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Krish N. Jayarapu

ORCID: 0000-0002-5822-4133
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About
Contact & Profiles
A5097956105
Research Areas
  • CO2 Reduction Techniques and Catalysts
  • Ammonia Synthesis and Nitrogen Reduction
  • Electrochemical Analysis and Applications
  • Green IT and Sustainability
  • Covalent Organic Framework Applications
  • Advanced battery technologies research
  • Ionic liquids properties and applications
  • Advancements in Battery Materials

Johns Hopkins University
 2024-2025

 Indigo as a Low‐Cost Redox‐Active Sorbent for Electrochemically Mediated Carbon Capture
OPENALEX - Publications 
Krish N. Jayarapu Anmol Mathur Xing Li Andong Liu Lingyu Zhang and 4 more Jaeeun Kim Hyun‐Ah Kim Su Keun Kuk Yayuan Liu

Abstract Climate change has driven the need for carbon capture to mitigate anthropogenic greenhouse gas emissions, yet current thermochemical methods are hampered by high energy intensities. Electrochemically mediated (EMCC) utilizing redox‐active dioxide (CO 2 ) carriers is an attractive alternative capture. Here, economical vat dye compound, indigo, presented, which can reversibly and release CO upon electrochemical reduction oxidation, respectively. Electrode electrolyte engineering...

10.1002/adfm.202402355 article EN Advanced Functional Materials 2024-05-13
 Electro-activated indigos intensify ampere-level CO2 reduction to CO on silver catalysts
OPENALEX - Publications 
Zhengyuan Li Xing Li Ruoyu Wang Astrid Campos Mata Carter S. Gerke and 14 more Shuting Xiang Anmol Mathur Lingyu Zhang Dian‐Zhao Lin Tianchen Li Krish N. Jayarapu Andong Liu LC Gupta Anatoly I. Frenkel V. Sara Thoi Pulickel M. Ajayan Soumyabrata Roy Yuanyue Liu Yayuan Liu

10.1038/s41467-025-58593-w article EN cc-by-nc-nd Nature Communications 2025-04-03
 A high-throughput experimentation platform for data-driven discovery in electrochemistry
OPENALEX - Publications 
Dian‐Zhao Lin К К Пан Yuyin Li Charles B. Musgrave Lingyu Zhang and 6 more Krish N. Jayarapu Tianchen Li Jasmine Vy Tran William A. Goddard Zhengtang Luo Yayuan Liu

Automating electrochemical analyses combined with artificial intelligence is poised to accelerate discoveries in renewable energy sciences and technologies. This study presents an automated high-throughput characterization (AHTech) platform as a cost-effective versatile tool for rapidly assessing liquid analytes. The Python-controlled combines handling robot, potentiostat, customizable microelectrode bundles diverse, reproducible measurements microtiter plates, minimizing chemical...

10.1126/sciadv.adu4391 article EN cc-by-nc Science Advances 2025-04-04
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