Heliang Wang scite author profile

With the emerging of sustainability, the fabrication of effective and eco-friendly agents for rubber industry has attracted extensive attention. In this study, a novel and nontoxic titanium dioxide-based vulcanization accelerator (xanthate-modified nanotitanium dioxide (TDSX)) with excellent antibacterial performance, for the first time, was synthesized under the catalyst of ceric ammonium nitrate. Notably, the thermal stability of xanthate was greatly enhanced after being grafted on titanium dioxide (TiO2) nanoparticles, in which the activation energy was increased from 6.4 to 92.5 kJ/mol, enabling the obtained TDSX with multiple functions, mainly consisting of fabulous vulcanization-promoting effects, reinforcing effects, antibacterial properties, and anti-ultraviolet aging effects for natural rubber (NR). Simultaneously, the TDSX can be effectively and uniformly dispersed in the rubber matrix along with the developed interface interaction between TDSX particles and rubber matrix. Compared to the traditional accelerators 2-mercaptobenzothiazole (M) system, the tensile strength and the tearing strength of NR/TDSX was improved by 26.3 and 40.4%, respectively. Potentially, our work for preparing green vulcanization accelerator can provide a new design strategy for multifunctional high performance elastomer materials.

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Xanthate-modified silica as a novel multifunctional additive for properties improvement of natural rubber

Zhu

Wang

et al. 2021

Composites Science and Technology

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Highly Strong and Damage-Resistant Natural Rubber Membrane via Self-Assembly and Construction of Double Network

Wang

Meng

et al. 2022

Membranes

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Natural rubber latex (NRL) is commonly employed to manufacture medical protective appliances. However, the characteristics of weakness and fragility of NRL membranes limit their further application. To achieve excellent strength and damage-resistance of the rubber membrane, this work reported a facile core–shell structure construction strategy via self-assembly with modified sodium lignosulfonate (MSLS) and NRL to create a tough membrane. The double network can be formed after introducing polyamide epichlorohydrin resin (PAE) into the NRL membrane. Specifically, the first robust MSLS-PAE network can break in advance to dissipate applied energy, thereby achieving high fracture energy and tensile strength of ~111.51 kJ m−2 and ~37 MPa, respectively, which overtakes numerous soft materials. This work facilitates more studies on latex/lignin-based products with high performance and good stability for the functional application of biopolymer.

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Mussel-inspired polydopamine functionalized silica as an effective antioxidant and reinforcer for elastomers

Wang

Guo

Liu

et al. 2022

Composites Communications

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Heliang Wang

Highly efficient uranium adsorption by salicylaldoxime/polydopamine graphene oxide nanocomposites

Xanthate-modified nanoTiO₂ as a novel vulcanization accelerator enhancing mechanical and antibacterial properties of natural rubber

Xanthate-modified silica as a novel multifunctional additive for properties improvement of natural rubber

Highly Strong and Damage-Resistant Natural Rubber Membrane via Self-Assembly and Construction of Double Network

Mussel-inspired polydopamine functionalized silica as an effective antioxidant and reinforcer for elastomers

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Heliang Wang

Highly efficient uranium adsorption by salicylaldoxime/polydopamine graphene oxide nanocomposites

Xanthate-modified nanoTiO2 as a novel vulcanization accelerator enhancing mechanical and antibacterial properties of natural rubber

Xanthate-modified silica as a novel multifunctional additive for properties improvement of natural rubber

Highly Strong and Damage-Resistant Natural Rubber Membrane via Self-Assembly and Construction of Double Network

Mussel-inspired polydopamine functionalized silica as an effective antioxidant and reinforcer for elastomers

Contact Info

Product

Resources

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Xanthate-modified nanoTiO₂ as a novel vulcanization accelerator enhancing mechanical and antibacterial properties of natural rubber