Junchi Ma scite author profile

Boron nitride nanotubes (BNNT) are poised to fill an electrically insulating, high-temperature, highstrength niche. Despite significant progress over the past two decades, BNNTs are not yet synthesized in high enough quantity and quality to permit their use in engineering applications. The next necessary step to make BNNTs accessible for research and applications is to improve the availability of high-quality BNNTs. Here, we present a scalable bulk purification technique that yields high-purity BNNTs. Bulk synthesized material is introduced to a wet oxygen environment at elevated temperatures to remove elemental boron and hexagonal boron nitride impurities with a final yield of purified BNNTs near 10 wt %. This process shows full removal of impurities, as observed by scanning electron microscopy (SEM), cryogenic transmission electron microscopy (TEM), and high-resolution TEM. X-ray photoelectron spectroscopy (XPS) and infrared spectroscopy show minimal BNNT functionalization, while high-resolution TEM shows damage to large-diameter BNNTs.

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Research Progress of a Composite Metal Oxide Catalyst for VOC Degradation

Zhang

Ding

Pan

et al. 2022

Environ. Sci. Technol.

133

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Volatile organic compounds (VOCs) are atmospheric pollutants that have been of concern for researchers in recent years because they are toxic, difficult to remove, and widely sourced and easily cause damage to the environment and human body. Most scholars use low-temperature plasma biological treatment, catalytic oxidation, adsorption, condensation, and recovery techniques to treat then effectively. Among them, catalytic oxidation technology has the advantages of a high catalytic efficiency, low energy consumption, high safety factor, high treatment efficiency, and less secondary pollution; it is currently widely used for VOC degradation technology. In this paper, the catalytic oxidation technology for the degradation of multiple types of VOCs as well as the development of a single metal oxide catalyst have been briefly introduced. We also focus on the research progress of composite metal oxide catalysts for the removal of VOCs by comparing and analyzing the metal component ratio, preparation method, and types of precursors and the catalysts’ influence on the catalytic performance. In addition, the reason for catalyst deactivation and a correlation between the chemical state of the catalyst and the electron distribution are discussed. Development of a composite metal oxide catalyst for the catalytic oxidation of VOCs has been proposed.

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Research progress in catalytic oxidation of volatile organic compound acetone

Ding

Pan

et al. 2021

Journal of Environmental Chemical Engineering

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A novel thiosemicarbazone Schiff base derivative with aggregation-induced emission enhancement characteristics and its application in Hg2+ detection

Feng

Shi

et al. 2016

Sensors and Actuators B: Chemical

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A novel highly selective probe with both aggregation-induced emission enhancement and intramolecular charge transfer characteristics for CN− detection

Xie

Kong

Feng

et al. 2018

Sensors and Actuators B: Chemical

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Junchi Ma

Scalable Purification of Boron Nitride Nanotubes via Wet Thermal Etching

Research Progress of a Composite Metal Oxide Catalyst for VOC Degradation

Research progress in catalytic oxidation of volatile organic compound acetone

A novel thiosemicarbazone Schiff base derivative with aggregation-induced emission enhancement characteristics and its application in Hg2+ detection

A novel highly selective probe with both aggregation-induced emission enhancement and intramolecular charge transfer characteristics for CN− detection

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