教育背景

1.         2005.03－2010.12 电子科技大学，材料物理与化学专业，博士学位

2.         2000.09－2003.06 电子科技大学，材料物理与化学专业，硕士学位

3.         1993.09－1997.07 电子科技大学，应用物理专业，学士学位

工作履历

1.         1997.07.02－至今电子科技大学，历任助教、讲师、副教授

2.         2012.01 - 2013.05 University of Arkansas，AR, USA 材料科学与工程，博士后

科研课题

1.       国家重点研发计划，2022YFE0129000，2018.05.15-2023.04.01，395万，参加

2.       国家重点研发计划，2021YFA1401101，2021.12.16-2026.11.30，580万，参加

3.       国家重点研发计划，2018YFA0306102, 2018/05-2023/05，395万，参加

4.       国家自然科学基金，61974014，2020.01.01-2023.12.31，59万，参加

5.       国家自然科学基金青年基金，51302030， 2014/01-2016/12，25万，主持

6.       973项目，2013CB933300， 2012/09-2017/09，488万，参加

7.       四川省科技计划项目, 2019YJ0202, 2019.01.30-2022.01.29,10万 ,参加

8.       四川省科技厅项目，2006Z02-032，2006/03-2008/12, 20万元，参加

9.       四川省科技计划项目，2020JDTD0011，2020.01.01-2022.12.31，30万，参加

10.   实验室基金，IIMDKFJJ-20-09，2021.07.19-2022.12.30，10万，参加

11.   校企联合科研平台项目，221069，2022.12.15- 2025.12.14，120万，参加

12.   横向项目，210413，     2021.05.01- 2022.12.31，17万参加

13.   横向项目，211219，2021.12.01- 2022.12.30      ，75万，参加

14.   横向项目，221318，2022.12.15- 2025.12.14，480万，参加

15.   横向项目，221146，2022.09.22-2024.09.22，5万，参加

16.   四川省2021-2023年高等教育人才培养质量和教学改革项目, JG2021-212, 2021.11.01-2023.11.01，1万，参加

17.   校级研究生教研教改项目，JYJG2022020，2023.09.01-2025.09.01，1万，参加

18.   校级研究生教研教改项目，JYJG2021116，2021.12.30-2023.12.31，1万，参加

19.   校级研究生教研教改项目，JYJG201902，2019.06- 2021.06，1万，参加

20.   校级研究生教研教改项目，JYJG201965，2019.06- 2021.06，1万，参加

21.   中央高校基本科研业务费项目，2672011ZYGX2011J027，2011/12-2014/12，7万元，主持

22.   电子科技大学青年基金，L08010301JX0616，2007/01-2008/12，2万，主持

23.   ****预研项目，51312030403， 2006.1-2010.12，110万元，参加

24.   ****预研项目，41312040509， 2001/01-2005/12，100万元, 参加

授权的发明专利

1.       一种硒化铋超晶格结构及其制备 2021.02.24 中国，ZL 202110206992.3

2.       一种在云母衬底上生长单晶r相硒化铟薄膜的方法  2019.07.03中国，ZL 201910592493.5

3.       一种在硅（211）衬底上生长硒化铋高指数面单晶薄膜的方法 2019.03.14 中国，  ZL201910191834.8

4.       一种磷化铟纳米锥膜及其制造方法和应用 2017.10.23中国，ZL 201710991444.X

5.       一种响应可见光的光解水制氢催化剂及其制备方法，2017.06.16，中国， ZL201510138426.8

6.       一种在硅衬底上生长锑化铟薄膜的方法 2016.12.23 中国， ZL 201611202065.X

7.       等离子液滴外延砷化镓量子点太阳能电池及其制造方法，2016.11.08，中国，ZL201610980109.5

8.       尺寸可控的球形MnZn铁氧体磁性纳米颗粒的制备方法，2016.08.23，中国，ZL201610704753.X

9.       一种铋层状化合物超晶格的制备方法， 2016.01.26，中国，ZL201610054544.5

10.   一种硒化铋材料的化学刻蚀方法2016.01.26，中国，ZL201610051414.6

11.   新型高效可活动射频等离子体放电管，2016.01.26，中国，ZL201610053880.8

12.   一种制备硫系化合物异质结构的装置及其制备方法 2016.01.26，中国，ZL201610054541.1

13.   一种二硫化钼复合纳米金光催化剂及其制备方法，2015.12.05，中国，ZL201510136180.0

部分论文和专著

[1].     Kerui Zhang, Dong Yan, Liping Wang*, Shihong Qing, Jian Gao, Haining Ji*, Xiaobin Niu*. Non-monotonic engineering of isomeric solvents for high-voltage Li-ion batteries with Si/C anodes [J]. Journal of Colloid and Interface Science, 2026, 713: 140207.

[2].      Li, L., Deng, Y., Deng, J., Wang, M., Xiao, P., Li, H., Wang, L.*, Ji, H.*, Niu, X*., and Gao, J.: ‘Enhancing air stability of LiMg alloy anode through Yb segregation at grain boundaries’, J. Alloy. Compd., 2024, 987, pp. 174120

[3].    Wang, T., Liu, X., Xie, L., Ji, H*., Wang, L*., Niu, X*., and Gao, J.: ‘3D nanofiber framework based on polyacrylonitrile and siloxane-modified Li6.4La3Zr1.4Ta0.6O12 reinforced poly (ethylene oxide)-based composite solid electrolyte for lithium batteries’, J. Alloy. Compd., 2023, 945

[4].    Xie, L., Deng, Y., Wang, T., Deng, J., Ji, H*., Wang, L*., Niu, X*., and Gao, J.: ‘Enhancing the electrochemical stability of lithium anode by introducing lithiophilic three-dimensional framework Li₂Cu₃Zn’, J. Alloy. Compd., 2022, 926

[5].    Jiang, J., Ji, H., Chen, P., Ouyang, C., Niu, X*., Li, H., and Wang, L*.: ‘The influence of electrolyte concentration and solvent on operational voltage of Li/CF_x primary batteries elucidated by Nernst Equation’, Journal of Power Sources, 2022, 527

[6].    Yang, J., Zou, J., Luo, C., Ran, Q., Wang, X., Chen, P., Hu, C., Niu, X*., Ji, H*., and Wang, L.: ‘FeSO4 as a Novel Li-Ion Battery Cathode’, Chinese Physics Letters, 2021, 38, (6)

[7].    Niu, J., Yang, J., Channa, A.I., Ashalley, E., Yang, J., Jiang, J., Li, H., Ji, H*., and Niu, X*.: ‘Enhancing the water splitting performance via decorating Co3O4 nanoarrays with ruthenium doping and phosphorization’, Rsc Advances, 2020, 10, (45), pp. 27235-27241

[8].    Zhu, N., Ji, H.N.*., Shen, C.Q., Wu, J., Niu, J.Q., Yang, J.C., Farooq, M.U., Li, H.D., and Niu, X*.: ‘Study of Alternating Magnetic Heating Characteristics of MnZn Ferrite Nanoparticles for Magnetic Hyperthermia Applications’, Ieee Transactions on Applied Superconductivity, 2019, 29, (2)：pp. 5 

[9].    Zhu, N., Ji, H.N.*., Yu, P., Niu, J.Q., Farooq, M.U., Akram, M.W., Udego, I.O., Li, H.D., and Niu, X.B*.: ‘Surface Modification of Magnetic Iron Oxide Nanoparticles’, Nanomaterials, 2018, 8, (10)：pp. 27 ESI高被引，在榜次数：12.

[10]. Liu, D.S., Wu, J., Wang, Y.A., Ji, H.N*., Gao, L., Tong, X., Usman, M., Yu, P., and Wang, Z.M*，Tailored performance of layered transition metal dichalcogenides via integration with low dimensional nanostructures’, RSC Adv., 2017, 7, (20), pp. 11987-11997

[11]. Shafa ，Muhammad，Ji，Haining，Gao，Lei，Yu，Peng，Ding，Qinghua，Zhou，Zhihua，Li，Handong，Niu，Xiaobin，Wu，Jiang，Wang，Zhiming M*.，Mid-infrared photodetectors based on InSb micro/nanostructures grown on low-cost mica substrates，Materials Letters，2016.01.01，(169)：77~81

[12]. Zheng ，Z.，Ji，H.，Yu，P.，Wang，Z*.，Recent Progress Towards Quantum Dot Solar Cells with Enhanced Optical Absorption，Nanoscale Res Lett，2016.01.01，11（1）：266

[13]. Haining Ji, Peng Yu, Xin Tong, Feng Lin, Handong Li, and Jiang Wu*, "Research on international cooperative joint training mode of graduate students based on supervisor's research team," Exp. Sci. Technol., vol. 20, no. 2, pp. 57–61, 2022.

[14]. Haining Ji, Aobo Ren, Handong Li, and Jiang Wu*, "Exploration and practice of collaborative innovation and talent cultivation through industry-university-research-application integration from the perspective of emerging engineering education," Educ. Teach. Forum, 2024.

[15]. Haining Ji, Juan Zeng, Yongda Hu, Xiaoli Tang, Jian Yang, Jie Xiong, and Zhuo Wang, "Application of new teaching methods in computer application foundation courses," Educ. Teach. Forum, no. 23, pp. 144–145, 2012.

[16]. Haning Ji, Juan Zeng, Xiaoli Tang, Yongda Hu, and Jian Yang, "Application of case teaching method in university computer application foundation teaching," Softw. Guide, vol. 11, no. 5, pp. 198–199, 2012.

[17]. Ping Sun, Ming He, and Haining Ji, Sensor Principles and Applications. Beijing, China: Science Press, 2014.

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[18]. Haining Ji, Zhongwen Lan*, et al., "Effects of second milling time on temperature dependence and improved Steinmetz parameters of low loss MnZn power ferrites," IEEE Trans. Appl. Supercond., vol. 24, no. 5, Oct. 2014.

[19]. Haining Ji, Zhongwen Lan*, et al., "Magnetic and Mössbauer studies of Mn Zn Ti Fe O spinel ferrites: Effect of cation distribution," IEEE Trans. Magn., vol. 49, no. 7, pp. 4277–4280, Jul. 2013.

[20]. Haining Ji, Zhongwen Lan*, et al., "Microstructure and temperature dependence of magnetic properties of MnZnTiSn ferrites for power applications," IEEE Trans. Magn., vol. 46, no. 4, pp. 974–978, Apr. 2010.

[21]. Haining Ji, Zhongwen Lan*, et al., "Influence of Sn-substitution on temperature dependence and magnetic disaccommodation of manganese-zinc ferrites," J. Magn. Magn. Mater., vol. 321, no. 14, pp. 2121–2124, Jul. 2009.

[22]. Haining Ji, Zhongwen Lan*, et al., "Development and research of wide-temperature low-loss MnZn power ferrites," Mater. Rev., no. 8, pp. 5–8, 2008.

[23]. Haining Ji, Zhongwen Lan*, et al., "Effect of pre-sintering temperature on sintering activity and temperature stability of MnZn power ferrites," Mater. Rev., no. 7, pp. 135–137, 2008.

[24]. Haining Ji, Zhongwen Lan*, et al., "Effect of Ti substitution on microstructure and magnetic properties of MnZn power ferrites," Magn. Mater. Devices, vol. 37, no. 4, pp. 27–29, 2006.

[25]. Haining Ji, Zhongwen Lan*, et al., "Thermal simulation study of switching power supply transformer based on ANSYS," Magn. Mater. Devices, vol. 37, no. 4, pp. 27–29, 2006.

[26]. Haining Ji, Zhongwen Lan*, et al., "3D simulation study of magnetic core field and leakage field in switching power supply transformer," Low Volt. Appar., vol. 10, no. 1, pp. 6–11, 2006.

[27]. Haining Ji, Zhongwen Lan*, et al., "Design method of high-frequency switching power supply transformer," Magn. Mater. Devices, no. 2, pp. 31–35, 2004.

[28].  Haining Ji, Zhongwen Lan*, et al., "Application of nanotechnology in magnetic materials," Magn. Mater. Devices, vol. 33, no. 2, pp. 25–28, 2002.

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[29]. Huaiwu Zhang, Dainan Zhang, and Haining Ji, Magnetic Materials and Devices Molding Technology (Part I). Beijing, China: Science Press, 2025.

[30]. Haining Ji and Huaiwu Zhang*, "Research and development of carbon nanotubes," Magn. Mater. Devices, vol. 32, no. 4, pp. 37–40, 2001.

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荣誉奖励

1.       2002年，电子科技大学研究生一等奖学金

2.       2010年，国家****技术发明二等奖 第2

3.       2010年，四川省科技进步二等奖 第5

4.       2012年，四川省科技进步三等奖 第5

学术兼职

IEEE会员，电子学会会员

University of the Basque Country,San Sebastián, Spain

 Harvard University

University of California, Los Angeles

University of Texas at Dallas

 University of Chicago

 Massachusetts Institute of Technology MIT

University of Arkansas

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邮箱 : 55fa444036894b1cd6389cd26119729aeba5f0b41b8bb7c4befae29aeb9bc3fbb1613c38d0a33d91b40328f52f07d120facc9a9d99beca09d87b1bfa404c01d45f99c63d704aa5a2d697947cc8ccbf290bd64d0b50cee065e08a6209e4f3fe2a26cd7cd845343aa5ef2bafb3312c12cab37514d8e5b951708b8e8765b0650e81

1997.7 -- 至今

电子科技大学      历任助教  讲师  副教授

2012.1 -- 2013.5

美国阿肯色大学      纳米材料科学与工程系      博士后