Jiawei Ye scite author profile

Highly porous boron nitride (BN) composed of a flexible network of hexagonal BN nanosheets was synthesized via thermal treatment of a boric acid/urea mixture. The as-prepared sponge-like BN displayed fast adsorption rates and ultrahigh adsorption capacities for gaseous formaldehyde (HCHO), e.g., 19 mg/g in equilibrium with approximately 20 ppm of HCHO in air, which is an order of magnitude higher than those of other tested materials, including commercial hexagonal BN and various metal oxides. The superb HCHO adsorption performance of the porous BN is mainly due to its large specific surface area (627 m 2 /g), as well as the abundant surface hydroxyl and amine groups. Moreover, chemisorption can occur on the BN layers and contribute to the high HCHO uptake capacity via Cannizzaro-type disproportionation reactions, during which HCHO is transformed into less toxic formic acid and methanol. This porous BN is a promising adsorbent for indoor HCHO removal and may serve as the support for highly efficient HCHO decomposition catalysts.

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Three-dimensional carbon foam supported MnO2/Pt for rapid capture and catalytic oxidation of formaldehyde at room temperature

Zhou

Yao

et al. 2020

Applied Catalysis B: Environmental

174

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Room-temperature formaldehyde catalytic decomposition

Wang

Fan

et al. 2020

Environ. Sci.: Nano

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Flexible Mg–Al layered double hydroxide supported Pt on Al foil for use in room-temperature catalytic decomposition of formaldehyde

Wageh

Al-Ghamdi

et al. 2016

RSC Adv.

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Jiawei Ye

Few-Layered Graphene-like Boron Nitride: A Highly Efficient Adsorbent for Indoor Formaldehyde Removal

Three-dimensional carbon foam supported MnO2/Pt for rapid capture and catalytic oxidation of formaldehyde at room temperature

Room-temperature formaldehyde catalytic decomposition

Flexible Mg–Al layered double hydroxide supported Pt on Al foil for use in room-temperature catalytic decomposition of formaldehyde

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