S
Suljo Linic
Researcher at University of Michigan
Publications - 108
Citations - 17867
Suljo Linic is an academic researcher from University of Michigan. The author has contributed to research in topics: Catalysis & Semiconductor. The author has an hindex of 48, co-authored 101 publications receiving 14454 citations. Previous affiliations of Suljo Linic include Max Planck Society & University of Delaware.
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Plasmonic-metal nanostructures for efficient conversion of solar to chemical energy
TL;DR: Plasmon-enhanced water splitting on composite photocatalysts containing semiconductor and plasmonic-metal building blocks is focused on, and recently reported plasMon-mediated photocatallytic reactions on plAsmonic nanostructures of noble metals are discussed.
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Visible-light-enhanced catalytic oxidation reactions on plasmonic silver nanostructures
TL;DR: It is shown that plasmonic nanostructures of silver can concurrently use low-intensity visible light and thermal energy to drive catalytic oxidation reactions--such as ethylene epoxidation, CO oxidation, and NH₃ oxidation--at lower temperatures than their conventional counterparts that use only thermal stimulus.
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Photochemical transformations on plasmonic metal nanoparticles
TL;DR: The underlying physical mechanisms responsible for the observed chemical activity, and the issues that must be better understood to see progress in the field of plasmon-mediated photocatalysis are discussed.
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Water Splitting on Composite Plasmonic-Metal/Semiconductor Photoelectrodes: Evidence for Selective Plasmon-Induced Formation of Charge Carriers near the Semiconductor Surface
David B. Ingram,Suljo Linic +1 more
TL;DR: It is demonstrated that this issue can be alleviated significantly by combining a semiconductor photocatalyst with tailored plasmonic-metal nanostructures, and the interaction of localized electric fields with the neighboring semiconductor allows for the selective formation of electron/hole (e(-)/h(+)) pairs in the near-surface region of the semiconductor.
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Singular characteristics and unique chemical bond activation mechanisms of photocatalytic reactions on plasmonic nanostructures
TL;DR: It is shown that plasmonic metallic nanostructures represent a new family of photocatalysts that exhibit fundamentally different behaviour compared with semiconductors, and that this new family could prove useful for many heterogeneous catalytic processes that cannot be activated using conventional thermal processes on metals or photoc atalytic processes on semiconductor.