P
Prashant V. Kamat
Researcher at University of Notre Dame
Publications - 760
Citations - 86006
Prashant V. Kamat is an academic researcher from University of Notre Dame. The author has contributed to research in topics: Excited state & Racism. The author has an hindex of 140, co-authored 725 publications receiving 79259 citations. Previous affiliations of Prashant V. Kamat include Indian Institute of Technology Kanpur & Council of Scientific and Industrial Research.
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Journal ArticleDOI
Organic solar cells. Supramolecular composites of porphyrins and fullerenes organized by polypeptide structures as light harvesters
Taku Hasobe,Taku Hasobe,Kenji Saito,Prashant V. Kamat,Vincent Troiani,Hongjin Qiu,Nathalie Solladié,Kil Suk Kim,Jong Kang Park,Dongho Kim,Francis D'Souza,Shunichi Fukuzumi +11 more
TL;DR: In this paper, a series of porphyrin-peptide oligomers and fullerenes were assembled as three-dimensional arrays onto a nanostructured SnO2 electrode using an electrophoretic deposition method.
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Ultrasonic mineralization of a reactive textile azo dye, remazol black B
TL;DR: In this paper, the degradation of a reactive black dye in oxygen saturated aqueous solution has been investigated using a high frequency ultrasonic generator, which results in 65% mineralization as measured by the decrease in the total organic content.
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CsPbBr3 Solar Cells: Controlled Film Growth through Layer-by-Layer Quantum Dot Deposition
TL;DR: In this article, a layer-by-layer methodology was proposed for CsPbBr3 perovskite photovoltaics, which makes use of QD deposition followed by annealing, providing a convenient way to cast stable films of desired thickness.
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C60 Cluster as an Electron Shuttle in a Ru(II)-Polypyridyl Sensitizer-Based Photochemical Solar Cell
TL;DR: In this article, a redox-active molecular assembly was employed as an electron relay that greatly minimizes the interaction with the excited dye while maintaining the effectiveness of the regeneration cycle.
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Photoelectrochemistry of Composite Semiconductor Thin Films. Photosensitization of SnO2/CdS Coupled Nanocrystallites with a Ruthenium Polypyridyl Complex
TL;DR: In this article, the authors investigated the effect of charge injection from an excited Ru(II) complex (viz., (Ru(bpy)2(L))2+, where L = 4-(2,2‘-bipyrid-4-yl)phenyl diphosphonate) into SnO2 and SnO 2/CdS films to elucidate the beneficial effect of composite semiconductor systems.