导航

  • 个人概况
  • 科学研究
  • 教学信息
  • 社会职务
  • 荣誉及奖励
  • 招生信息
头像

周盼盼

职称: 讲师

部门: 材料科学与工程学院党委、材料科学与工程学院

学科: 材料科学与工程

教学部门:

电话: 13758511613

邮件: 13758511613@163.com

办公地址: 河海大学金坛校区56号楼422

通讯地址: 河海大学金坛校区

邮编: 213200

个人简介

周盼盼,博士,20246月获浙江大学材料学专业博士学位,师从陈立新教授和肖学章副教授。主要从事高性能中高熵固态储氢材料的高通量定制、固态储氢材料多途径抗毒化协同改性策略的探究、轻质金属氢化物的热动力学性能调控及其机理研究、亚稳态储氢材料吸放氢动态相转变机制研究、纳米高熵催化剂的室温快速制备及其在化学/电化学制氢中的应用等方面的研究工作,先后参与1项国家自然科学基金项目和2项国家重点研发计划项目。目前,已发表SCI收录论文30余篇,其中以第一作者(含共一作者)Advanced MaterialsEnergy Storage MaterialsAdvanced ScienceChemical Engineering JournalJournal of Materials Chemistry ARare MetalsMaterials Today EnergyInternational Journal of Hydrogen EnergyJournal of Alloys and Compounds等期刊发表论文15篇,已申请或授权专利9项。

个人资料

  • 姓名: 周盼盼
  • 性别:
  • 学位: 博士
  • 出生年月: 1997-03-21 00:00:00.0
  • 学历: 博士研究生毕业
  • 毕业院校: 浙江大学

教育经历

  • 2015年9月-2019年6月,北京化工大学,材料科学与工程,学士
  • 2019年9月-2024年6月,浙江大学,材料学,博士

工作经历

  • 2024年6月-至今,河海大学,材料科学与工程学院,教师

研究领域

1. 高性能中高熵固态储氢材料的高通量定制(计算材料学)

2. 固态储氢材料多途径抗毒化协同改性策略的探究

3. 轻质金属氢化物的热动力学性能调控及其机理研究

4. 亚稳态储氢材料吸放氢动态相转变机制研究

5. 纳米高熵催化剂的室温快速制备及其在化学/电化学制氢中的应用

科研项目

论文

  • 1、P.P. Zhou, Q.W. Zhou, X.Z Xiao*, X.L. Fan, Y.J. Zou, L.X. Sun, J.H. Jiang, D. Song, and L.X. Chen*. Machine learning in solid-state hydrogen storage materials: Challenges and perspectives [J] Advanced Materials (accepted, IF=27.4)
  • 2、P.P. Zhou, X.Z Xiao*, X.Y. Zhu, Y.P. Chen, W.M. Lu*, M.Y. Piao, Z.M. Cao, M. Lu, F. Fang, Z.N. Li*, L.J. Jiang, and L.X. Chen*. Machine learning enabled customization of performance-oriented hydrogen storage materials for fuel cell systems [J]. Energy Storage Materials, 2023, 63: 102964. (IF=18.9)
  • 3、J.P. Bi, P.P. Zhou(共同第一作者), W. Jiang, H.Q. Kou, T. Tang*, Y. J, Zhang, Y. Liu, Q.W. Zhou, Y.X. Yao*, Y. Zhang, M. Yang, L.X Chen*, and X.Z. Xiao*, Poisoning mechanism map for metal hydride hydrogen storage materials [J]. Advanced Science, 2024: 2408522. (IF=14.3)
  • 4、J. H. He, P.P. Zhou (共同第一作者), X.Z. Xiao*, F. Chu, L.Z. Ouyang*, B.Z. Liu*, R.H. Li, Z.W. Huang, L.J. Hu, S.C. Yuan, T. Zhou, X.L. Fan, and L.X. Chen. Coupling architectural and electronic engineering over cobalt molybdenum intermetallic compound for boosting hydrogen generation from ammonia borane [J]. Chemical Engineering Journal, 2023, 474: 145604 (IF=13.3)
  • 5、Y.J. Zhang, P.P. Zhou (共同第一作者), X.Z. Xiao*, J.P. Bi, X.Y. Zhang, H.Q. Kou, X. Huang, T. Tang*, and L.X. Chen*. Superior oxygen-resistance and intrinsic mechanisms of coherent Pd/Pd3Zr@ZrCo structure with excellent cycling durability [J]. Chemical Engineering Journal, 2024, 479: 147660. (IF:13.3)
  • 6、J.P. Bi, P.P. Zhou (共同第一作者), X.Z. Xiao*, Y.J. Zhang, H.Q. Kou, T. Tang*, and L.X. Chen*. General impurity gas blanket effect mechanism and elimination strategies for hydrogen storage materials [J]. Chemical Engineering Journal, 2024, 481, 148517. (IF:13.3)
  • 7、P.P. Zhou, J.W. Zhang, J.P. Bi, X.Z. Xiao*, Z.M. Cao, L.J. Zhan, H.H. Shen, M. Lu, Z.N. Li, Y.Y. Zhao, L. Wang, M. Yan*, and L.X. Chen*. Underlying factors of mega pressure hysteresis in cerium-rich CaCu5-type metal hydrides and effective modification strategies [J]. Journal of Materials Chemistry A, 2023, 11: 25963-25972. (IF=10.7)
  • 8、Y. Liu, P.P. Zhou (共同第一作者), X.Z. Xiao*, J.C. Qi, J.P. Bi, T. Ying, X.W. Feng, Y. Shi, W.H. Luo*, and L.X. Chen*. Deep insight of unique phase transition behaviors and mechanism in Zr2Co-H isotope system with ultra-low equilibrium pressure [J]. Rare Metals, 2024, 43(1): 212-224. (IF:9.6)
  • 9、P.P. Zhou, Z.M. Cao, X.Z. Xiao*, L.J. Zhan, J.H. He, Y.Y. Zhao, L. Wang, M. Yan*, Z.N. Li, and L.X. Chen*. Development of RE-based and Ti-based multicomponent metal hydrides with comprehensive properties comparison for fuel cell hydrogen feeding system [J]. Materials Today Energy, 2023, 33: 101258.(IF = 9.0)
  • 10、P.P. Zhou, Z.M. Cao, X.Z. Xiao*, Z.F. Jiang, L.J. Zhan, Z.N. Li, L.J. Jiang, and L.X. Chen*. Study on low-vanadium Ti-Zr-Mn-Cr-V based alloys for high-density hydrogen storage [J]. International Journal of Hydrogen Energy, 2022, 47: 1710-1722. (IF=8.2)
  • 11、S.L. Mo, P.P. Zhou (共同第一作者), C.X. Li, J.J. Liu*, and F. Wang*. Atomic interface engineering: Strawberry-like RuO2/C hybrids for efficient hydrogen evolution from ammonia borane and water [J]. International Journal of Hydrogen Energy, 2021, 46: 22397-22408. (IF=8.2)
  • 12、P.P. Zhou, Z.M. Cao, X.Z. Xiao*, L.J. Zhan, S.Q. Li, Z.N. Li, L.J. Jiang, and L.X. Chen*. Development of Ti-Zr-Mn-Cr-V based alloys for high-density hydrogen storage [J]. Journal of Alloys and Compounds, 2021, 875: 160035. (IF=5.8)
  • 13、J.P. Bi, P.P. Zhou (共同第一作者), X.Z. Xiao*, Z.Q. Liang, J.C. Qi, Y.J. Zhang, H.Q. Kou, T. Tang, and L.X. Chen*. Achieving excellent CO2 poisoning resistance of ZrCo hydrogen isotope storage material by surface reconstruction strategy [J]. Journal of Alloys and Compounds, 2023, 954: 170220. (IF=5.8)
  • 14、P.P. Zhou, Z.M. Cao, X.Z. Xiao*, R.H. Li, Z.Q. Liang, H.K. Zhang, L.J. Zhan, Z.N. Li, L.J. Jiang, and L.X. Chen*. Dynamically staged phase transformation mechanism of Co-containing rare earth-based metal hydrides with unexpected hysteresis amelioration [J]. ACS Applied Energy Materials, 2022, 5: 3783-3792. (IF=5.4)
  • 15、Y.X. Jia, P.P. Zhou, X.Z. Xiao*, X.C. Wang, B. Han, J.C. Wang, F. Xu, L.X. Sun, and L.X. Chen*. 0D/2D/3D hierarchical N-doped carbon nanocages and NbB2 nanocatalyst synergetic improvement strategy on reversible hydrogen storage performance of lithium borohydride [J]. Chemical Engineering Journal, 2024, 485: 150090. (IF=13.3)
  • 16、J.W. Zhang, P.P. Zhou, Z.M. Cao, P.C. Li, J.T. Hu, H.Y. Xiao, X.S. Zhou, H.H. Shen, and X.T. Zu. Composition and temperature influence on hydrogenation performance of TiZrHfMoxNb2–x high entropy alloys [J]. Journal of Materials Chemistry A, 2023, 11: 20623-20635. (IF=10.7)
  • 17、L.J. Zhan, P.P. Zhou, X.Z. Xiao, M. Lu, L.J. Jiang, Z.P. Li, M. Yan, and L.X. Chen. Optimal design and simulation investigation for high-density hydrogen storage tanks filled with rare earth-based (RE-Ca)(Ni-Co)5 optimized alloy [J]. Journal of Energy Storage, 2024, 89: 111878. (IF=8.9)
  • 18、Z.M. Cao, P.P. Zhou, X.Z. Xiao, L.J. Zhan, Z.F. Jiang, S. M. Wang, L.J. Jiang, and L.X. Chen. Development of Ti0.85Zr0.17(Cr-Mn-V)1.3Fe0.7-based Laves phase alloys for thermal hydrogen compression at mild operating temperatures [J]. Rare Metals, 2022, 41: 2588-2594. (IF=9.6)
  • 19、Z.M Cao, P.P. Zhou, X.Z. Xiao, H.K. Zhang, Y.X. Jia, L.J. Zhan, M.Y. Piao, Z.N. Li, L.J. Jiang, and L.X. Chen. Improved hydrogen ab-/desorption performance of Ti–Cr based alloys via dual-effect of oxide reduction and element substitution by minor Al additive [J]. International Journal of Hydrogen Energy, 2024, 53: 1123-1136. (IF=8.2)
  • 20、L.J. Zhan, P.P. Zhou, X.Z. Xiao, Z.M. Cao, M.Y. Piao, Z.N. Li, L.J. Jiang, Z.P. Li, and L.X. Chen. Numerical simulation and experimental validation of Ti0.95Zr0.05Mn0.9Cr0.9V0.2 alloy in a metal hydride tank for high-density hydrogen storage [J]. International Journal of Hydrogen Energy, 2022, 47: 38655-38670. (IF=8.2)
  • 21、Z.M. Cao, P.P. Zhou, X.Z. Xiao, L.J. Zhan, Z.N. Li, S.M. Wang, and L.X. Chen. Investigation on Ti–Zr–Cr–Fe–V based alloys for metal hydride hydrogen compressor at moderate working temperatures [J]. International Journal of Hydrogen Energy, 2021, 46: 21580-21589. (IF=8.2)
  • 22、Z.M. Cao, P.P. Zhou, X.Z. Xiao, L.J. Zhan, Z.F. Jiang, M.Y. Piao, S.M. Wang, L.J. Jiang, and L.X. Chen. Studies on Ti-Zr-Cr-Mn-Fe-V based alloys for hydrogen compression under mild thermal conditions of water bath [J]. Journal of Alloys and Compounds, 2022, 892: 162145. (IF=5.8)
  • 23、Z.M. Cao, P.P. Zhou, X.Z. Xiao, H.K. Zhang, M.Y. Piao, Y.P. Chen, Z.N. Li, L.J. Jiang, and L.X. Chen. Experimental and theoretical investigation on enhanced hydrogen storage performance of Ti-Cr-Mn-Fe based alloys modified by Nb substitution [J]. ACS Applied Energy Materials, 2024. 7: 5091-5106. (IF=5.4)
  • 24、J.W. Zhang, P.P. Zhou, H.Y. Xiao, X.S. Zhou, H.H. Shen, and X.T. Zu. Composition complexity enhances the He retaining ability in Zr-based MPEAs [J]. Materials Charactization, 2024, 214: 114058. (IF=4.8)
  • 25、Y. Liu, Z.Y. Yang, P.P. Zhou, X.Z. Xiao, J.C. Qi, J.P. Bi, X. Huang, H.Q. Kou, and L. Chen. A review of classical hydrogen isotopes storage materials [J]. Materials Reports: Energy, 2024, 4: 100250.
  • 26、X.C. Wang, Y.X. Jia, X.Z. Xiao, P.P. Zhou, J.P. Bi, J.C. Qi, L. Lv, F. Xu, L.X. Sun, and L.X. Chen. Robust architecture of 2D nano Mg-based borohydride on graphene with superior reversible hydrogen storage performance [J]. Journal of Materials Science and Technology, 2023, 146, 121-130. (IF=11.2)
  • 27、Y. Liu, Z.Y. Yang, X.Z. Xiao, P.P. Zhou, Y.X. Jia, X.W. Feng, J.F. Song, Y. Shi, C.A. Chen, W.H. Luo, and L.X. Chen. Enhancing disproportionation resistance of Zr2Co-based alloys by regulating the binding energy of H atom [J]. Renewable energy, 2024, 233: 121153. (IF=9.0)
  • 28、M.Y. Piao, X.Z. Xiao, Z.M. Cao, P.P. Zhou, L.J. Zhan, J.C. Qi, Z.N. Li, L.J. Jiang, and L.X. Chen. Low-cost vanadium-free Ti–Zr–Cr–Mn–Fe based alloys for metal hydride hydrogen compressor under mild conditions [J]. Materials Chemistry and Physics, 2023, 297, 127407. (IF=4.3)
  • 29、J.C. Qi, X. Huang, X.Z. Xiao, X.Y. Zhang, P.P. Zhou, S.Q. Zhang, R.H. Li, H.Q. Kou, F. Jiang, Y. Yao, J. F. Song, X.W. Feng, Y. Shi, W.H. Luo, and L.X. Chen. Isotope engineering achieved by local coordination design in Ti-Pd co-doped ZrCo-based alloys [J]. Nature Communication, 2024, 15, 2883. (IF=14.7)
  • 30、L.J. Zhan, Z.M. Cao, M.Y. Piao, X.Z. Xiao, P.P. Zhou, Y.P. Chen, Z.N. Li, L.J. Jiang, Z.P. Li, and L.X. Chen. Experimental and numerical study of metal hydride beds with Ti0.92Zr0.10Cr1.0Mn0.6Fe0.4 alloy for hydrogen compression [J]. Chemical Engineering Journal, 2023, 474, 145654. (IF=13.3)
  • 31、J.C. Qi, Z.Q. Liang, X.Z. Xiao, Z.D. Yao, P.P. Zhou, R.H. Li, L. Lv, X.Y. Zhang, H.Q. Kou, X. Huang, W.H. Luo, C.A. Chen, and L.X. Chen. Effect of isostructural phase transition on cycling stability of ZrCo-based alloys for hydrogen isotopes storage [J]. Chemical Engineering Journal, 2023, 455, 140571. (IF=13.3)
  • 32、M.Y. Piao, X.Z. Xiao, L.J. Zhan, Z.M. Cao, P.P. Zhou, J.C. Qi, M. Lu, Z.N. Li, L.J. Jiang, F. Fang, and L.X. Chen. Laves phase double substitution alloy design and device filling modification for Ti-based metal hydride hydrogen compressors [J]. International Journal of Hydrogen Energy, 2024, 50: 1358-1368. (IF=8.2)
  • 33、Z.M. Cao, M.Y. Piao, X.Z. Xiao, L.J. Zhan, P.P. Zhou, Z.N. Li, S.M. Wang, L.J. Jiang, F. Xu, L.X. Sun, and L.X. Chen. Development of (Ti-Zr)1.02(Cr-Mn-Fe)2-based alloys toward excellent hydrogen compression performance in water-bath environments [J]. ACS Applied Energy Materials, 2023, 6: 1913-1925. (IF=5.4)

科技成果

开授课程

教学成果

教学资源

社会职务

荣誉及奖励

招生信息