Zongsheng Zou scite author profile

The ever-growing modern industry promotes the evolution of gas sensors for environmental monitoring and safety inspection. However, traditional chemiresistive gas sensors still suffer from drawbacks of high power consumption and detection limit, mainly due to the insufficient charge-transfer ability of gas-sensing materials. Here, an optoelectronic gas sensor that can detect ppb-level ammonia at room temperature is constructed based on core–shell g-C3N4@WO3 heterocomposites. The growth of WO3 nanosheets on graphitic g-C3N4 nanosheets was precisely controlled, achieving well-defined g-C3N4@WO3 core–shell architectures. Based on the synergism between light activation and the amplification effect of in situ-formed heterojunctions, the g-C3N4@WO3 sensor exhibits improved sensing characteristics for reliable ammonia detection. As compared with the pristine g-C3N4 sensor, the sensor response toward ammonia is enhanced 21 times and the detection limit is reduced from 308 to 108 ppb. This work provides a successful approach for the in situ formation of core–shell g-C3N4@WO3 interfacial composites and offers an easy solution for the rational design of advanced optoelectronic gas sensors.

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Efficient Isolation and Characterization of a Cellulase Hyperproducing Mutant Strain of Trichoderma reesei

Zou¹,

Zhao²,

Zhang³

et al. 2018

Journal of Microbiology and Biotechnology

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A cellulase hyperproducing mutant strain, JNDY-13, was obtained using the ARTP mutation system and with Trichoderma reesei RUT-C30 as the parent strain. Whole-genome sequencing of JNDY-13 confirmed that 105 of the 653 SNPs were point mutations, 336 mutations were deletions and 165 were insertions. Moreover, 99 mutations were insertions and duplications. Among all the mutations, the one that occurred in the galactokinase gene might be related to the production of cellulases in T. reesei JNDY-13. Moreover, the up-regulation of cellulase and hemicellulase genes in JNDY-13 might contribute to higher cellulases production. Under optimal conditions, the highest cellulase activity by batch fermentation reached 4.35 U/ml, and the highest activity of fed-batch fermentation achieved was 5.40 U/ml.

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Comprehensive utilization and conversion of lignocellulosic biomass for the production of long chain α,ω-dicarboxylic acids

Fang

Zhao

Kong

et al. 2016

Energy

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Zongsheng Zou

Efficient bioethanol production from sodium hydroxide pretreated corn stover and rice straw in the context of on-site cellulase production

A novel and efficient bioprocess from steam exploded corn stover to ethanol in the context of on-site cellulase production

Room-Temperature Optoelectronic Gas Sensor Based on Core–Shell g-C₃N₄@WO₃ Heterocomposites for Efficient Ammonia Detection

Efficient Isolation and Characterization of a Cellulase Hyperproducing Mutant Strain of Trichoderma reesei

Comprehensive utilization and conversion of lignocellulosic biomass for the production of long chain α,ω-dicarboxylic acids

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Zongsheng Zou

Efficient bioethanol production from sodium hydroxide pretreated corn stover and rice straw in the context of on-site cellulase production

A novel and efficient bioprocess from steam exploded corn stover to ethanol in the context of on-site cellulase production

Room-Temperature Optoelectronic Gas Sensor Based on Core–Shell g-C3N4@WO3 Heterocomposites for Efficient Ammonia Detection

Efficient Isolation and Characterization of a Cellulase Hyperproducing Mutant Strain of Trichoderma reesei

Comprehensive utilization and conversion of lignocellulosic biomass for the production of long chain α,ω-dicarboxylic acids

Contact Info

Product

Resources

About

Room-Temperature Optoelectronic Gas Sensor Based on Core–Shell g-C₃N₄@WO₃ Heterocomposites for Efficient Ammonia Detection