7 Result(s)
within
Fuqiang Huang
Chemistry
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Article
Photochemical Preparation of Anatase Titania Supported Gold Catalyst for Ethanol Synthesis from CO2 Hydrogenation
Hydrogenation of the greenhouse gas CO2 to higher alcohols through catalysis holds great promise for resource transformation in low-carbon energy supply system, but the efficient and selective synthesis of value-...
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Article
Open AccessConductive Black Titania Nanomaterials for Efficient Photocatalytic Degradation of Organic Pollutants
Titanium dioxide (TiO2) as an important semiconductor is widely used in the fields of solar cell, solar thermal collectors, and photocatalysis, but the visible-light power harvest remains insufficient due to the ...
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Article
Reducing Packing Factor of ZnIn2S4 to Promote Photocatalytic Activity
Due to the quite sluggish charge-carrier separation in semiconductor photocatalysts, the photocatalytic activity of these materials is still far inferior than anticipated. Herein, a novel approach to reducing ...
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Article
[Cs6Cl][Ga5GeQ12] (Q = S, Se): two novel porous layered chalcohalides exhibiting two-band emission and ion exchange properties
The salt-inclusion materials have drawn significant attention for their manifold structural chemistry and novel physical/chemical properties. Herein, two new salt-inclusion chalcohalides, [Cs6Cl][Ga5GeQ12] (Q = S...
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Article
Delocalization state-induced selective bond breaking for efficient methanol electrosynthesis from CO2
Methanol manufacturing by CO2 electrolysis is a potential near-zero-emission route to carbon neutrality, but most of the previous studies in aqueous electrolytes have achieved poor methanol selectivity and yield....
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Article
Unlocking efficient energy storage via regulating ion and electron-active subunits: an (SbS)1.15TiS2 superlattice for large and fast Na+ storage
Alloying-type metal sulfides with high sodiation activity and theoretical capacity are promising anode materials for high energy density sodium ion batteries. However, the large volume change and the migratory...
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Article
In-situ construction of PDOL electrolyte with dual-reinforced stable interface for high-voltage lithium metal batteries
In-situ polymerized electrolytes significantly enhance the interfacial compatibility of lithium metal batteries (LMBs). Typically, in-situ polymerized 1,3-dioxolane (PDOL) exhibits low interfacial resistance, yet...
