High-throughput synthesis and phase transition characteristics controlling of VO2(M) nanoparticles via an orthogonal optimization route
暂无分享,去创建一个
Youliang Cheng | Mengyao Li | Jiarui Zhao | Hanzhi Han | Tan Mao | Jie Liu | Qing Zhang | Changqing Fang
[1] Youliang Cheng,et al. Controllable Morphology, Structure and Optical Properties of W-Eu Co-doped VO2 with a Tunable Phase Transition Temperature and Band Gap , 2022, Journal of Materials Research and Technology.
[2] Yanjie Hu,et al. Engineering V2O3 nanoarrays with abundant localized defects towards high-voltage aqueous supercapacitor , 2022, Journal of Materials Chemistry A.
[3] Mengjiao Tian,et al. A liquid approach for the synthesis of M phase VO2 nanocrystals: Facile synthesis, characterization and reaction mechanism , 2021, Ceramics International.
[4] Xin Ma,et al. Photothermal polydopamine coated VO2 nanoparticle thin film with enhanced optical property and stability , 2021, Vacuum.
[5] Hao Li,et al. Nb-doped VO2 thin films with enhanced thermal sensing performance for uncooled infrared detection , 2021, Materials Research Bulletin.
[6] Jingbo Li,et al. Size-Controllable M-Phase VO2 Nanocrystals for Flexible Thermochromic Energy-Saving Windows , 2021, ACS Applied Nano Materials.
[7] Cao Tien Khoa,et al. Synthesis of VO2 thin films from vanadium powder and determination of room-temperature NH3 sensing properties , 2021, Journal of Materials Science: Materials in Electronics.
[8] Y. Menceloglu,et al. Synthesis and Morphological Control of VO2 Nanostructures via a One-Step Hydrothermal Method , 2021, Nanomaterials.
[9] U. Salazar-Kuri,et al. Simple thermal decomposition synthesis of monoclinic VO2 , 2021, Applied Physics A.
[10] Lin Li,et al. A new tunnel-type V4O9 cathode for high power density aqueous zinc ion batteries , 2021, Inorganic Chemistry Frontiers.
[11] Sheng Chen,et al. A shape-memory V3O7·H2O electrocatalyst for foldable N2 fixation , 2021 .
[12] S. Walia,et al. Phase change vanadium dioxide light sensors , 2020 .
[13] Jonghoon Kim,et al. Binder-free coaxially grown V6O13 nanobelts on carbon cloth as cathodes for highly reversible aqueous zinc ion batteries , 2020 .
[14] M. Maaza,et al. VO2-based active tunable emittance thermochromic flexible coatings. , 2020, Journal of the Optical Society of America. A, Optics, image science, and vision.
[15] Yang Yuan,et al. The effect of temperature on the properties of hydrothermally synthesized VO2 nanostructures and electro-induced MIT , 2020, Journal of Materials Science: Materials in Electronics.
[16] J. Chen,et al. Effects of microdefects and grain size on the phase transition properties of Nano-VO2(M) , 2020 .
[17] Xiuchen Zhao,et al. Synthesis, characterization and electromagnetic absorbing performance of multi-step petaloid morphology VO2(M) , 2020 .
[18] Xiujian Zhao,et al. Facile synthesis of VO2 (D) and its transformation to VO2(M) with enhanced thermochromic properties for smart windows , 2020 .
[19] Le Yuan,et al. Phase- and shape-controlled synthesis of VO2 by a hydrothermal-calcination method , 2020, Vacuum.
[20] C. Fisher,et al. Characterisation of the temperature-dependent M1 to R phase transition in W-doped VO2 nanorod aggregates by Rietveld refinement and theoretical modelling. , 2020, Physical chemistry chemical physics : PCCP.
[21] Yuanyuan Luo,et al. Optical switching and nanothermochromic studies of VO2(M) nanoparticles prepared by mild thermolysis method , 2020 .
[22] S. Dai,et al. Rapid gas-assisted exfoliation promises V2O5 nanosheets for high performance lithium-sulfur batteries , 2020 .
[23] H. Afify,et al. Influence of annealing on the optical properties of monoclinic vanadium oxide VO2 prepared in nanoscale by hydrothermal technique , 2019, Physica E: Low-dimensional Systems and Nanostructures.
[24] V. Balakrishnan,et al. Switchable Friction across Insulator–Metal Transition in VO2 , 2019, Advanced Engineering Materials.
[25] J. Rayappan,et al. Stalling behaviour of chloride ions: A non-enzymatic electrochemical detection of α-Endosulfan using CuO interface , 2019, Sensors and Actuators B: Chemical.
[26] Lei Xiao,et al. One-step rapid hydrothermal synthesis of monoclinic VO2 nanoparticles with high precursors concentration , 2019, Journal of Sol-Gel Science and Technology.
[27] Zhan-hong Yang,et al. Monoclinic VO2(D) hollow nanospheres with super-long cycle life for aqueous zinc ion batteries. , 2019, Nanoscale.
[28] Yifu Zhang. Synthesis and phase transition properties of VO 2 (M) hollow spheres with large thermal hysteresis width , 2019, Micro & Nano Letters.
[29] J. Boo,et al. Selective near infrared transmittance control of thermochromic VO2 thin films through colloidal lithography , 2019, Applied Surface Science.
[30] Pengcheng Chen,et al. Joule heating driven infrared switching in flexible VO2 nanoparticle films with reduced energy consumption for smart windows , 2019, Journal of Materials Chemistry A.
[31] Pawan Kumar,et al. Gram scale synthesis of monoclinic VO2 microcrystals by hydrothermal and argon annealing treatment , 2019, Ceramics International.
[32] B. Liu,et al. VO2(A) nanorods: One-pot synthesis, formation mechanism and thermal transformation to VO2(M) , 2018, Ceramics International.
[33] Haifeng Cheng,et al. Inkjet printing of vanadium dioxide nanoparticles for smart windows , 2018 .
[34] Ping Jin,et al. Recent advances in VO2-based thermochromic composites for smart windows , 2018 .
[35] Yang Zhou,et al. Vanadium dioxide for energy conservation and energy storage applications: Synthesis and performance improvement , 2018 .
[36] Scott A. Mathews,et al. Ultrafast Phase Transition Dynamics in Strained Vanadium Dioxide Films , 2017 .
[37] M. Maaza,et al. Studies on structural and optical properties of ZrO2 nanopowder for opto-electronic applications , 2017 .
[38] Li Zhao,et al. Tungsten-doped vanadium dioxide thin films as smart windows with self-cleaning and energy-saving functions , 2017 .
[39] B. Sone. Physical & Electrochemical Properties of Green Synthesized Bunsenite NiO Nanoparticles via Callistemon Viminalis’ Extracts , 2016 .
[40] Haifeng Cheng,et al. Thermochromic properties of W-doped VO 2 thin films deposited by aqueous sol-gel method for adaptive infrared stealth application , 2016 .
[41] M. Maaza,et al. Thermochromic VO 2 on Zinnwaldite Mica by pulsed laser deposition , 2014 .
[42] J. B. K. Kana,et al. Submicronic VO2–PVP composites coatings for smart windows applications and solar heat management , 2014 .
[43] J. B. K. Kana,et al. Phase transition in a single VO2 nano-crystal: potential femtosecond tunable opto-electronic nano-gating , 2014, Journal of Nanoparticle Research.
[44] M. Maaza,et al. Competitive growth texture of pulsed laser deposited vanadium dioxide nanostructures on a glass substrate , 2014 .
[45] J. B. K. Kana,et al. Optical limiting in pulsed laser deposited VO2 nanostructures , 2012 .
[46] F. Zhang,et al. Preparation of high performance pure single phase VO2 nanopowder by hydrothermally reducing the V2O5 gel , 2011 .
[47] P. Jin,et al. Selective formation of VO2(A) or VO2(R) polymorph by controlling the hydrothermal pressure , 2011 .
[48] M. Maaza,et al. Synthesis, characterization, and growth mechanism of α-Cr2O3 monodispersed particles , 2011 .
[49] J. Ndjaka,et al. High substrate temperature induced anomalous phase transition temperature shift in sputtered VO2 thin films , 2010 .
[50] P. Jin,et al. Direct formation of single crystal VO2(R) nanorods by one-step hydrothermal treatment , 2010 .
[51] U. Buttner,et al. Structural and optical properties of nano-structured tungsten-doped ZnO thin films grown by pulsed laser deposition , 2009 .
[52] F. Sediri,et al. Controlled hydrothermal synthesis of VO2(B) nanobelts , 2009 .
[53] Yifu Zhang,et al. A facile method for preparing VO2 nanobelts , 2008 .
[54] Byung-Gyu Chae,et al. Mott Transition in VO2 Revealed by Infrared Spectroscopy and Nano-Imaging , 2007, Science.