J
Jayeeta Saha
Researcher at Indian Institute of Technology Bombay
Publications - 11
Citations - 186
Jayeeta Saha is an academic researcher from Indian Institute of Technology Bombay. The author has contributed to research in topics: Overpotential & Electrode. The author has an hindex of 4, co-authored 9 publications receiving 116 citations. Previous affiliations of Jayeeta Saha include Jadavpur University.
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Production of poly-3-(hydroxybutyrate-co-hydroxyvalerate) by Haloferax mediterranei using rice-based ethanol stillage with simultaneous recovery and re-use of medium salts.
Anirban Bhattacharyya,Jayeeta Saha,Saubhik Haldar,Asit Bhowmic,Ujjal Kumar Mukhopadhyay,Joydeep Mukherjee +5 more
TL;DR: For the first time, recovery and re-use of 96 % of the medium salts for PHA production is reported, removing the major bottleneck in the potential application of H. mediterranei for industrial production of PHBV.
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Compositional Control as the Key for Achieving Highly Efficient OER Electrocatalysis with Cobalt Phosphates Decorated Nanocarbon Florets
TL;DR: It is unraveled that the engineered nanocarbon support simultaneously enhances the interfacial charge-transfer pathway, resulting in the reduction of onset overpotential, compared to earlier investigated cobalt phosphate systems.
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Exceptional Capacitance Enhancement of a Non‐Conducting COF through Potential‐Driven Chemical Modulation by Redox Electrolyte
Rinku Kushwaha,Sattwick Haldar,Pragalbh Shekhar,Akshara Krishnan,Jayeeta Saha,Pramiti Hui,Chathakudath P. Vinod,Chandramouli Subramaniam,Ramanathan Vaidhyanathan +8 more
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Electrochemical, top-down nanostructured pseudocapacitive electrodes for enhanced specific capacitance and cycling efficiency.
TL;DR: A top-down, electrochemical nanostructuring route based on voltammetric cycling to stabilize β-MnO2 on a single walled carbon nanotube (CNT) scaffold from a MnMoO4 precursor yields the final CNT/β-MmO2 electrode that is electrically conductive, facilitates rapid charge transfer, and has increased capacitance and longer stability.
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Premagnetized Carbon-Catalyst Interface Delivering 650% Enhancement in Electrocatalytic Kinetics of Hydrogen Evolution Reaction
TL;DR: In this article, a synergistic interface created in nanostructured hard carbon florets (NCF) decorated with ferro-paramagnetic nanoparticles (Co₃O₄, Co, and NiCo) is demonstrated to demonstrate the highest kinetic enhancement of 650% in electrocatalytic hydrogen evolution reaction (HER), without the mandatory presence of Hₑₓₜ.