Electron Enriched Ternary NiMoB Electrocatalyst for Improved Overall Water Splitting
- admin
- 2022-08-22
- 4765
Research Team Led by Prof. Jihoon Lee (Dept. of Electronic Engineering) has Developed an Electrode for High-Efficiency Green Hydrogen Production Based on Ternary Nickel-Molybdenum-Boron (Nimob) with a Multifaceted Circular Micro-Cluster Structure
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Published in JCR Category Q1, IF: 8.663 Scientific Journal -
- Development of electrode with superior hydrogen/oxygen generation reaction performance than benchmark electrode using a multi-circular micro-cluster structure with a greatly improved surface area -
As concerns about ever-increasing levels of greenhouse gas
emissions increase, the search for sustainable and clean energy resources has
become essential to gradually reduce and replace the use of fossil fuels. Hydrogen
makes up 75% of the mass of the universe. Water (H2O), which is one of the most
common elements on Earth and accounts for 70% of the Earth's surface, also
contains a large amount of hydrogen. Hydrogen energy is attracting attention as
an excellent renewable energy source because of its high energy density and
zero carbon emission. It is already steadily entering our daily lives. Hydrogen
engine-based vehicles, trains, ships, and airplanes are being developed one
after another. Hydrogen energy-based electricity can be used in ordinary homes
as well.
(Left) Ph.D. Researcher Rutuja Mandavkar / (Right) Professor Jihoon Lee
(a) Schematic of NiMoB electrode fabrication
by electrochemical deposition. (b) Comparison of HER performance of bare Ni,
MoB, NiB, and NiMoB electrodes in a three-electrode system. (c) Comparison of
OER performance. (d) NiMoB electrode and Pt/C || Comparison of the performance
of a benchmark electrode of RuO2. (e) Comparison of NiMoB 2-electrode system
performance in natural seawater + 1 M KOH
This research was carried out with the support
of Brain Korea 21 Plus (BK-21+) promoted by the National Research Foundation of
Korea and the Ministry of Education, a key research institute project, and
Kwangwoon University. The research results were published in the scientific
journal Applied Materials Today (JCR Category Q1 MATERIALS SCIENCE,
MULTIDISCIPLINARY, IF: 8.663) in July 2022 under the name “Electron enriched
ternary NiMoB electrocatalyst for improved overall water splitting: Better
performance as compared to the Pt/C || RuO2 at high current density”.
*Research link: https://doi.org/10.1016/j.apmt.2022.101579