Yinjie Lv (吕银洁)

Postdoctoral, School of Chemical Engineering, East China University of Science and Technology

Email: lvyj@ecust.edu.cn

Biography

Yinjie Lv completed her Bachelor of Chemistry from Nanjing Normal University in 2019, and her Ph.D. degree from ShanghaiTech University in 2024. Since Dec 2024, she has served as a Postdoctoral Associate at the State Key Laboratory of Chemical Engineering and Low-Carbon Technology at ECUST.  Her current research focuses on membrane separation and energy conversion.

Education

2015.9 – 2019.6

College of Chemistry and Materials Science, Nanjing Normal University, for B.S.

2019.9 ~ 2024.7

School of Physical Science and Technology，ShanghaiTech University, for PhD.

Work Experience

2024.12 ~ present

Postdoctoral, School of Chemical Engineering and Technology, East China University of Science and Technology

Research Interests

Membranes Separation for Ion and Molecular:

Applications of membrane separation technology in the recovery of resources such as K⁺, Na⁺, Li⁺ and water desalination.

Energy Conversion Materials:

Design of energy conversion materials and their applications in catalysis and osmotic energy harvesting.

Selected Publications

1.   Yinjie Lv, Zhongqin Dai, Yu Chen, et al.Two-Dimensional Sulfonate-Functionalized Metal-Organic Framework Membranes for Efficient Lithium-ion Sieving[J]. Nano Letters, 2024, 24(9): 2782-2788.

2.   Yinjie Lv, Lei Dong, Lvyang Cheng, et al. Tailoring Monovalent Ion Sieving in Graphene-Oxide Membranes with High Flux By Rationally Intercalating Crown Ethers[J]. ACS Applied Materials & Interfaces, 2023, 15(39): 46261-46268.

3.   Tongfei Li, Yinjie Lv, Jiahui Su, et al.Anchoring CoFe2O4 Nanoparticles on N-Doped Carbon Nanofibers for High-Performance Oxygen Evolution Reaction[J].Advanced Science, 2017, 4(11)170226.

4.  Xin Chen, Cong Wu, Yinjie Lv, et al. Self-driven lithium extraction by directional liquid transport nonwoven[J]. Matter, 2022, 5(9): 3053-3065.

5.   Xinshui Zhang, Cong Wu, Yinjie Lv, et al. High-performance flexible polymer memristor based on stable filamentary switching[J]. Nano Letters, 2022, 22(17): 7246-7253.

Contacts

For inquiries related to research collaborations, student supervision, or other academic interests, please reach out using the contact details provided above.