He presided over 6 projects of the Ministry of Science and Technology, the National Natural Science Foundation, the State Administration of Science and Industry for National Defense, the Ministry of Education and the Ministry of Equipment Development, and undertook more than 20 enterprise cooperation projects. So far, he has published more than 100 academic papers in academic journals at home and abroad and academic conference papers. Academic part-time jobs: Editorial board member of Journal of Mass Spectrometry/Director of China Industrial Environmental Protection Promotion Association/Director of China Nuclear Chemistry and Radiochemistry/Director of Nuclear Industry Robot and Intelligent Equipment Collaborative Innovation Alliance/Director of Environmental Economics Society/Member of the Expert Review Committee of Chemical Substances Environmental Management of the Ministry of Environmental Protection.
More than 60 articles, including SCI and EI included more than 70 articles, more than 10 authorized patents.
Honors and Awards: The third Prize of Outstanding Contribution to Productivity Award of the 9th National Excellent Productivity Theory and Practice Achievement Award of China Productivity Society (2015); Excellent Communist Party Member of Beijing Institute of Technology (2015); Advanced individual in the formulation of "Comprehensive List of Environmental and Economic Policies" of the Department of Policies and Regulations of the Ministry of Environmental Protection (2011-2012); Advanced individual in formulating the list of products with "High Pollution and high Environmental Risk" of the Department of Policies and Regulations of the Ministry of Environmental Protection (2007-2008); Independent Innovation Achievement Award of China Overseas Chinese Federation (2007); Excellent graduate thesis Advisor, Beijing Institute of Technology (2006); Excellence Award of the 8th China Patent Award, State Intellectual Property Office (2003); Excellent Young Teacher of Chongqing University (2000).
Design and preparation technology of chemical separation materials, Industrial ecological utilization technology of resources, reaction separation technology and equipment technology, Oil production Technology based on energetic materials
1992.10-1997.03 Mendeleev University of Chemical Technology, Industrial Ecology (Environmental Science and Technology), PhD
1990.09-1992.10 Chongqing University, Master of Engineering in Physical Chemistry
1984.09-1988.06 Chongqing University, Bachelor of Engineering, Applied Chemistry
2016.07-present, School of Chemistry and Chemical Engineering, Beijing Institute of Technology, Special Researcher
2002.09-2016.06 Associate Professor, School of Chemical Engineering and Environment, Beijing Institute of Technology
2001.10-2002.08, Department of Industrial Ecology, Mendeleev University of Chemical Technology, Russia, advanced study
1988.07-2002.08 Associate Professor, School of Chemistry and Environment, Chongqing University
(1) Research Projects (Part)
1 XXXX Intelligent robot XXXX Research, vertical project (202021029001), 2019.01-2022.12, 1.79 million yuan, sub-project leader
2 Research on Process and equipment for removing and collecting Iodine in Spent Fuel Solution, Major Special Bidding Project of China Institute of Atomic Energy (201821041028), 2018.12-2021.12, 6.75 million yuan, Person in Charge
3 XXXX material research, Military Commission Equipment Department Project (3100021211804), 2017.12-2021.12, 1 million yuan, sub-project leader
4 Cooperation Research on Oil well stimulation Technology Based on energetic Materials and measurement and control System, Department of International Cooperation, Ministry of Science and Technology (2014DFR61080), 2014.4-2017.4, 2.6 million Yuan, Person in charge
5 Research on high-efficiency separation materials for Key nuclides in high-level waste Liquid, High-tech Research and Development Center of Ministry of Science and Technology (2013AA051401), 2013, 1.7 million yuan, Sub-project leader
6 Research on Solid-liquid Separation of hydrochloric acid Leaching Slurry of monazite and chemical thermodynamic analysis of aqueous Solution of Complex Components Leaching Solution, Joint Innovation Fund of China Uranium Corporation Limited and State Key Laboratory of Nuclear Resources and Environment of East China University of Technology (2022NRE-LH-10), 2022.07-2024.12, 400,000 Yuan, Person in Charge
7 Simulation calculation and material design under the equilibrium condition of temperature rise and heat dissipation of reaction thermal effect, Sichuan Honghua Industrial Co., LTD. (202121041043A), 2021.11-2023.11, 430,000 Yuan, Person in charge
8 High Temperature oxidation tail gas treatment principle prototype development, 2022.09-2023.07, horizontal project (202221041032A), 1.996 million yuan, Person in charge
9 Oil Well stimulation bomb technology Research, Xi 'an Wuhua Juoneng Blasting Equipment Co., LTD. (20161041014), 2016.07-2019.06, 500,000 yuan, Person in charge
10 "Research on University-Enterprise Joint Training Practice and Teaching Method of Engineering Master Training Base", National Engineering Graduate Education Self-selected research project (2016-ZX-016), 2016.03-2017.02, 20,000 yuan, Person in charge
(2) Published papers (part)
1 Ruishu T, Chang C, Dongxiang Z*, Dagang L, Jinying L, Xiyan X*. Experimental and CFD Simulation Study of the Air-Blowing Process of Iodine in Nitric Acid Solution[J]. Industrial & Engineering Chemistry Research. 2022, 61(36): 13694-13709.
2 Constantin Muhire, Dongxiang Zhang*, Xiyan Xu*. Adsorption of uranium (VI) ions by LDH intercalated with L-methionine in acidic water: Kinetics, thermodynamics and mechanisms. Results in Engineering 16 (2022) 100686
3 Chang Cui, Dongxiang Zhang*, Constantin Muhire, Alemtsehay Tesfay Reda, Xiyan Xu*.Molecular reaction and dynamic mechanism of iodate reduction to molecular iodine by nitrogen(III) in aqueous solution.Physical Chemistry Chemical Physics, 2022, 24, 22889 – 22897
4 Constantin Muhire, Alemtsehay Tesfay Reda, Dongxiang Zhang*, XiyanXu*, Chang Cui, An Overview on Metal Oxide-based Materials for Iodine Capture and Storage, Chem. Eng. J. 2022, 431 (3), 133816
5 Meng Pan, Cui Chang, Weiwu Tang, Dongxiang Zhang *, Xiyan Xu *. Carbon cloth as an important electrode support for the high selective electrosorption of uranium from acidic uranium mine wastewater. Separation and Purification Technology, 2022, 281: 119843.
6 LI Jinying, Sun Jiayi, Zhang Xu, Zhang Dongxiang *, Xu Xiyan. Advances in the measurement of iodine by mass spectrometry. Journal of Mass Spectrometry. 2019,42(05): 533-552
7 Alemtsehay Tesfay Reda, Meng Pan, Dongxiang Zhang*, Xiyan Xu*. Bismuth-based materials for iodine capture and storage: A review. Journal of Environmental Chemical Engineering 9 (2021) 105279
8 Meng Pan, Dongxiang Zhang*, Xiyan Xu*. Efficient electrosorption of uranyl ions by a homemade amidoxime‐modified carbon paper‐based electrode in acidic aqueous condition.Journal of Chemical Technology & Biotechnology, 2021, 96(10): 2916-2929.
9 Alemtsehay Tesfay Reda , Dongxiang Zhang* , Xiyan Xu* , Meng Pan , Cui Chang , Constantin Muhire , Xiaoru Liu , Sun Jiayi. Bismuth-impregnated aluminum/copper oxide-pillared montmorillonite for efficient vapor iodine sorption. Separation and Purification Technology.Volume 270, 1 September 2021, 118848
10 Muhammad Zahid , Dongxiang Zhang* , Xiyan Xu* , Meng Pan , Muhammad Hammad ul haq , Alemtsehay Tesfay Reda , Wenguo Xu. Barbituric and thiobarbituric acid-based UiO-66-NH2 adsorbents for iodine gas capture: Characterization, efficiency and mechanisms. Journal of Hazardous Materials. 416 (2021) 125835.
(3) Authorized patent
1 ZHANG Dongxiang, Pan Meng, TANG Weiwu, ZHANG Zilei, XIE Zhongyin, Zhang Dan. Working electrode, electroadsorption system and method for absorbing metal ions in wastewater. ZL202110721201.0 < br >
2 Zhang Dongxiang; Theis process; Zhao Menghui. A method for uranium adsorption based on Gly insertion of Zn-containing hydroxyl compound salt materials. CN201811621447.5 < br >
3 Zhang Dongxiang; Cao Heng; Liu Cong; Zhao Liting; Li L. A method for separation of strontium and rubidium by sulfone bridge calix [4] aromatics. ZL 201611205828.6
4 Zhang Dongxiang; Liu Cong; Zhang Peng; Li Jie; Lu Xin. A method for the separation of neodymium with cup [4] pyrrole extraction. ZL 201410709467.3
5 Zhang Dongxiang; Shao Zhihua; Guo Shun. Detection method of electrolyte leakage in battery compartment and monitoring device using the method. ZL 201210342750.8
6 Zhang Dongxiang; Zhang Xinhong; Zhang G. A method for preparing medium/high density fiberboard using sunflower rod. ZL 201510048394.2
7 Zhang Dongxiang; Dong Zhigang. Comprehensive treatment method of internal pollution of lake sediment with resource utilization. ZL 201010165633.X
8 Li Hansheng; Zhang Dongxiang; Liu Changhao. Air-lift suspension photocatalytic water treatment method and device with magnetic separation coupling. ZL 200510115345.2
Zhao in 9 weeks; Lu Kun; Ma Tao; Zhang Dongxiang; Yang Wei; Ren Weigang; Zhang Jianfeng; Ren Zhong relates to a high energy gas fracturing and stimulation device for oil and gas Wells. ZL 201611010088.0
10-week Zhao; Lu Kun; Ma Tao; Zhang Dongxiang; Yang Wei; Ren Weigang; Zhang Jianfeng; Ren Zhong relates to a high energy gas fracturing and stimulation device for oil and gas Wells. ZL 201621232109.9 (Utility model)
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This person’s work contributes towards the following SDG(s):