"Genetically Programming Interfaces between Active Materials, Conductive Pathway and Current Collector in Li-Ion Batteries" by Kang Xu

Article

Genetically Programming Interfaces between Active Materials, Conductive Pathway and Current Collector in Li-Ion Batteries

ECS Transactions (2012)

Kang Xu, U.S Army Research Laboratory
Dahyun Oh, Massachusetts Institute of Technology
Hyunjung Yi, Massachusetts Institute of Technology
Jifa Qi, Massachusetts Institute of Technology
Alice Xu, U.S Army Research Laboratory
James Snyder, U.S Army Research Laboratory
Angela Belcher, Massachusetts Institute of Technology

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Abstract

In this work we genetically programmed the M13 virus, so that the new clone expressed multifunctional coat protein sequences that selectively bind to designated surfaces and species. Using these new clones, composite network consisting of ironphosphate nanowire (a-FePO4) and single wall carbon nanotubes were self-assembled onto aluminum surfaces. Spectroscopic and electrochemical characterizations confirmed the 3D-structure as well as the electrochemical activity of such composite nanowires.

Disciplines

Biomedical Engineering and Bioengineering

Publication Date

2012

DOI

10.1149/1.4717963

Citation Information

Kang Xu, Dahyun Oh, Hyunjung Yi, Jifa Qi, et al.. "Genetically Programming Interfaces between Active Materials, Conductive Pathway and Current Collector in Li-Ion Batteries" ECS Transactions Vol. 41 Iss. 41 (2012) p. 55 - 64 ISSN: 1938-5862
Available at: http://works.bepress.com/dahyun-oh/8/