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CO2 Footprint of Thermal versus Photothermal CO2 Catalysis

CO2 Footprint of Thermal versus Photothermal CO2 Catalysis

利用各种催化手段将CO2转化为高附加值产物理论上可以有效应对由CO2过量排放带来的环境问题以及由化石燃料大量燃烧所带来的能源短缺问题。

2021/03/15查看更多

MOF encapsulated sub-nm Pd skin/Au nanoparticles as antenna-reactor  plasmonic catalyst for light driven CO2 hydrogenation

MOF encapsulated sub-nm Pd skin/Au nanoparticles as antenna-reactor plasmonic catalyst for light driven CO2 hydrogenation

MOF encapsulated sub-nm Pd skin/Au nanoparticles as antenna-reactor plasmonic catalyst for light driven CO2 hydrogenation

2021/03/09查看更多

Kinetics, reaction pathways, and mechanism investigation for improved  environmental remediation by 0D/3D CdTe/Bi2WO6 Z-scheme catalyst

Kinetics, reaction pathways, and mechanism investigation for improved environmental remediation by 0D/3D CdTe/Bi2WO6 Z-scheme catalyst

Kinetics, reaction pathways, and mechanism investigation for improved environmental remediation by 0D/3D CdTe/Bi2WO6 Z-scheme catalyst

2021/03/01查看更多

Ferroelectric polarization effect promoting the bulk charge separation for enhance the efficiency of photocatalytic degradation

Ferroelectric polarization effect promoting the bulk charge separation for enhance the efficiency of photocatalytic degradation

Ferroelectric polarization effect promoting the bulk charge separation for enhance the efficiency of photocatalytic degradation

2021/02/23查看更多

Nanolayered Heterostructures of N‑Doped TiO2 and N‑Doped Carbon for Hydrogen Evolution

Nanolayered Heterostructures of N‑Doped TiO2 and N‑Doped Carbon for Hydrogen Evolution

Nanolayered Heterostructures of N‑Doped TiO2 and N‑Doped Carbon for Hydrogen Evolution

2020/12/25查看更多

Orderly layer-by-layered TiO2/carbon superstructures based on MXene’s defect engineeringfor efficient hydrogen evolution

Orderly layer-by-layered TiO2/carbon superstructures based on MXene’s defect engineeringfor efficient hydrogen evolution

Orderly layer-by-layered TiO2/carbon superstructures based on MXene’s defect engineeringfor efficient hydrogen evolution

2020/12/25查看更多

A direct charger transfer from interface to surface for the highly efficient spatial separation of electrons and holes: The construction of Ti–C bonded interfaces in TiO2-C composite as a touchstone for photocatalytic water splitting

A direct charger transfer from interface to surface for the highly efficient spatial separation of electrons and holes: The construction of Ti–C bonded interfaces in TiO2-C composite as a touchstone for photocatalytic water splitting

A direct charger transfer from interface to surface for the highly efficient spatial separation of electrons and holes: The construction of Ti–C bonded interfaces in TiO2-C composite as a touchstone for photocatalytic water splitting

2020/12/25查看更多

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