Aiming Huang scite author profile

A chitosan (CTN)/silica-supported nanosized palladium catalyst was obtained from a silica-supported chitosan palladium complex through a complex transition method. An adsorption model was employed to simplify the structure of the di-supporter. It was indicated that when the polymer coil adsorbed on the silica surface with even a monolayer the catalytic activity would reach an optimum value, and different situations of the, nanosized palladium particles would cause a different catalysis. The molar ratio of the chitosan structure unit to the palladium would affect the metal's size, which therefore influenced its catalytic activity. The experimental results corresponded with the inferences.

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Synthesis and characterization of CdS nanocrystals embedded on solid electrolyte films

Liu

Chen

et al. 2002

J of Applied Polymer Sci

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ABSTRACT:In this article nano-sized CdS crystal embedded in a PEO matrix was successfully prepared by a complex transformation method that is universal for preparing nanosized compounds containing transition metals. The size of embedded CdS particles was in the nanoscale from 2 to 10 nm determined by X-ray diffusion. The nanosized CdS displayed the expected blue shift of the onset absorbance in the UV spectrum. The amount of blue shift depends upon the dipping time of the PEOcadmium complex film in a sodium sulfide solution as well as its concentration. The most effective means for adjusting the size of CdS nanocrystals is to change the ratio of the oxygen along with the PEO chain to the cadmium ion in the complex film. The alkali salt in the film would contribute to the conductivity of the composite film.

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A copper interface promotes the transformation of nickel hydroxide into high-valent nickel for an efficient oxygen evolution reaction

Zhou

Huang

Wang

et al. 2023

Inorg. Chem. Front.

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Hydrogenation catalysis of nanosized palladium supported by polymer/silica disupporter. II. Effects of the characteristics of the catalyst on hydrogenation

Liu

Huang

Chen

et al. 2003

J of Applied Polymer Sci

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A series of nanosized palladium catalysts supported by silica and polymers, prepared by the complex transformation method, were used for catalytic hydrogenation of nitrobenzene. It was found that both the thickness of the polymer layer and the size of the palladium particles would affect the catalysis. The results indicated that the reaction rate would be optimal when a polymer supporter formed a single layer on the silica surface. The catalytic activity of the catalyst would not simply increase with the decrease of the size of palladium particles. The effects of other conditions on the catalytic properties, such as the order during preparation of the catalyst, solvent, and the pH values, were also discussed.

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Aiming Huang

An artificial neural networking model for the prediction of post‐hepatectomy survival of patients with early hepatocellular carcinoma

Synthesis and property of nanosized palladium catalysts protected by chitosan/silica

Synthesis and characterization of CdS nanocrystals embedded on solid electrolyte films

A copper interface promotes the transformation of nickel hydroxide into high-valent nickel for an efficient oxygen evolution reaction

Hydrogenation catalysis of nanosized palladium supported by polymer/silica disupporter. II. Effects of the characteristics of the catalyst on hydrogenation

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