Guihao Zhong scite author profile

This review explores the features and applications of porous metal–organic framework MIL-100(M) (M = Cr, Fe, Sc, Al, V). With large pores, BET surface area and high thermal, chemical stability, MIL-100 has aroused great interest of scientists and become one of the most popular MOFs. MIL-100 MOFs containing different metallic units have different properties and thus have different applications. Among MIL-100(M) (M = Cr, Fe, Sc, Al, V), Fe-based MIL-100 possesses unique properties and has got relatively many reports. With many excellent properties, MIL-100 materials show a great performance in different fields and become promising adsorbents, catalysts, and drug carriers.

show abstract

Trace-doped metal–organic gels with remarkably enhanced luminescence

Feng

Zeng

Zou

et al. 2017

RSC Adv.

View full text Add to dashboard Cite

show abstract

Incorporation of Functional Groups Expands the Applications of UiO‐67 for Adsorption, Catalysis and Thiols Detection

2018

View full text Add to dashboard Cite

This review explores the structures and properties of UiO‐67 and its derivatives as well as the corresponding synthetic and characterization method. With remarkably high surface area, high thermal and chemical stabilities and excellent mechanical properties, UiO‐67 is very promising and competitive among kinds of metal‐organic frameworks. UiO‐67 not only has good performance on some gases adsorption and storage and removal of organophosphorus pesticides, but also can act as the catalyst in the nerve‐agent hydrolysis. More importantly, by introducing various functional organic linkers into UiO‐67 framework or incorporating different metal complexes and other functional groups, the resulting derivatives of UiO‐67 can improve its water stability, show enhanced gases adsorption properties and expand the application of UiO‐67 such as catalytic hydrolysis of phosphate‐ester, catalytic detoxication of chemical warfare agents, catalytic promotion of Friedel–Crafts reactions, Suzuki–Miyaura cross‐coupling reaction, C−C and C−H bond activation reactions and a series of photocatalytic reactions, catalytic addition of asymmetric aldol, micromotor engines, detection of some biological thiols and so on.

show abstract

Biomorphic CdS/Cd Photocatalyst Derived from Butterfly Wing for Efficient Hydrogen Evolution Reaction

Zhong

Liu

2022

Adv Materials Inter

View full text Add to dashboard Cite

as photocatalysts for hydrogen evolution reaction (HER). [5] For instance, TiO 2 , one of widely used photocatalysts, can absorb ultraviolet light to generate electron-hole pairs in the hydrogen evolution reaction. [6] However, the wide band gap (≈3.2 eV) for TiO 2 limits the utilization of sunlight as well as its photocatalytic activity. [7] Among inorganic photocatalysts, CdS is considered as one of the prominent materials for the visible light-driven water splitting because of the efficient utilization of solar energy and narrow band gap (≈2.4 eV). [8] Even so, it is generally difficult to maintain the structure stability of the pure CdS particles under reaction conditions due to oxygen-induced photocorrosion, which leads to low photocatalytic activity and stability and limits their application. [9] Meanwhile, a large number of studies show the rapid recombination of the photogenerated electron-hole pairs inside CdS photocatalyst, leading to low charge carrier use efficiency. [10] In order to promote the transfer and effective utilization of charge carriers, some noble metals (such as Pt) are loaded on the surface of CdS and construct Schottky junction heterostructures. [11] The scarcity and high cost of noble metals restricts their large-scale application, which motivates the search for low-cost alternatives. Cd, a nonnoble metal with excellent electrical conductivity, attracts much interest in the construction of Schottky junction photocatalysts with CdS. [12] Yu et al. prepared a Schottky junction photocatalyst with CdS and Cd clusters by post-treatment technique. [10] Wand et al. developed a photocatalytic reduction method to construct a Ag 2 S/CdS/Cd system for UV-vis-NIR photocatalytic hydrogen evolution. [13] These relevant researches give an inspiration that Cd metal can act as an electron trap to accelerate the charge carriers transfer after being composited with CdS.Recently, metal-organic frameworks (MOFs), newly developed materials formed by metal clusters and organic ligands, have been attractive materials in the field of adsorption, catalysis, electrochemistry, and so on. [14,15] In particular, MOFs have potential application in the visible light-driven hydrogen production with rich active sites, highly stable structure and large specific surface area. [3,16] It is noticed that MOF templatedirected derivatives which can precisely manipulate the dispersion states of the active sites are favorable for improving the photocatalytic activity as well as stability. [17] Li et al. prepared Photocatalytic splitting of water into hydrogen has attracted growing concerns as a promising strategy for the development of clean and renewable energy sources. Fabricating novel photocatalysts with high H 2 evolution rate and good cyclic stability is extremely vital for practical applications. Herein, a novel CdS/Cd 2 SO 4 (OH) 2 composite derived from cadmium nitrate doped Cd-MOF is deposited on the surface of butterfly wings with reticular hierarchical structure for efficient hydrogen evolution reaction. The combin...

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Guihao Zhong

The application of ZIF-67 and its derivatives: adsorption, separation, electrochemistry and catalysts

Applications of Porous Metal–Organic Framework MIL-100(M) (M = Cr, Fe, Sc, Al, V)

Trace-doped metal–organic gels with remarkably enhanced luminescence

Incorporation of Functional Groups Expands the Applications of UiO‐67 for Adsorption, Catalysis and Thiols Detection

Biomorphic CdS/Cd Photocatalyst Derived from Butterfly Wing for Efficient Hydrogen Evolution Reaction

Contact Info

Product

Resources

About