职称：

研究员

通讯地址：

上海市宝山区上大路99号G527室

联系电话：

021-66134334

E-mail：

zydeng@shu.edu.cn

从事专业

凝聚态物理

研究方向

能源材料与物理

讲授主要课程

《大学物理》、《未来氢能源与氢经济》

个人简况

1985年和1988年在武汉大学物理系获学士学位和硕士学位，1993年在上海交通大学物理系获理学博士学位，1996年在中科院上海硅酸盐研究所获工学博士学位，后在上海硅酸盐研究所工作。1997年起先后在日本东京大学、日本产业技术综合研究所(AIST)和日本物质材料研究机构(NIMS)工作7年，2005年起在葡萄牙阿维罗大学做研究，2007年1月回国在上海大学工作。

长期从事无机非金属材料及固体能带理论的研究、特别是以Al₂O₃和ZrO₂为主要成分的陶瓷材料的研究。提出的用Al₂O₃表面改性Al粉体用于产氢的方法曾被美国Science Daily、教育部和科技部等国内外科技网站报道，并多次在国际会议上作邀请报告。申请人被陶瓷材料权威刊物J. Am. Ceram. Soc.邀请写Feature综述论文(Deng et al., J. Am. Ceram. Soc. 91(12), 2008, 3825-3834)，是国内为数不多的Feature论文之一。

申请人获美国专利1项、日本专利2项、中国专利4项，已在SCI收录的国际期刊上发表论文100余篇，其中第一作者论文54篇。主要论文包括Acta Mater. 4篇、Chem. Eng, J. 2篇、J. Clean. Prod. 1篇、Sci. Total Environ. 1篇、J. Am. Ceram. Soc. 21篇、J. Euro. Ceram. Soc. 6篇、Phys. Rev. B 5篇、J. Power Sources 1篇、Int. J. Hydrogen Energy 7篇。发表的论文被SCI总引用超过3700次，H因子29；发表的论文被SCI引用超过100次的有12篇，其中第一作者论文被SCI引用超过100次的有6篇。

目前主持国家基础重点项目1项。

代表性成果

[1] Xiaoer Wang,… Zhen-Yan Deng* and Xinluo Zhao "Ultimate tensile behavior of short single-wall carbon nanotube/epoxy composites and the reinforced mechanism" Polym. Composite., 44 (2023) (in press).

[2] Wei-Zhuo Gai,… and Zhen-Yan Deng "Effect of low concentration hydroxides on Al hydrolysis for hydrogen production" Energy 268, (2023) 126731.

[3] Wei-Zhuo Gai,… and Zhen-Yan Deng "Synergistic effect and mechanisms of ultrasound and AlOOH suspension on Al hydrolysis for hydrogen production" Ultrason. Sonochem. 90, (2022) 106189.

[4] Tao Peng,… and Zhen-Yan Deng* "Soaked Al powder for efficient reduction of hexavalent chromium in neutral solution" J. Clean. Prod. 365, (2022) 132901.

[5] Yang Yang,… and Zhen-Yan Deng* "Effect of Al surface oxide structures on oxidability of Al-peroxymonosulfate system" Chem. Eng. J. 440, (2022) 135923.

[6] Wei Zhou,… and Zhen-Yan Deng* "A comparative study on high-efficient reduction of bromate in neutral solution using zero-valent Al treated by different procedures" Sci. Total Environ. 795, (2021) 148786.

[7] Xiao-Han Guo,…. and Zhen-Yan Deng* "Filtrates with hydroxyl radicals prepared using Al + Acid +H₂O₂ for removing organic pollutants" ACS Omega 6, (2021) 14182-14190.

[8] Song Xie,… and Zhen-Yan Deng* "Oxide modified aluminum for removal of methyl orange and methyl blue in aqueous solution" RSC Adv. 11, (2021) 867-875.

[9] Yang Yang, Wei-Zhuo Gai, Jian-Ge Zhou and Zhen-Yan Deng* "Surface modified zero-valent aluminum for Cr(VI) removal at neutral pH" Chem. Eng. J. 395, (2020) 125140.

[10] Yun-Lu Ge, … and Zhen-Yan Deng* "Enhanced adsorption and catalytic degradation of organic dyes by nanometer iron oxide anchored to single-wall carbon nanotubes" Appl. Surf. Sci. 488, (2019) 813-826.

[11] Hao Wu, …and Zhen-Yan Deng* "Arsenic removal from water by metal-organic framework MIL-88A microrods" Environ. Sci. Pollut. Res. 25(27), (2018) 27196-202.

[12] Meng-Dan Ma, Hao Wu, Zhen-Yan Deng* and Xinluo Zhao* "Arsenic removal from water by nanometer iron oxide coated single-wall carbon nanotubes" J. Molecular Liquids 259, (2018) 369-375.

[13] Jian-Ge Zhou, Shan Yang and Zhen-Yan Deng, "Electrostatic catalysis induced by luciferases in the decomposition of the firefly dioxetanone and its analogue" J. Phys. Chem. B 121(49), (2017) 11053-61.

[14] Yin-Qiang Wang, …and Zhen-Yan Deng* "Effect of storage environment on hydrogen generation by the reaction of Al with water" RSC Adv. 7(4), (2017) 2103-9.

[15] Gao-Heng Liang, …and Zhen-Yan Deng* "Kinetics study of the Al-water reaction promoted by an ultrasonically prepared Al(OH)₃ suspension" RSC Adv. 7(4), (2016) 35305-14.

[16] Weiting Zhan, …and Zhen-Yan Deng, "Long-term stability of infiltrated La_0.8Sr_0.2CoO_3-δ, La_0.58Sr_0.4Co_0.2Fe_0.8O_3-δ and SmBa_0.5Sr_0.5Co_2.0O_5+δ cathodes for low temperature solid oxide fuel cells" Int. J. Hydrogen Energy 40(46), (2015) 16532-39.

[17] Wei-Zhuo Gai, Zhen-Yan Deng* and Ying Shi, "Fluoride removal from water using high-activity aluminum hydroxide prepared by the ultrasonic method" RSC Adv. 5(102), (2015) 84223-31.

[18] Wei-Zhuo Gai, Ying Shi, Zhen-Yan Deng* and Jian-Ge Zhou, "Clarification of activation mechanism in oxide-modified aluminum" Int. J. Hydrogen Energy 40(36), (2015) 12057-62.

[19] Yang Yang, Wei-Zhuo Gai, Zhen-Yan Deng* and Jian-Ge Zhou, "Hydrogen generation by the reaction of Al with water promoted by an ultrasonically prepared Al(OH)₃ suspension" Int. J. Hydrogen Energy 39(33), (2014) 18734-42.

[20] Wei-Zhuo Gai and Zhen-Yan Deng*, "Effect of initial gas pressure on the reaction of Al with water" Int. J. Hydrogen Energy 39(25), (2014) 13491-97.

[21] Chun-Sheng Fang, Wei-Zhuo Gai and Zhen-Yan Deng*, "Al surface modification by a facile route" J. Am. Ceram. Soc. 97(1), (2014) 44-47.

[22] Wei-Zhuo Gai and Zhen-Yan Deng*, "Effect of trace species in water on the reaction of Al with water" J. Power Sources 245, (2014) 721-29.

[23] Wei-Zhuo Gai, Wen-Hui Liu, Zhen-Yan Deng* and Jian-Ge Zhou, "Reaction of Al powder with water for hydrogen generation under ambient condition" Int. J. Hydrogen Energy 37(17), (2012) 13132-40.

[24] Wen-Hui Liu, Wei-Zhuo Gai, Zhen-Yan Deng* and Junwang Tang, "Enhancing hydrogen-generation performance of g-Al₂O₃ modified Al powder by ultrasonic dispersion" J. Am. Ceram. Soc. 95(4), (2012) 1193-96.

[25] Zhen-Yan Deng*, Ye-Bin Tang, Li-Li Zhu, Yoshio Sakka and Jinhua Ye, "Effect of different modification agents on hydrogen-generation by the reaction of Al with water" Int. J. Hydrogen Energy 35(18), (2010) 9561-68.

[26] Zhen-Yan Deng*, Li-Li Zhu, Ye-Bin Tang, Yoshio Sakka, Jinhua Ye and Rong-Jun Xie, "Role of particle sizes in hydrogen-generation by the reaction of Al with water" J. Am. Ceram. Soc. 93(10), (2010) 2998-3001.

[27] Zhen-Yan Deng*, Wen-Hui Liu, Wei-Zhuo Gai, Yoshio Sakka, Jinhua Ye and Zhong-Wen Ou, "Role of modification agent coverage in hydrogen-generation by the reaction of Al with water" J. Am. Ceram. Soc. 93(9), (2010) 2534-36.

[28] Zhen-Yan Deng, J. M. F. Ferreira*, and Yoshio Sakka, "Hydrogen-generation materials for portable applications" J. Am. Ceram. Soc. 91(12), (2008) 3825-34 (Feature综述论文).

[29] Zhen-Yan Deng, J. M. F. Ferreira*, Yoshihisa Tanaka and Jinhua Ye, "Physicochemical mechanism for the continuous reaction of g-Al₂O₃ modified Al powder with water" J. Am. Ceram. Soc. 90(5), (2007)1521-26.

[30] Zhen-Yan Deng, J. M. F. Ferreira*, Yoshihisa Tanaka and Yukihiro Isoda, "Microstructure and thermal conductivity of porous ZrO₂ ceramics" Acta Mater. 55(11), (2007) 3663-69.

[31] Zhen-Yan Deng*, H. R. Fernandes, J. M. Ventura, S. Kannan and J. M. F. Ferreira, "Nano-TiO₂ coated unidirectional porous glass structure prepared by freeze-drying and solution infiltration" J. Am. Ceram. Soc. 90(4), (2007) 1265-68.

[32] Zhen-Yan Deng*, Yu-Fu Liu, Yoshihisa Tanaka, Hong-Wang Zhang, Jinhua Ye and Yutaka Kagawa, "Temperature effect on hydrogen generation by the reaction of g-Al₂O₃ modified Al powder with distilled water" J. Am. Ceram. Soc. 88(10), (2005) 2975-77.

[33] Zhen-Yan Deng*, Yu-Fu Liu, Yoshihisa Tanaka, Jinhua Ye and Yoshio Sakka, "Modification of Al particle surfaces by g-Al₂O₃ and its effect on the corrosion behavior of Al" J. Am. Ceram. Soc. 88(4), (2005) 977-79.

[34] Zhen-Yan Deng*, Yoshiaki Inagaki, Jihong She, Yoshihisa Tanaka, Yu-Fu Liu, Masao Sakamoto and Tatsuki Ohji, "Crack growth resistance of aligned porous silicon nitride" J. Am. Ceram. Soc. 88(2), (2005) 462-65.

[35] Zhen-Yan Deng*, Fang-Fang Xu, Jihong She, Yoshihisa Tanaka and Yoshio Bando, "Effects of zirconium doping on grain boundary bonding in alumina-silicon carbide composites" J. Am. Ceram. Soc. 87(3), (2004) 493-95.

[36] Zhen-Yan Deng*, You Zhou, Manuel E. Brito, Jian-Feng Yang and Tatsuki Ohji, "Fracture-mode change in alumina-silicon carbide composites doped with rare-earth impurities" J. Am. Ceram. Soc. 86(10), (2003) 1789-92.

[37] Zhen-Yan Deng*, You Zhou, Yoshiaki Inagaki, Motohide Ando and Tatsuki Ohji, "Role of Zr(OH)₄ hard agglomerates in fabricating porous ZrO₂ ceramics and the reinforcing mechanisms" Acta Mater. 51(3), (2003) 731-39.

[38] Zhen-Yan Deng*, Jian-Feng Yang, Yoshihisa Beppu, Motohide Ando and Tatsuki Ohji, "Effect of agglomeration on mechanical properties of porous zirconia fabricated by partially sintering" J. Am. Ceram. Soc. 85(8), (2002) 1961-65.

[39] Zhen-Yan Deng*, Guo-Jun Zhang, Motohide Ando and Tatsuki Ohji, "Model analysis of multi-crack mechanisms in ceramic/superplastic laminates" J. Am. Ceram. Soc. 85(7), (2002) 1793-803.

[40] Zhen-Yan Deng*, Takayuki Fukasawa, Motohide Ando, Guo-Jun Zhang and Tatsuki Ohji, "Microstructure and mechanical properties of porous alumina ceramics fabricated by the decomposition of Al(OH)₃" J. Am. Ceram. Soc. 84(11), (2001) 2638-44.

[41] Zhen-Yan Deng*, Takayuki Fukasawa, Motohide Ando, Guo-Jun Zhang and Tatsuki Ohji, "Bulk alumina support with high tolerant strain and its reinforcing mechanisms" Acta Mater. 49(11), (2001) 1939-46.

[42] Zhen-Yan Deng*, Takayuki Fukasawa, Motohide Ando, Guo-Jun Zhang and Tatsuki Ohji, "High-surface-area alumina ceramics fabricated by the decomposition of Al(OH)₃" J. Am. Ceram. Soc. 84(3), (2001) 485-91.

[43] Zhen-Yan Deng*, Xiaoshuang Chen, Tatsuki Ohji and Takayoshi Kobayashi, "Subband structures and exciton and impurity states in V-shaped GaAs-Ga_1-xAl_xAs quantum wires" Phys. Rev. B 61(23), (2000) 15905-13.

[44] Zhen-Yan Deng*, Jian-Lin Shi, Yu-Feng Zhang, Ting-Rong Lai and Jing-Kun Guo, "Creep and creep-recovery behaviors of silicon carbide particle reinforced alumina" J. Am. Ceram. Soc. 82(4), (1999) 944-52.

[45] Zhen-Yan Deng*, Jing-Kun Guo and Ting-Rong Lai, "Impurity states in a spherical GaAs-Ga_1-xAl_xAs quantum dot / Effects of spatial variation of dielectric screening" Phys. Rev. B 50(8), (1994) 5736-39.

[46] Zhen-Yan Deng*, Ting-Rong Lai and Jing-Kun Guo, "Effects of dielectric mismatch on the impurity binding energies in GaAs-Ga_1-xAl_xAs quantum wells" Phys. Rev. B 50(8), (1994) 5732-35.

[47] Zhen-Yan Deng* and Shi-Wei Gu, "Effects of the image potential on electronic and impurity states in quantum wells" Phys. Rev. B 48(11), (1993) 8083-88.

研究专利：

[1]邓振炎，郭晓晗，杨阳，制备自由长寿命羟基自由基溶液的方法及其应用，2022，中国专利号：ZL202011509068.4。

[2]邓振炎 杨阳 盖卫卓, “一种制备高活性氢氧化铝悬浮液及其与纯铝粉体反应产氢的方法”，2016，中国专利号：ZL201410225587.6。

[3]邓振炎，“表面改性铝粉体与水反应产生氢气的工艺方法”，2011，中国专利号：ZL200810034125.0。

[4]邓振炎，“用纯铝粉体与水反应产生氢气的工艺方法”，2011，中国专利号：ZL200810034090.0。

[5] Zhen-Yan Deng, Yu-Fu Liu, Yoshihisa Tanaka, Jinhua Ye and Yoshio Sakka, “Preparation of hydrogen-generation materials by composite processing method”, 2007.12, Japan Patent 2005-162552.

[6] Tatsuki Ohji and Zhen-Yan Deng, “Porous alumina and its fabrication procedures” 2004.6, Japan Patent 2002-068854; United States Patent 6565825.