Nikolay Kornienko
Professor at Université de Montréal
Links
Biography
-
Independent Career
University of Montreal, Department of Chemistry Associate Professor, 2023 - Current Assistant Professor, 2019-2022
Postdoctoral
- Royal Society Newton Fellow, 2016-2018
- University of Cambridge
- Advisor: Erwin Reisner
PhD
- University of California, Berkeley, 2011-2016
- Advisor: Peidong Yang
Undergraduate
- University of Pittsburgh 2007-2011
- Advisor: Sanford Asher
I am currently an Associate Professor at the University of Montreal, Department of Chemistry. My overarching motivation is to discover and implement the chemistry necessary to transition to a sustainable energy-based society. Specifically, I am developing materials to convert solar energy to chemical fuels as an energy storage media. Transforming solar energy into chemical bonds requires efficient, synchronous function of multiple processes as well as a fundamental understanding of the underlying chemistry at work.
Currently, catalysts that utilize solar-derived electricity to generate chemical fuels lack the performance necessary to render this technology practical. Within this framework, my research entails both the design of novel electrocatalytic materials and in situ spectroscopic investigations. The aim here is to establish an iterative cycle where novel materials are first synthesized and systematically tested then subsequently probed through spectroscopic methods to develop a comprehensive understanding of the materials' structure/function relationships. The lessons generated can then be feed into the next cycle of design, synthesis, and understanding to accelerate the rate at which the pressing challenges in energy and materials can be met.
Current Research
- Investigation into bio-mimetic Metal-Organic Frameworks (MOFs), whose active site and catalytic pocket is tailored to incorporate aspects utilized by enzymes.
- Plasmonic Electrochemisry which harnesses enhanced electromagnetic fields at metal-electrolyte interfaces to access new reaction energy landscapes.
- Biocatalysis - incorporating electroactive enzymes and microbes to generate hybrid electrochemical systems capable of performance not yet attainable with purely synthetic systems
- Spectroscopy - viewing catalysts and reactions as they occur is key to understanding how to improve them
Read about executive education
Other experts
Popular Courses
Leading People and Teams
ESMT
Berlin, Germany
May 28
Private Equity: Investing and Creating Value
The Wharton School
Philadelphia, Pennsylvania, United States
Sep 8
The Manchester Leadership Development Programme
Alliance Manchester Business School
Manchester, United Kingdom
Jul 1
Leading Digital Transformation
ESMT
Berlin, Germany
May 28
Leading Strategic Growth and Change
Columbia Business School
New York, New York, United States
Jun 10
The Positive Leader: Deep Change and Organizational Transformation
Stephen M. Ross School of Business
Ann Arbor, Michigan, United States
Jun 23
Looking for an expert?
Contact us and we'll find the best option for you.