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Wenjun Liu
Researcher at Fuzhou University
Publications - 14
Citations - 2505
Wenjun Liu is an academic researcher from Fuzhou University. The author has contributed to research in topics: Photocatalysis & High-resolution transmission electron microscopy. The author has an hindex of 12, co-authored 14 publications receiving 1985 citations.
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Journal ArticleDOI
Fe-Based MOFs for Photocatalytic CO2 Reduction: Role of Coordination Unsaturated Sites and Dual Excitation Pathways
TL;DR: In this paper, a series of earth-abundant Fe-containing MOFs (MIL-101(Fe), MIL-53(Fe) and MIL-88B(Fe)) showed photocatalytic activity for CO2 reduction to give formate under visible light irradiation.
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Studies on Photocatalytic CO2 Reduction over NH2‐Uio‐66(Zr) and Its Derivatives: Towards a Better Understanding of Photocatalysis on Metal–Organic Frameworks
TL;DR: This study provides a better understanding of photocatalytic CO2 reduction over MOF-based photocATalysts and also demonstrates the great potential of using MOFs as highly stable, molecularly tunable, and recyclable photoc atalysts inCO2 reduction.
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Introduction of a mediator for enhancing photocatalytic performance via post-synthetic metal exchange in metal–organic frameworks (MOFs)
TL;DR: Ti-substituted NH2-Uio-66(Zr/Ti) prepared by using a post-synthetic exchange (PSE) method showed enhanced photocatalytic performance for both CO2 reduction and hydrogen evolution under visible light.
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Noble Metals Can Have Different Effects on Photocatalysis Over Metal–Organic Frameworks (MOFs): A Case Study on M/NH2-MIL-125(Ti) (M=Pt and Au)
Dengrong Sun,Wenjun Liu,Yanghe Fu,Yanghe Fu,Zhenxing Fang,Fangxiang Sun,Xianzhi Fu,Yongfan Zhang,Zhaohui Li +8 more
TL;DR: The elucidation of the mechanism on the photocatalysis over M/NH2-MIL-125(Ti) can provide some guidance in the development of new photocatalysts based on MOF materials and demonstrates the potential of using noble metal-doped MOFs in photoc atalytic reactions involving hydrogen as a reactant, like hydrogenation reactions.
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Exploring the Different Photocatalytic Performance for Dye Degradations over Hexagonal ZnIn2S4 Microspheres and Cubic ZnIn2S4 Nanoparticles
TL;DR: The results reveal that hexagonal ZnIn(2)S(4) microspheres are composed of nanolamella petals growing in the ab plane, i.e., the negative (0001) S plane, which makes the hole-directed photocatalytic de-ethylation of RhB more expedient over hexagonal X-ray diffraction-spheres.