Profile banner
Saikat Bolar

Saikat Bolar

Postdoctoral researcher in electrochemistry and electrocatalysis at KUT

Kami, Kochi, Japan
ac
Joined April 2026
Favicon imagekochi-tech.ac.jp
Favicon imagescholar.google.com
Favicon imageresearchgate.net
Favicon imagein.linkedin.com
Favicon imageloop.frontiersin.org

Network

1.2K connections
🧪
Materials Science Academics
💡
Indian Energy Researchers
🔋
Battery Technology Experts
🌿
Green Hydrogen Innovators
💻
Kochi Tech Network
🔬
CMERI
🎓
Sydney Network

Summary

Electrocatalysis and electrochemical energy conversion specialist — Saikat's publications and profile consistently focus on electrocatalysis (HER, OER), water splitting and related materials such as MoS2, transition-metal sulfides/oxides and high-entropy materials. google+2
Active postdoctoral researcher at Kochi University of Technology — currently affiliated with KUT's School of Environmental Science and Engineering and coauthor on multiple KUT-led high-entropy materials and electrocatalysis papers. ac+1
Doctoral training and research experience at CSIR-CMERI — served as a doctoral student and project assistant with work that produced several peer-reviewed articles on electrocatalysts and water splitting. res+1
Productive author and collaborator with international co-authors — maintains a Google Scholar profile with a multi-paper publication record across journals such as Chemical Science, ACS Materials Letters, JACS and International Journal of Hydrogen Energy. google+2

Work

Education

Writing

Sulfur-Stabilized High Entropy Oxysulfides Enable Efficient C–C Bond Cleavage in Ethylene Glycol Electrooxidation for Sustainable Plastic Upcycling to Formate

January 1, 2026

Presents a high-entropy oxysulfide catalyst demonstrating efficient C–C bond cleavage in ethylene glycol electrooxidation, enabling selective formate production and coupling plastic upcycling with energy-efficient hydrogen production.

Favicon imagepmc.ncbi.nlm.nih.gov

Rapid Chemical Synthesis of High-Entropy Oxide Colloids under Ambient Conditions

November 1, 2024

Reports a facile ambient-temperature method to produce high-entropy oxide (HEO) colloids tailored as electrocatalysts for the oxygen evolution reaction (OER), enabling HEO colloids with many metal elements and diverse compositions.

Favicon imagepubs.acs.org

Future prospects of high-entropy alloys as next-generation industrial electrode materials

January 1, 2024

Review of high-entropy alloys (HEAs) as potential electrode materials, covering design, synthesis, and application of HEA-based electrocatalysts across reactions such as HER, OER, ORR and in devices like batteries and supercapacitors.

Favicon imagepmc.ncbi.nlm.nih.gov

Assisting the formation of S-doped FeMoO4 in lieu of an iron oxide/molybdenum sulfide heterostructure: A unique approach towards attaining excellent electrocatalytic water splitting activity

January 1, 2022

Describes a triethanolamine-assisted synthesis that yields S-doped FeMoO4 rather than iron oxide/molybdenum sulfide heterostructures, producing a bifunctional electrocatalyst with superior overall water-splitting performance and operational robustness.

Favicon imagesciencedirect.com

Denary High-Entropy Oxide Nanoparticles Synthesized by a Continuous Flow Method

Reports synthesis of denary (ten-element) high-entropy oxide nanoparticles via a continuous method; contributes to high-entropy materials synthesis relevant to electrocatalysis and related applications.

Favicon imagepubs.acs.org

Similar profiles

SE

Simon Engelke

Founder & Chair at Battery Associates

AG

Anirud Gudi

Assistant Manager at Ola Electric

RW

Rahul Walawalkar

Venture Partner at Caret Capital

SM

Shubham Mishra

Founder & CEO at Energy AI Labs

DO

Dermot O’Mahony

Founder | Talent Search | APAC MENA & Europe at O'Mahony Agency

DD

Dr. Dheeraj Kumar

Research Collaborator at Università degli Studi di Modena e Reggio Emilia