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Bio
He is responsible for ESDR scientific, programmatic and strategic leadership in the areas of energy and environment through expanding existing research programs, assistance with development and maintenance of sponsor and partner relationships and creating new research initiatives.
His research interests focus on fundamental phenomena that determine electrochemical performance of electrochemical energy storage and conversion systems and water treatment technologies. Robert is often recognized for his pioneering work in the field of characterization of electrochemical interfaces and electrochemical systems engineering, especially in bridging the gap between fundamental science and applications of significant technological importance e.g., batteries, fuel cells and water treatment processes. He develops novel in situ and ex situ optical spectroscopy and imaging methodologies to sense basic properties of advanced materials and electrochemical interfaces at an atom, molecular or nanoparticle level.
In his work he develops novel in situ and ex situ spectroscopy and imaging methodologies to probe basic properties of electrical energy storage materials and electrochemical interfaces at an atom, molecular or nanoparticulate level. He applies new experimental approaches to characterize fundamental issues affecting rechargeable battery performance, study the nature of physico-chemical properties of interfaces, nanostructures, and the mechanism of electrochemical and chemical phenomena that control the behavior of the electrochemical energy storage and conversion systems. His R&D efforts are directed toward technology development, and the use of state-of-the-art characterization tools to support the science and engineering of sustainable energy systems.
His research interests focus on fundamental phenomena that determine electrochemical performance of electrochemical energy storage and conversion systems and water treatment technologies. Robert is often recognized for his pioneering work in the field of characterization of electrochemical interfaces and electrochemical systems engineering, especially in bridging the gap between fundamental science and applications of significant technological importance e.g., batteries, fuel cells and water treatment processes. He develops novel in situ and ex situ optical spectroscopy and imaging methodologies to sense basic properties of advanced materials and electrochemical interfaces at an atom, molecular or nanoparticle level.
In his work he develops novel in situ and ex situ spectroscopy and imaging methodologies to probe basic properties of electrical energy storage materials and electrochemical interfaces at an atom, molecular or nanoparticulate level. He applies new experimental approaches to characterize fundamental issues affecting rechargeable battery performance, study the nature of physico-chemical properties of interfaces, nanostructures, and the mechanism of electrochemical and chemical phenomena that control the behavior of the electrochemical energy storage and conversion systems. His R&D efforts are directed toward technology development, and the use of state-of-the-art characterization tools to support the science and engineering of sustainable energy systems.
Research Interests
Papers共 308 篇Author StatisticsCo-AuthorSimilar Experts
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Current Opinion in Electrochemistrypp.101548, (2024)
ACS nanono. 23 (2024): 15270-15283
JOURNAL OF THE ELECTROCHEMICAL SOCIETYno. 9 (2023): 090538-090538
Lukas Karapin-Springorum,Asia Sarycheva,Andrew Dopilka,Hyungyeon Cha,Muhammad Ihsan-Ul-Haq,Jonathan M. Larson,Robert Kostecki
arXiv (Cornell University) (2023)
Natureno. 7956 (2023): 245-248
ACS NANOno. 7 (2023): 6943-6954
arXiv (Cornell University) (2023)
International Journal of Hydrogen Energyno. 86 (2023): 33537-33547
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