5:3852051:0
GUID0
Full ReferencePernaut, Jean-Michel, Reynolds, John R. (2000) Use of Conducting Electroactive Polymers for Drug Delivery and Sensing of Bioactive Molecules. A Redox Chemistry Approach. The Journal of Physical Chemistry B, 104 (17). 4080-4090 doi:10.1021/jp994274o
Plain TextPernaut, Jean-Michel, Reynolds, John R. (2000) Use of Conducting Electroactive Polymers for Drug Delivery and Sensing of Bioactive Molecules. A Redox Chemistry Approach. The Journal of Physical Chemistry B, 104 (17). 4080-4090 doi:10.1021/jp994274o
In(2000, May) The Journal of Physical Chemistry B Vol. 104 (17) American Chemical Society (ACS)

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De Oliveira, Marcos A., Duarte, Hélio A., Pernaut, Jean-Michel, De Almeida, Wagner B. (2000) Energy Gaps of α,α‘-Substituted Oligothiophenes from Semiempirical, Ab Initio, and Density Functional Methods. The Journal of Physical Chemistry A, 104 (35). 8256-8262 doi:10.1021/jp001252p
Pyo, Myoungho, Reynolds, John R. (1995) Potential Dependent Dual Ion Transport of Conducting Polymer: Redox Polymer Bilayers. The Journal of Physical Chemistry, 99 (20). 8249-8254 doi:10.1021/j100020a057
Pernaut, Jean-Michel, Zong, Kyukwan, Reynolds, John R. (2002) Study of a new crown-ether derivatized polydioxypyrrole. Synthetic Metals, 130 (1). 1-8 doi:10.1016/s0379-6779(02)00047-4
Posadas, Dionisio, Florit, María I. (2004) The Redox Switching of Electroactive Polymers. The Journal of Physical Chemistry B, 108 (40). 15470-15476 doi:10.1021/jp049273x
Bruckenstein, Stanley, Hillman, A. Robert (1988) Consequences of thermodynamic restraints on solvent and ion transfer during redox switching of electroactive polymers. The Journal of Physical Chemistry, 92 (17). 4837-4839 doi:10.1021/j100328a008
Matencio, Tulio, Pernaut, Jean Michel, Vieil, Eric (2003) Analysis of hysteresis phenomenon as observed from voltammetric data of conducting polymers: part I. Journal of the Brazilian Chemical Society, 14. 90-96 doi:10.1590/s0103-50532003000100015
Österholm, Anna M., Ponder, James F., De Keersmaecker, Michel, Shen, D. Eric, Reynolds, John R. (2019) Disentangling Redox Properties and Capacitance in Solution-Processed Conjugated Polymers. Chemistry of Materials, 31. 2971-2982 doi:10.1021/acs.chemmater.9b00528
Zhao, Zhi-Jian, Wang, Qi, Zhang, Li, Liu, Ying-Chun (2007) A Different Diffusion Mechanism for Drug Molecules in Amorphous Polymers. The Journal of Physical Chemistry B, 111 (17). 4411-4416 doi:10.1021/jp0673718
Bruckenstein, Stanley, Hillman, A. Robert (1991) Solvent and salt transfer upon redox switching of electroactive polymers. The Journal of Physical Chemistry, 95 (26). 10748-10752 doi:10.1021/j100179a042
Otero, Toribio F., Sanchez, Juan J., Martinez, Jose G. (2012) Biomimetic Dual Sensing-Actuators Based on Conducting Polymers. Galvanostatic Theoretical Model for Actuators Sensing Temperature. The Journal of Physical Chemistry B, 116 (17). 5279-5290 doi:10.1021/jp300290s
Pyo, Myoungho, Reynolds, John R. (1996) Electrochemically Stimulated Adenosine 5‘-Triphosphate (ATP) Release through Redox Switching of Conducting Polypyrrole Films and Bilayers. Chemistry of Materials, 8. 128-133 doi:10.1021/cm950299y
 
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