LEADER 03970nam  2200961z- 450 
001 9910346686603321
005 20231214133436.0
010   $a3-03897-695-4
035   $a(CKB)4920000000094803
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/60960
035   $a(EXLCZ)994920000000094803
100   $a20202102d2019      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aTitanium Dioxide Photocatalysis
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
215   $a1 electronic resource (208 p.)
311   $a3-03897-694-6 
330   $aAlthough the seminal work of Fujishima et al. dates back to 1971, TiO2 still remains the most diffused and studied semiconductor, employed in photo-oxidation processes for cleantech (i.e., polluted water and air treatment), in solar fuel production (mainly hydrogen production by water photo splitting), and in Carbon Capture and Utilization (CCU) processes by CO2 photoreduction. The eleven articles, among them three reviews, in this book cover recent results and research trends of various aspects of titanium dioxide photocatalysis, with the chief aim of improving the final efficiency of TiO2-based materials. Strategies include doping, metal co-catalyst deposition, and the realization of composites with plasmonic materials, other semiconductors, and graphene. Photocatalysts with high efficiency and selectivity can be also obtained by controlling the precise crystal shape (and homogeneous size) and the organization in superstructures from ultrathin films to hierarchical nanostructures. Finally, the theoretical modeling of TiO2 nanoparticles is discussed and highlighted. The range of topics addressed in this book will stimulate the reader?s interest as well as provide a valuable source of information for researchers in academia and industry.
610   $aUV-visible
610   $aoxidative reaction systems
610   $aphotodegradation
610   $ananospheres
610   $aheterojunction
610   $aAg/AgCl@TiO2 fibers
610   $apolymorphism
610   $aXRD
610   $acopper-modified titania
610   $aultrasonic vibration
610   $abrookite
610   $aTiO2 modification
610   $asimulated Extended X-ray Adsorption Fine-Structure (EXAFS)
610   $ananorod spheres
610   $atrapped electrons
610   $aflame-spray pyrolysis
610   $atitania/water interface
610   $amicrowave irradiation
610   $aplasmonic photocatalyst
610   $agraphene-TiO2
610   $aphotocatalytic hydrogen production
610   $amicrostreaming
610   $aB3LYP
610   $aHRTEM
610   $ahardness
610   $aprinting and dyeing wastewater
610   $aSCC-DFTB
610   $aTiO2
610   $aphotoelectrochemistry
610   $atitanium
610   $abulk defects
610   $amethanol photo-steam reforming
610   $aspray coating
610   $asol-gel
610   $aFTIR
610   $aS-doping
610   $aphotocatalysis
610   $asulfidation
610   $alattice defects
610   $apolymorph
610   $aanodization
610   $apine-cone TiO2 nanoclusters
610   $ananorod arrays
610   $aformation mechanism
610   $aCu and Pt nanoparticles
610   $aexcitons
610   $aTiO2 nanotubes
610   $aadhesion
610   $atrapping
610   $aflexible substrates
610   $aoptical absorption
610   $alarge-sized films
610   $asurface defects
610   $atitanium dioxide
610   $aaccumulated electrons
700   $aNaldoni$b Alberto$4auth$01329307
702   $aDal Santo$b Vladimiro$4auth
906   $aBOOK
912   $a9910346686603321
996   $aTitanium Dioxide Photocatalysis$93039408
997   $aUNINA