School Of Basic And Applied Sciences
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Item Tunable photocatalytic water splitting and solar-to-hydrogen efficiency in ?-PdSe2monolayer(Royal Society of Chemistry, 2021-08-18T00:00:00) Jakhar, Mukesh; Kumar, AshokDirect production of hydrogen from photocatalytic water splitting is a potential solution to overcome global energy crisis. Herein, based on first-principles calculations, we demonstrate that the two-dimensional ?-PdSe2 monolayer is a promising candidate for efficient photocatalytic water splitting in acidic and alkaline media as well as neutral medium with highly efficient solar-to-hydrogen efficiency. ?-PdSe2 monolayer shows low cleavage energy which endorses the possibility of its mechanical exfoliation from layered bulk ?-PdSe2. Remarkably, ?-PdSe2 monolayer is semiconducting with indirect band gap of 1.96 eV with perfect engulfing the redox potential of water in a wide range of pH of medium. ?-PdSe2 monolayer exhibits good light harvesting ability and adequate driving forces for water redox reaction in wide range of pH (0 to 12). Comprehensive investigation of pH dependent water splitting indicates that the ?-PdSe2 monolayer is a better candidate for efficient water splitting in alkaline media rather than acidic or neutral medium. In addition, high solar-to-hydrogen efficiency as high as ?17% is obtained that shows ?-PdSe2 monolayer a promising candidate for overall photocatalytic water-splitting. � The Royal Society of Chemistry.Item Size dependent tunnel diode effects in gold tipped CdSe nanodumbbells(American Institute of Physics Inc., 2017) Saraf, Deepashri; Kumar, Ashok; Kanhere, Dilip; Kshirsagar, AnjaliWe report simulation results for scanning tunneling spectroscopy of gold-tipped CdSe nanodumbbells of lengths ?27 ? and ?78 ?. Present results are based on Bardeen, Tersoff, and Hamann formalism that takes inputs from ab initio calculations. For the shorter nanodumbbell, the current-voltage curves reveal negative differential conductance, the characteristic of a tunnel diode. This behaviour is attributed to highly localized metal induced gap states that rapidly decay towards the center of the nanodumbbell leading to suppression in tunneling. In the longer nanodumbbell, these gap states are absent in the central region, as a consequence of which zero tunneling current is observed in that region. The overall current-voltage characteristics for this nanodumbbell are observed to be largely linear near the metal-semiconductor interface and become rectifying at the central region, the nature being similar to its parent nanorod. The cross-sectional heights of these nanodumbbells also show bias-dependence where we begin to observe giant Stark effect features in the semiconducting central region of the longer nanodumbbell. ? 2017 Author(s).