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1、Due to the peculiar intrinsic properties of ultrathin TiO2 atomic layersand theirpotential applications for photocatalytic CO2 reduction, the ultimate goal ofinvestigation elucidated in this dissertation was to reduce CO
2、2 into hydrocarbon fuelsvia the photocatalysts.Therefore, using a facile and scalable lamellar hybrid strategy,novel atomic layers have beensynthesized and hence showed enhanced photocatalyticactivities in CO2 reduction
3、to hydrocarbon fuels.The details of this dissertation aresummarized concisely as follows:
(1) In the first chapter, the author briefly interpreted the ultrathin two-dimensionalnanosheets, because during the past few
4、 years the mainresearch focus was on thetwo-dimensional ultrathin nanosheets after the impetus from the NobelPrize-winning work of graphene.These peculiar properties such as, (i) quantumconfinement, (ii) large surface ar
5、ea, (iii) ultrahigh level of active sites, and (iv) atomiclevel thickness, endow the ultrathin nanosheets with a new regime for deliveringauspicious prospects to fulfill people' requirements regarding the generation ofre
6、newablehydrocarbon fuels from CO2 reduction.The hydrocarbon fuels generatedby ultrathin nanosheets may be methane, methanol, formate etc., which could beutilized to mitigate future energycrises.
(2)In the second cha
7、pter, the main fascination for the research work wasmanifested in detail.Actually, carbon dioxide (CO2) being the greenhouse gas is themost notorious gas released by natural and artificial processes.Unluckily, due to the
8、escalation of industrial progress, this balance has progressively been messed up,generating more CO2 in environment and leading to the global warming phenomena.Therefore, great attention has been paid on the CO2 conversi
9、on into useful chemicals,which seems tobe the main desire of current scenario.Hence, this environmentalissue stimulates us to trail an appropriate material model for studying the CO2
reduction into valuable chemical
10、s, in which the atomically thin two-dimensional TiO2nanosheets could serve as an ideal model, owing to their (i)relatively large surfacearea, and (ii) the ultrahigh fraction of active sites for photocatalyfic CO2 reducti
11、oninto hydrocarbon fuels.
(3)In the third chapter, the author first clarified the synthesis strategies used forTiO2 atomic layers fabrication.Basically, these novel materials have been synthesizedby solvothermal met
12、hods using a lamellar hybridization strategy.Main benefits ofthese methods are (i) convenience,and (ii) cost effectiveness which canaugment theprobability of nanosheetssynthesis up to the industrial level.Therefore, this
13、 approachhas opened a new route in the world of materials science to tune the materialperformance.In the second part, characterizations of ultrathin nanosheets usingvarious advanced techniques and theunderstanding of the
14、ir clear structure-propertycorrelation have been illustrated.
(4) In the fourth chapter, the author first realized the synthesis of 1.66 nm thick TiO2atomic layers byvirtue of a lamellar TiO2-octylaminehybrid precur
15、sor, followed bythe investigation of their photocatalyticCO2 reduction.Photoreduction of CO2 intofuels over TiO2 helps to relievethe increasing energy crisis and theworsening globalclimate, however, the low energetic eff
16、iciency impedes itslarge-scale applications.Herein, ultrathin TiO2 layers are first put forward to fully optimize their crucialCO2photoreduction processes through affording abundant catalyticallyactive sites andincreased
17、 two-dimensional conductivity.Ultimately, the atomic thickness of 1.66 nmendows TiO2 with ultrahigh fraction of surface atoms, which ensures stronger UVlight absorption and higher CO2 reduction ability compared with its
18、bulk counterpart.
Benefitting from the increased density of states near Fermi level and the vast majorityof charge density concentrating on the surface, the TiO2 atomic layers show increasedconductivities, which is
19、confirmed by the temperature-dependent resistivities.The 3times higher fluorescence lifetime, revealed by time-resolved fluorescencespectroscopy, accounts for the increased separate rate of photoexcited electron-holepair
20、s.As an outcome, the TiO2 atomic layers achievea formate formation rate of 1.9μmolg-1 h-1, 450 times higher than that of bulk counterpart and also roughly2 timeshigher than that of previously reported Ag-modified BaLaaTi
21、4O15.Briefly, this study will unlock many opportunities for designing efficient CO2photoreduction.
Keywords: Ultrathin nanosheets; titanium dioxide; atomic layers; CO2reduction;photocatalytic reduction; hydrocarbon
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