科研成果

2022

Li S, Sanhueza P, Lee CW, Zhang Q, Beuther H, Palau A, Liu H-L, Smith HA, Liu HB, Jiménez-Serra I, et al. ALMA Observations of NGC 6334S. II. Subsonic and Transonic Narrow Filaments in a High-mass Star Formation Cloud. \apj. 2022;926:165.

Dutta S, Lee C-F, Johnstone D, Liu T, Hirano N, Liu S-Y, Lee J-E, Shang H, Tatematsu K'ichi, Kim K-T, et al. ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Detection of a Dense SiO Jet in the Evolved Protostellar Phase. \apj. 2022;925:11.

Lundh JS, Masten HN, Sasaki K, Jacobs AG, Cheng Z, Spencer J, Chen L, Gallagher J, Koehler AD, Konishi K. AlN-capped β-(AlxGal-x)2O3/Ga2O3 heterostructure field-effect transistors for near-junction thermal management of next generation power devices. 2022 Device Research Conference (DRC). 2022:1-2.

刘晓娟王晨琳 &吴鑫梅. Altmetrics热点论文的利益相关者信息交互模式研究. 情报杂志. 2022;41.

Xu Y, Han Y, Wang Y, Gong J, Li H, Wang T, Chen X, Chen W, Fan Y, Qiu X, et al. Ambient Air Pollution and Atherosclerosis: A Potential Mediating Role of Sphingolipids. Arteriosclerosis, Thrombosis, and Vascular Biology [Internet]. 2022;42:906–918. 访问链接

Fehér O, Tóth VL, Kraus A, Bőgner R, Kim G, Liu T, Tatematsu K'ichi, Tóth V, Eden DJ, Hirano N, et al. Ammonia Emission in Various Star-forming Environments: A Pilot Study of Planck Galactic Cold Clumps. \apjs. 2022;258:17.

Ma J, Huang H*. Amorphous Kane-Mele model in disordered hyperuniform two-dimensional networks. Phys. Rev. B [Internet]. 2022;106:195150. 访问链接

Tan* X-C, Dai H-C, Gu B-H, Huang C, Zhu K-W, Ma X-T, Yan H-S, Liu X-Y, Zhu Y-L. Analysis on the key findings related to emission trends and drivers from the IPCC AR6 report. Climate Change Research [Internet]. 2022;18:153. 访问链接

Tan X, Dai H, Gu B, Chen H, Zhu K, Ma X, Yan H, Liu X, Zhu Y. Analysis on the key findings related to emission trends and drivers from the IPCC AR6 report. Climate Change Research [Internet]. 2022;18:1–8. 访问链接

et al Sun, BH ; Sun RQG; K;. Analyzing the mechanism among rural financing constraint mitigation, agricultural development, and carbon emissions in China: A sustainable development paradigm. ENERGY & ENVIRONMENT. 2022.

Li D, Pan M, Wang C, Huang* H. Angular momentum-invoked band inversions in mirror symmetry-protected topological states. Phys. Rev. B [Internet]. 2022;105:195133. 访问链接

Wang H, Ma X, Tan Z, Wang H, Chen X, Chen S, Gao Y, Liu Y, Liu Y, Yang X, et al. Anthropogenic monoterpenes aggravating ozone pollution. National Science Review. 2022.

Jia, J. CZZJ. The Application and Effect of Smart Phones and an Online Tutoring System CSIEC for Vocabulary Drilling through Nine Semesters. Int. J. Mobile Learning and Organisation. 2022;16(3):248-265.

Ji H, Ni J, Zhao D, Liu W. Application of Titanate Nanotubes for Photocatalytic Decontamination in Water: Challenges and Prospects. ACS ES&T Engineering [Internet]. 2022;2:1015-1038. 访问链接 Abstract

Photocatalysis is an efficient technology for water decontamination and purification. Development of photocatalysts with high activity becomes the key to this research area. In recent years, titanate nanotubes (TNTs), derived from TiO2 nanoparticles through hydrothermal treatment with NaOH/KOH, have been attracting great attention. TNTs are composed of edge-sharing [TiO6] octahedrons as the skeleton and Na+/H+/K+ in the interlayers, which exhibit a uniform tubular microstructure, a large specific surface area, high photoelectric conversion properties, and good stability. Therefore, TNTs and their modified materials are widely used for removal of heavy metals and organic contaminants through photocatalytic oxidation or reduction. In this perspective, we systematically summarize cutting-edge research on the application of TNT-based photocatalysts in the water treatment area, illustrate the challenges for fundamental research and practical applications, and reveal the critical knowledge gaps and research needs for the future. In particular, preparation and specific properties of TNT-based photocatalysts are presented. Modification of TNTs to promote photocatalytic activity is discussed as well as their applications for contaminants removal from water. The latest advances in theoretical calculations on materials and contaminants in this photocatalysis system are clarified. In the future, strategic programs on both fundamental research and practical applications of TNT-based photocatalysts are proposed.

Xiao Y, Hu M, Li X, Zong T, Xu N, Hu S, Zeng L, Chen S, Song Y, Guo S, et al. Aqueous secondary organic aerosol formation attributed to phenols from biomass burning. Science of the Total EnvironmentScience of the Total Environment. 2022;847.

Xiao Y, Hu M*. Aqueous secondary organic aerosol formation attributed to phenols from biomass burning. SCIENCE OF THE TOTAL ENVIRONMENT [Internet]. 2022;847. 访问链接

SHEN Z, WANG Y, Zhang X, Wang Y. Area-efficient Power-rail ESD Clamp Circuit with False-trigger Immunity in 28nm CMOS Process. IEEE Journal of the Electron Devices Society [Internet]. 2022;10:876-884. 访问链接

et al Wang T, Gao K. Assessing the nexus between fiscal policy, COVID-19, and economic growth. Environmental Science and Pollution Research. 2022.

Kang M, Zhang J, Cheng Z, Guo S, Su F, Hu J, Zhang H, Ying Q. Assessment of Sectoral NOx Emission Reductions During COVID-19 Lockdown Using Combined Satellite and Surface Observations and Source-Oriented Model Simulations. Geophysical Research LettersGeophysical Research Letters. 2022;49.

Li S, Wu W, Wang G, Zhang X, Guo Q, Wang B, Cao S, Yan M, Pan X, Xue T, et al. Association between exposure to air pollution and risk of allergic rhinitis: A systematic review and meta-analysis. Environmental researchEnvironmental research. 2022;205:112472-112472.

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