Veerabhadrarao Kaliginedi

Affiliations: 
2019- Department of Inorganic and Physical Chemistry Indian Institute of Science 
Area:
Molecular electronics, Electrochemistry, Catalysis, Surface electrochemistry, Energy storage
Website:
https://ipc.iisc.ac.in/vk.php
Google:
"Veerabhadrarao Kaliginedi"
Mean distance: 39813
 
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Publications

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Rashid U, Bro-Jørgensen W, Harilal KB, et al. (2024) Chemistry of the Au-Thiol Interface through the Lens of Single-Molecule Flicker Noise Measurements. Journal of the American Chemical Society
Kumar R, Seth C, Venkatramani R, et al. (2023) Do quantum interference effects manifest in acyclic aliphatic molecules with anchoring groups? Nanoscale
Rashid U, Chatir E, Sandonas LM, et al. (2023) Dithienylethene-Based Single Molecular Photothermal Linear Actuator. Angewandte Chemie (International Ed. in English)
Aggarwal A, Kaliginedi V, Maiti PK. (2021) Quantum Circuit Rules for Molecular Electronic Systems: Where Are We Headed Based on the Current Understanding of Quantum Interference, Thermoelectric, and Molecular Spintronics Phenomena? Nano Letters. 21: 8532-8544
Atesci H, Kaliginedi V, Celis Gil JA, et al. (2017) Humidity-controlled rectification switching in ruthenium-complex molecular junctions. Nature Nanotechnology
Rudnev AV, Kaliginedi V, Droghetti A, et al. (2017) Stable anchoring chemistry for room temperature charge transport through graphite-molecule contacts. Science Advances. 3: e1602297
Seth C, Kaliginedi V, Suravarapu S, et al. (2017) Conductance in a bis-terpyridine based single molecular breadboard circuit. Chemical Science. 8: 1576-1591
Ozawa H, Baghernejad M, Al-Owaedi OA, et al. (2016) Synthesis and Single-Molecule Conductance Study of Redox-Active Ruthenium Complexes with Pyridyl and Dihydrobenzo[b]thiophene Anchoring Groups. Chemistry (Weinheim An Der Bergstrasse, Germany)
Durst J, Rudnev A, Dutta A, et al. (2015) Electrochemical CO2 Reduction - A Critical View on Fundamentals, Materials and Applications. Chimia. 69: 769-76
Kaliginedi V, Ozawa H, Kuzume A, et al. (2015) Layer-by-layer grown scalable redox-active ruthenium-based molecular multilayer thin films for electrochemical applications and beyond. Nanoscale
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