E-mail a Wiley Online Library Link

Carolin Lau, Emily R. Adkins, Ramaraja P. Ramasamy, Heather R. Luckarift, Glenn R. Johnson and Plamen Atanassov Design of Carbon Nanotube-Based Gas-Diffusion Cathode for O2 Reduction by Multicopper Oxidases Advanced Energy Materials 2

Version of Record online: 15 DEC 2011 | DOI: 10.1002/aenm.201100433

Thumbnail image of graphical abstract

An enzymatic gas-diffusion cathode for oxygen reduction is shown. The carbon/teflon-based gas-diffusion layer provides oxygen though the ambient air phase. A multicopper oxidase is immobilized by tethered crosslinkers onto a multiwalled carbon nanotube-modified catalytic layer which allows the oxygen reduction reaction to take place at the three-phase interface between solid electrode, liquid electrolyte, and gaseous air.

Complete the form below and we will send an e-mail message containing a link to the selected article on your behalf

Required = Required Field