Ze-Yong Zhao scite author profile

TiO2-modified oxygen-functionalized activated carbon (TiO2@OAC)-loaded nickel-based catalysts (Ni/TiO2@OAC) were synthesized and applied in the hydrogenation of chloronitrobenzene (CNB) to chloroanilines (CANs). The characterization results indicate that introduction of TiO2 restrains nickel nanoparticles sintering and improves the stability of the catalysts by strong metal–support interaction. Additionally, the X-ray photoelectron spectroscopy results suggest that the electron donating effect of Ti3+ produces electron-rich Ni (Niδ−), which inhibits C–Cl moiety adsorption. The formed Niδ− species might induce electron-rich hydrogen (H–) generation which facilitates a nucleophilic attack on −NO2 rather than an electrophilic attack on the C–Cl bond. Furthermore, the electron-donating ability of −NH2 could be reduced because of the interaction between −OH in TiO2@OAC and −NH2 in CAN. Hence, the dechlorination is inhibited and the selectivity to m-CAN is up to 99.0%. The catalytic performance of Ni/TiO2@OAC could be maintained after five cycles.

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A novel inherently flame-retardant thermoplastic polyamide elastomer

Zhao

et al. 2020

Chemical Engineering Journal

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Rigid and Fire-Resistant All-Biomass Aerogels

Wang

Zhao

Guo

et al. 2022

ACS Sustainable Chem. Eng.

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Improving the mechanical properties and fire resistance at the same time has become a tough challenge in the study of high-performance biomass foamlike materials. To tackle this dilemma, fully biomass-based aerogels based on renewable porcine gelatin (PG) and phytic acid sodium salt (PA) were designed through a green freeze-drying method. Owing to the low flammability and the strong interaction of these two compounds, the resulting aerogels exhibited both high fire resistance and extra-strong strength, offering a novel solution to the aforementioned difficulty. Benefitting from the design of the strong physical cross-linking structure of PG, PA, and clay, the compressive modulus value of the aerogel was as high as 25.1 MPa, nearly 180 times that of the poly(vinyl alcohol) control. These biobased aerogels exhibited extremely low flammability and superior smoke suppression, that is, the limiting oxygen index values of the aerogel were as high as 50.1%, and the total smoke release decreased from 213 to 13.5 m2 in comparison with those of commercial PU foam. All the results indicated that green aerogels with excellent combination properties will be promising in the future.

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Ze-Yong Zhao

Flame-retarded thermoplastic polyurethane elastomer: From organic materials to nanocomposites and new prospects

Novel piperazine-containing oligomer as flame retardant and crystallization induction additive for thermoplastics polyurethane

Non-Noble Metal Ni Nanoparticles Supported on Highly Dispersed TiO₂-Modified Activated Carbon as an Efficient and Recyclable Catalyst for the Hydrogenation of Halogenated Aromatic Nitro Compounds under Mild Conditions

A novel inherently flame-retardant thermoplastic polyamide elastomer

Rigid and Fire-Resistant All-Biomass Aerogels

Contact Info

Product

Resources

About

Ze-Yong Zhao

Flame-retarded thermoplastic polyurethane elastomer: From organic materials to nanocomposites and new prospects

Novel piperazine-containing oligomer as flame retardant and crystallization induction additive for thermoplastics polyurethane

Non-Noble Metal Ni Nanoparticles Supported on Highly Dispersed TiO2-Modified Activated Carbon as an Efficient and Recyclable Catalyst for the Hydrogenation of Halogenated Aromatic Nitro Compounds under Mild Conditions

A novel inherently flame-retardant thermoplastic polyamide elastomer

Rigid and Fire-Resistant All-Biomass Aerogels

Contact Info

Product

Resources

About

Non-Noble Metal Ni Nanoparticles Supported on Highly Dispersed TiO₂-Modified Activated Carbon as an Efficient and Recyclable Catalyst for the Hydrogenation of Halogenated Aromatic Nitro Compounds under Mild Conditions