Page 54

Notes:

conferenceseries

.com

Volume 7

Biosensors Journal

ISSN: 2090-4967

Electrochemistry 2018

June 11-12, 2018

June 11-12, 2018 | Rome, Italy

4

th

International Conference on

Electrochemistry

Recent Publications

1.

Abidat I, Bouchenafa Saib N, Habrioux A, Comminges C, Canaff C, Rousseau J, Napporn T, Dambournet D, Borkiewicz O and

Kokoh K (2015) Electrochemically induced surface modifications of mesoporous spinels (Co

3

O

4

-δ, MnCo

2

O

4

-δ, NiCo

2

O

4

-δ) as

the origin of the OER activity and stability in alkaline medium. Journal of Materials Chemistry A 3:17433-17444.

2.

Abidat I, Morais C, Comminges C, Canaff C, Rousseau J, Guignard N, Napporn T W, Habrioux A and Kokoh K B (2017) Three

dimensionally ordered mesoporous hydroxylated NixCo

3

-xO

4

spinels for oxygen evolution reaction: on the hydroxyl-induced

surface restructuring effect. Journal of Materials Chemistry A 5:7173-7183.

3.

Kumar K, Canaff C, Rousseau J, Arrii Clacens S, Napporn T W, Habrioux A and Kokoh K B (2016) Effect of the oxide-carbon

heterointerface on the activity of Co

3

O

4

/NRGO nanocomposites toward ORR and OER. Journal of Physical Chemistry C

120:7949-7958.

4.

Kumar K, Loupias L, Canaff C, Morisset S, Pronier S, Morais C, Habrioux A, Napporn T W and Kokoh K B (2018) Preparation

and electrochemical properties of NiCo

2

O

4

nanospinels supported on graphene derivatives as earth-abundant oxygen bifunctional

catalysts. ChemPhysChem 19:319-326.

5.

Kumar K, Abidat I, Canaff C, Morisset S, Habrioux A, Morais C, Napporn T W and Kokoh K B (2018) Metal loading effect on

the activity of Co

3

O

4

/N-Doped reduced graphene oxide nanocomposites as bifunctional oxygen reduction/evolution catalysts.

ChemElectroChem 5:483-493.

Biography

Aurélien Habrioux (Associate Professor) has an expertise in electrocatalysis and in materials science. His research interests deal with the design and development of novel

non-noble electrocatalysts for reactions such as oxygen reduction reaction and oxygen evolution reaction in alkaline medium. He is especially interested in scrutinizing and

explaining surface restructuring phenomena affecting catalysts surface and occurring upon working conditions. He has been coordinating researches aiming at developing

transition metal oxides supported heteroatom doped graphene-based materials for the reversible air electrode of high energy density Li-air and Zn-air batteries. He has also

been working on the understanding of the effect of the active phase/substrate interaction on the electrocatalytic activity.

aurelien.habrioux@univ-poitiers