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      Surface modification and enhanced photocatalytic CO 2 reduction performance of TiO 2 : a review

      , ,
      Applied Surface Science
      Elsevier BV

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          Electric Field Effect in Atomically Thin Carbon Films

          We report a naturally-occurring two-dimensional material (graphene that can be viewed as a gigantic flat fullerene molecule, describe its electronic properties and demonstrate all-metallic field-effect transistor, which uniquely exhibits ballistic transport at submicron distances even at room temperature.
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            Gold nanoparticles in chemical and biological sensing.

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              Photocatalytic Reduction of CO2on TiO2and Other Semiconductors

              Rising atmospheric levels of carbon dioxide and the depletion of fossil fuel reserves raise serious concerns about the ensuing effects on the global climate and future energy supply. Utilizing the abundant solar energy to convert CO2 into fuels such as methane or methanol could address both problems simultaneously as well as provide a convenient means of energy storage. In this Review, current approaches for the heterogeneous photocatalytic reduction of CO2 on TiO2 and other metal oxide, oxynitride, sulfide, and phosphide semiconductors are presented. Research in this field is focused primarily on the development of novel nanostructured photocatalytic materials and on the investigation of the mechanism of the process, from light absorption through charge separation and transport to CO2 reduction pathways. The measures used to quantify the efficiency of the process are also discussed in detail.
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                Author and article information

                Journal
                Applied Surface Science
                Applied Surface Science
                Elsevier BV
                01694332
                January 2017
                January 2017
                : 392
                :
                : 658-686
                Article
                10.1016/j.apsusc.2016.09.093
                a9070416-64b4-47c2-8484-d536372b9c40
                © 2017
                History

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