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W2903319104 endingPage "1064" @default.
W2903319104 startingPage "1021" @default.
W2903319104 abstract "Hydrogen (H2) production via photocatalytic water splitting is one of the most promising technologies for clean solar energy conversion to emerge in recent decades. The achievement of energy production from water splitting would mean that we could use water as a fuel for future energy need. Among the various photocatalytic materials, titanium dioxide (TiO2) is the dominant and most widely studied because of its exceptional physico-chemical characteristics. Surface decoration of metal/non-metal on TiO2 nanoparticles is an outstanding technique to revamp its electronic properties and enrich the H2 production efficiency. Metal dopants play a vital role in separation of electron-hole pairs on the TiO2 surface during UV/visible/simulated solar light irradiation. In this paper, the basic principles, photocatalytic-reactor design, kinetics, key findings, and the mechanism of metal-doped TiO2 are comprehensively reviewed. We found that Langmuir-Hinshelwood kinetic model is commonly employed by the researchers to demonstrate the rate of H2 production. Copper (Cu), gold (Au) and platinum (Pt) are the most widely studied dopants for TiO2, owing to their superior work function. The metal dopants can amplify the H2 production efficiency of TiO2 through Schottky barrier formation, surface plasmon resonance (SPR), generation of gap states by interaction with TiO2 VB states. The recent advances and important consequences of 2D materials, perovskites, and other novel photocatalysts for H2 generation have also been reviewed." @default.
W2903319104 created "2018-12-11" @default.
W2903319104 creator A5002740458 @default.
W2903319104 creator A5003024680 @default.
W2903319104 creator A5027875344 @default.
W2903319104 creator A5053945062 @default.
W2903319104 date "2019-05-01" @default.
W2903319104 modified "2023-10-16" @default.
W2903319104 title "Photocatalytic hydrogen production using metal doped TiO2: A review of recent advances" @default.
W2903319104 cites W1076617968 @default.
W2903319104 cites W1564859859 @default.
W2903319104 cites W1588434866 @default.
W2903319104 cites W1830955028 @default.
W2903319104 cites W1832941338 @default.
W2903319104 cites W1840479564 @default.
W2903319104 cites W1930764841 @default.
W2903319104 cites W1934947535 @default.
W2903319104 cites W1965296958 @default.
W2903319104 cites W1967226352 @default.
W2903319104 cites W1967320284 @default.
W2903319104 cites W1967708617 @default.
W2903319104 cites W1969010969 @default.
W2903319104 cites W1969929163 @default.
W2903319104 cites W1970101236 @default.
W2903319104 cites W1970785384 @default.
W2903319104 cites W1971113415 @default.
W2903319104 cites W1971500435 @default.
W2903319104 cites W1971907224 @default.
W2903319104 cites W1973409936 @default.
W2903319104 cites W1974600865 @default.
W2903319104 cites W1976494822 @default.
W2903319104 cites W1977423968 @default.
W2903319104 cites W1978224143 @default.
W2903319104 cites W1978513778 @default.
W2903319104 cites W1979252696 @default.
W2903319104 cites W1980730277 @default.
W2903319104 cites W1980809841 @default.
W2903319104 cites W1982086087 @default.
W2903319104 cites W1984216584 @default.
W2903319104 cites W1986982916 @default.
W2903319104 cites W1991170086 @default.
W2903319104 cites W1992464644 @default.
W2903319104 cites W1993943081 @default.
W2903319104 cites W1995506895 @default.
W2903319104 cites W1995834854 @default.
W2903319104 cites W1996307985 @default.
W2903319104 cites W1998894359 @default.
W2903319104 cites W2001132280 @default.
W2903319104 cites W2003687757 @default.
W2903319104 cites W2003744709 @default.
W2903319104 cites W2007017760 @default.
W2903319104 cites W2008300407 @default.
W2903319104 cites W2010465345 @default.
W2903319104 cites W2011526051 @default.
W2903319104 cites W2013563254 @default.
W2903319104 cites W2013860808 @default.
W2903319104 cites W2015520736 @default.
W2903319104 cites W2016572207 @default.
W2903319104 cites W2017814174 @default.
W2903319104 cites W2018956891 @default.
W2903319104 cites W2018970165 @default.
W2903319104 cites W2019220222 @default.
W2903319104 cites W2020111054 @default.
W2903319104 cites W2022621714 @default.
W2903319104 cites W2022691920 @default.
W2903319104 cites W2022817821 @default.
W2903319104 cites W2023137992 @default.
W2903319104 cites W2024121099 @default.
W2903319104 cites W2024451399 @default.
W2903319104 cites W2025900374 @default.
W2903319104 cites W2027390371 @default.
W2903319104 cites W2028919804 @default.
W2903319104 cites W2028957948 @default.
W2903319104 cites W2029169939 @default.
W2903319104 cites W2030217248 @default.
W2903319104 cites W2031063931 @default.
W2903319104 cites W2031823247 @default.
W2903319104 cites W2031840743 @default.
W2903319104 cites W2031907251 @default.
W2903319104 cites W2031985993 @default.
W2903319104 cites W2032408947 @default.
W2903319104 cites W2032877296 @default.
W2903319104 cites W2033041394 @default.
W2903319104 cites W2033256351 @default.
W2903319104 cites W2036162919 @default.
W2903319104 cites W2036852621 @default.
W2903319104 cites W2037524618 @default.
W2903319104 cites W2038652568 @default.
W2903319104 cites W2040778780 @default.
W2903319104 cites W2040802235 @default.
W2903319104 cites W2041627788 @default.
W2903319104 cites W2042492216 @default.
W2903319104 cites W2042555761 @default.
W2903319104 cites W2042764109 @default.
W2903319104 cites W2042788156 @default.
W2903319104 cites W2043512990 @default.
W2903319104 cites W2043961251 @default.
W2903319104 cites W2044225736 @default.