H
Huilin Hou
Researcher at Ningbo University of Technology
Publications - 100
Citations - 2304
Huilin Hou is an academic researcher from Ningbo University of Technology. The author has contributed to research in topics: Mesoporous material & Photocatalysis. The author has an hindex of 22, co-authored 80 publications receiving 1380 citations. Previous affiliations of Huilin Hou include Taiyuan University of Technology.
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Highly Efficient Photocatalytic Hydrogen Evolution in Ternary Hybrid TiO2/CuO/Cu Thoroughly Mesoporous Nanofibers.
TL;DR: The results showed that the ternary TiO2/CuO/Cu thoroughly mesoporous nanofibers exhibit a robust stability and the most efficient photocatalytic H2 evolution with the highest release rate, suggesting their promising applications in clean energy production.
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General strategy for fabricating thoroughly mesoporous nanofibers
TL;DR: A general, simple and cost-effective strategy, namely, foaming-assisted electrospinning, for producing mesoporous nanofibers with high purity and enhanced specific surface areas and much higher photocatalytic activity and stability than both the conventional solid counterparts and the commercially available P25.
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One-dimensional WO3/BiVO4 heterojunction photoanodes for efficient photoelectrochemical water splitting
TL;DR: In this paper, a WO3/BiVO4 heterojunction photoanodes were constructed by electrospinning and the BiVO4 outlayers were subsequently deposited around the surface of 1D-WO3 fibers via a solution immersion process.
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Superior thoroughly mesoporous ternary hybrid photocatalysts of TiO2/WO3/g-C3N4 nanofibers for visible-light-driven hydrogen evolution
TL;DR: In this article, a novel and highly efficient visible-light-driven photocatalyst with robust stability, made up of thoroughly mesoporous TiO2/WO3/g-C3N4 ternary hybrid nanofibers, was fabricated through a foaming-assisted electrospinning process followed by a solution dipping process.
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Hydrogenated TiO2 Nanorod Arrays Decorated with Carbon Quantum Dots toward Efficient Photoelectrochemical Water Splitting.
TL;DR: The designed photoanode based on TiO2 nanoarrays with both hydrogenation treatment and surface decoration of carbon quantum dots (CQDs) toward efficient photoelectrochemical water splitting revealed that hydrogenationtreatment could cause the formation of oxygen vacancies to suppress the recombination of photoinduced carriers.