师资队伍

发表SCI论文

发表于: 2021-03-24 19:01 点击:

SCI PAPERS

Representative publications

1. Yan-Fei Huang, Guanchun Rui, Qiong Li, Elshad Allahyarov, Ruipeng Li, Masafumi Fukuto, Gan-Ji Zhong, Jia-Zhuang Xu, Zhong-Ming Li, Philip L. Taylor*, Lei Zhu*. Enhanced piezoelectricity from highly polarizable oriented amorphous fractions in biaxially oriented poly(vinylidene fluoride) with pure β crystalsNature Communications, 2021, 12(1): 675. (IF 17.694, ESI Highly Cited Paper)

The oriented amorphous phase (OAF) located in the crystalline-amorphous interface endows the electrically poled and biaxially oriented poly(vinylidene fluoride) (BOPVDF) with pure β crystals with a high piezoelectric constant of -62 pC/N.


2. Junfeng Liu#, Zhanyu Wu#, Florian J. Stadler, Yan-Fei Huang*, High dielectric poly(vinylidene fluoride)-based polymer enables uniform lithium-ion transport in solid-state ionogel electrolytes, Angewandte Chemie International Edition, 2023, e202300243. (IF 16.823, ESI Highly Cited Paper)

The P(VDF-TrFE-CTFE) shows low adsorption energy on Pyr13+ from ionic liquids (ILs) than PVDF, which reduces the chance for Pyr13+ to occupy transport sites of Li+ and lower the Li+ migration barrier. In consequence, the Li+ transport in polymer phases is promoted, which narrows the gap of Li+ mobility between polymer phases with ILs and polymer-ILs interfaces, contributing to uniform Li+ flux to inhabit the lithium dendrites’ growth.


3. Yan-Fei Huang, Tian Gu, Guanchun Rui, Peiran Shi, Wenbo Fu, Lai Chen, Xiaotong Liu, Jianping Zeng, Benhao Kang, Zhichao Yan, Florian J. Stadler, Lei Zhu, Feiyu Kang, Yan-Bing He*, A Relaxor ferroelectric polymer with ultrahigh dielectric constant largely promotes the dissociation of lithium salts to achieve high ionic conductivity, Energy & Environmental Science, 2021, 14, 6021-6029. (IF 39.714, ESI Highly Cited Paper)

A unique relaxor ferroelectric P(VDF-TrFE-CTFE) is investigated as a matrix of SPEs. The P(VDF-TrFE-CTFE) with ultrahigh dielectric constant not only promotes the dissociation of LTFSI to form more free lithium ions but also brings a larger transference number of lithium ions and lower activation energy.


4. Chen Dai, Mowei Weng, Bowen Cai, Junfeng Liu, Shaoke Guo, Hao Xu, Lei Yao, Florian J. Stadler, Zhong-Ming Li, Yan-Fei Huang*. Ion-Conductive Crystals of Poly (vinylidene fluoride) Enables Fast Charging Solid-State Lithium Metal Batteries. Energy & Environmental Science, 2024, 17, 8243-8253. (IF 32.4)

Introducing dipolar defects into PVDF crystals increased interchain spacing and weakened the intermolecular interactions. This triggers a concomitant migration of Li+ through ion-dipole interactions and transforms the ion-insulated crystals of PVDF into fast-ion conductors.


5. Yan-Fei Huang*, Jian-Ping Zeng, Shuang-Feng Li, Chen Dai, Jun-Feng Liu, Chen Liu*, Yan-Bing He*, Conformational regulation of dielectric poly(vinylidene fluoride)‐based solid‐state electrolytes for efficient lithium salt dissociation and lithium‐ion transportation, Advanced Energy Materials, 2023, 2203888. (IF 29.698, ESI Highly Cited Paper)

Through conformational regulation of the high dielectric P(VDF-TrFE-CTFE), an all-trans conformation with all F atoms located on one side of the chain is achieved, which constructs ion hopping highways and results in a high lithium-ion transference number of 0.61. Both the Li//Li symmetric cells and the high-voltage NCM811//Li cells show long-term cycling stablity at 25 oC.


6. Ben-Hao Kang, Shuang-Feng Li, Jinlong Yang, Zhong-Ming Li, Yan-Fei Huang*, Uniform Lithium Plating for Dendrite-Free Lithium Metal Batteries: Role of Dipolar Channels in Poly(vinylidene fluoride) and PbZrxTi1–xO3 Interface, ACS Nano, 2023, 17, 14114-14122.  (IF 17.1)

An asymmetric composite solid-state electrolyte consisting of poly(vinylidene fluoride) (PVDF) and PbZrxTi1-xO3 (PZT) is prepared. In this design, the PZT with a high dielectric constant is positioned on the anode side to facilitate lithium-ions transport through dipolar channels, thereby promoting uniform lithium plating and inhibiting dendrites growth.



7. Liwei Zhang, Shuangfeng Li, Zhiwen Zhu, Guanchun Rui, Bin Du, Dazhu Chen, Yan-Fei Huang*, Lei Zhu*, Recent Progress on Structure Manipulation of Poly(vinylidene fluoride)-based Ferroelectric Polymers for Enhanced Piezoelectricity and Applications, Advanced Functional Materials, 2023, 2301302.  (IF 19.924)

Here, the basic principles and measurement methods for piezoelectric coefficients of ferroelectric polymers are introduced. Approaches to improve piezoelectric property are discussed from the structure manipulation of the amorphous phase, the crystalline phase, and the crystalline–amorphous interface. Especially, the crucial role of the oriented amorphous fraction in enhancing piezoelectricity of poly(vinylidene fluoride)-based polymers is discussed.



【Other selective publications】


2024


53. Chen Dai, Mowei Weng, Bowen Cai, Junfeng Liu, Shaoke Guo, Hao Xu, Lei Yao, Florian J. Stadler, Zhong-Ming Li, Yan-Fei Huang*. Ion-Conductive Crystals of Poly (vinylidene fluoride) Enables Fast Charging Solid-State Lithium Metal Batteries. Energy & Environmental Science, 2024, 17, 8243-8253.

52. Shaoke Guo, Shendong Tan, Jiabin Ma, Likun Chen, Ke Yang, Qiannan Zhu, Yuetao Ma, Peiran Shi, Yinping Wei, Xufei An, Qingkang Ren, Yan-Fei Huang, Yingman Zhu, Ye Cheng, Wei Lv, Tingzheng Hou,* Ming Liu,* Yan-Bing He,* Quan-Hong Yang and Feiyu Kang*, Dissociation mechanism of lithium salt by BaTiO3 with spontaneous polarization, Energy & Environmental Science, 2024, 17, 3797.

51. Guanchun Rui, Elshad Allahyarov, Zhiwen Zhu, Yan-Fei Huang, Thumawadee Wongwirat, Qin Zou, Philip L. Taylor, Lei Zhu, Challenges and opportunities in piezoelectric polymers: Effect of oriented amorphous fraction in ferroelectric semicrystalline polymers, Responsive Materials, 2024, e20240002.

50. Xiaotong Liu, Bohua Wen, Guiming Zhong, Xing Cheng, Cuiying Jian, Yong Guo, Yan-Fei Huang, Jiabin Ma, Peiran Shi, Likun Chen, Danfeng Zhang, Shichao Wu, Ming Li, Wei Lv, Yan-Bing He & Feiyu Kang, Dielectric LiNbO3 electrolyte regulating internal electric field in composite solid-state electrolyte to fundamentally boost Li-ion transport, Science China Materials, 2024, 67, 1947.

49. Zhan-Yu Wu, Shuang-Feng Li, Yan-Fei Huang*. Stabilizing Poly(vinylidene fluoride) Solid-State Electrolytes/Lithium Metal Interface by Constructing an Ultrathin Interface Layer to Inhibit the Electron Transfer. Energy Storage Materials, 2024, 68, 103330.

48. Xiang Guan, Zhenhua Jian, Xingan Liao, Wenchao Liao, Yan-Fei Huang, Dazhu Chen, Robert K. Y. Li & Chen Liu, Tailored architecture of composite electrolyte for all-solid-state sodium batteries with superior rate performance and cycle life, Nano Research, 2024, 17, 4171

47. Chen Dai, Florian J. Stadler, Zhong-Ming Li, Yan-Fei Huang*. E-beam irradiation of poly(vinylidene fluoride-trifluoroethylene) induces high dielectric constant and all-trans conformation for highly ionic conductive solid-state electrolytes, Energy Materials and Devices, 2023, 1, 9370016


2023


   

46. Xiaobin Chen, Wenchao Liao, Dazhu Chen, Yan-Fei Huang*, Chen Liu*. An ultra-thin composite electrolyte with vertical aligned Li ion transport pathways for all-solid-state lithium metal battery, Composite Science and Technology, 2023, 245, 110327

45. Ben-Hao Kang, Shuang-Feng Li, Jinlong Yang, Zhong-Ming Li, Yan-Fei Huang*, Uniform Lithium Plating for Dendrite-Free Lithium Metal Batteries: Role of Dipolar Channels in Poly(vinylidene fluoride) and PbZrxTi1–xO3 Interface, ACS Nano, 2023, 17, 14114. (IF 17.1)

44. Shu-Ming Cui, Saud Hashmi, Wen-Qiang Li, Stephan Handschuh-Wang, Cheng-Tian Zhu, Shi-Chang Wang, Yan-Fei Huang*, Guang-Ming Zhu*, Florian J. Stadler*, Rheology of graphene oxide stabilized Pickering emulsions, Soft Matter, 2023, 19, 4536. (IF 4.406)

43. Liwei Zhang, Shuangfeng Li, Zhiwen Zhu, Guanchun Rui, Bin Du, Dazhu Chen, Yan-Fei Huang*, Lei Zhu*, Recent Progress on Structure Manipulation of Poly (vinylidene fluoride)-based Ferroelectric Polymers for Enhanced Piezoelectricity and Applications, Advanced Functional Materials, 2023, 2023, 2301302.

42. Junfeng Liu#, Zhanyu Wu#, Florian J. Stadler, Yan-Fei Huang*, High dielectric poly(vinylidene fluoride)-based polymer enables uniform lithium-ion transport in solid-state ionogel electrolytes, Angewandte Chemie International Edition, 2023, e202300243.

41. Peiran Shi, Jiabin Ma, Ming Liu, Shaoke Guo, Yan-Fei Huang, Shuwei Wang, Lihan Zhang, Likun Chen, Ke Yang, Xiaotong Liu, Yuhang Li, Xufei An, Danfeng Zhang, Xing Cheng, Qidong Li, Wei Lv, Guiming Zhong, Yan-Bing He, Feiyu Kang. A dielectric electrolyte composite with high lithium-ion conductivity for high-voltage solid-state lithium metal batteries, Nature Nanotechnology, 2023, https://doi.org/10.1038/s41565-023-01341-2.

40. Yan-Fei Huang*, Jian-Ping Zeng, Shuang-Feng Li, Chen Dai, Jun-Feng Liu, Chen Liu*, Yan-Bing He*, Conformational regulation of dielectric poly(vinylidene fluoride)‐based solid‐state electrolytes for efficient lithium salt dissociation and lithium‐ion transportation, Advanced Energy Materials, 2023, 2203888.




2022

39. Shu-Ming Cui, Saud Hashmi, Wen-Qiang Li, Stephan Handschuh-Wang, Cheng-Tian Zhu, Shi-Chang Wang, Pian-Pian Yang, Yan-Fei Huang*, Guang-Ming Zhu,* and Florian J. Stadler,* Influence of Cellulose Nanofibers on the Behavior of Pickering Emulsions. Part 1. Microscopy and Startup Flow Test, Materials, 2022, 15(23), 8285.

38. Tian Gu, Likun Chen, Yan-Fei Huang, Jiabin Ma, Peiran Shi, Jie Biao, Ming Liu, Wei Lv, Yanbing He, Engineering ferroelectric interlayer between Li1.3Al0.3Ti1.7(PO4)3 and lithium metal for stable solid-state batteries operating at room temperature. Energy & Environmental Materials, 2022, e12531.

37. Jianping Zeng, Junfeng Liu, Huadong Huang, Shaocong Shi, Benhao Kang, Chen Dai, Liwei Zhang, Zhichao Yan, Florian J. Stadler, Yanbing He, Yan-Fei Huang*, A high polarity poly(vinylidene fluoride-co-trifluoroethylene) random copolymer with an all-trans conformation for solid-state LiNi0.8Co0.1Mn0.1O2/lithium metal batteries. Journal of Materials Chemistry A, 2022, 10, 18061-18069.


2021

36. Yan-Fei Huang, Tian Gu, Guanchun Rui, Peiran Shi, Wenbo Fu, Lai Chen, Xiaotong Liu, Jianping Zeng, Benhao Kang, Zhichao Yan, Florian J. Stadler, Lei Zhu, Feiyu Kang, Yan-Bing He*, Relaxor ferroelectric polymer with ultrahigh dielectric constant largely promotes the dissociation of lithium salts to achieve high ionic conductivity, Energy & Environmental Science, 2021, 14, 6021-6029. (ESI Hot Paper)

35. Zipei Wan#, Kai Shi#Yan-Fei Huang#, Lu Yang#, Qinbai Yun, Likun Chen, Fuzeng Ren, Feiyu Kang, Yan-Bing He*, Three-dimensional alloy interface between Li6.4La3Zr1.4Ta0.6O12 and Li metal to achieve excellent cycling stability of all-solid-state battery, Journal of Power Sources, 2021, 505, 1. (co-first author)

34. Ke Yang, Likun Chen, Jiabin Ma, Chen Lai, Yan-Fei Huang, Jinshuo Mi, Jie Biao, Danfeng Zhang, Peiran Shi, Heyi Xia, Guiming Zhong*, Feiyu Kang*, Yan-Bing He*, Stable interface chemistry and multiple ion transport of composite electrolyte contribute to ultra‐long cycling solid‐state LiNi0.8Co0.1Mn0.1O2/lithium metal batteries, Angewandte Chemie International Edition, 2021, 133, 2-10.  (ESI Highly Cited Paper)

33. Peiran Shi, Jiabin Ma, Yan-Fei Huang, Wenbo Fi, Song Li, Shuwei Wang, Danfeng Zhang, Yan-Bing He*, Feiyu Kang*, A thin and high strength composite polymer solid-state electrolyte with highly efficient and uniform ion transport network, Journal of Materials Chemistry A, 2021, 9, 14344-14351

32. Cheng Xing#, Fanmin Ran#Yan-Fei Huang#, Runtian Zheng, Haoxiang Yu*, Jie Shu*, Yanbing He*, Insight into the synergistic effect of n, s co-doping for carbon coating layer on niobium oxide anodes with ultra-long life, Advanced Functional Materials, 2021: 2100311. (co-first author)

31. Yan-Fei Huang#, Guanchun Rui#, Qiong Li, Elshad Allahyarov, Ruipeng Li, Masafumi Fukuto, Gan-Ji Zhong, Jia-Zhuang Xu, Zhong-Ming Li, Philip L. Taylor*, Lei Zhu*. Enhanced piezoelectricity from highly polarizable oriented amorphous fractions in biaxially oriented poly(vinylidene fluoride) with pure β crystals, Nature Communications, 2021, 12(1): 675. (ESI Highly Cited Paper)


2020

30. Guanchun Rui#Yan-Fei Huang#, Xinyue Chen, Ruipeng Li, Dingrui Wang, Toshikazu Miyoshi, Lei Zhu*. Giant spontaneous polarization for enhanced ferroelectric properties of biaxially oriented poly(vinylidene fluoride) by mobile oriented amorphous fractions, Journal of Materials Chemistry C, 2020, 9: 894-907. (co-first author)

29. Huajin Ling, Lu Shen, Yan-Fei Huang*, Jiabin Ma, Likun Chen, Xiaoge Hao, Liang Zhao, Feiyu Kang, Yan-Bing He*. Integrated structure of cathode and double-layer electrolyte for highly stable and dendrite-free all-solid-state li-metal batteries, ACS Applied Materials & Interfaces, 2020, 12(51): 56995-57002.

28. Likun Chen, Yan-Fei Huang, Jiabin Ma, Huajin Ling, Feiyu Kang, Yan-Bing He. Progress and perspective of all-solid-state lithium batteries with high performance at room temperature, Energy Fuels, 2020, 34, 11, 13456–13472

27. Kai Shi, Zipei Wan, Lu Yang, Yiwen Zhang, Yan-Fei Huang, Shiming Su, Heyi Xia, Keling Jiang, Lu Shen, Yi Hu, Shiqi Zhang, Jing Yu, Fuzeng Ren*, Yan-Bing He*, Feiyu Kang*, In situ construction of an ultra-stable conductive composite interface for high-voltage all-solid-state lithium metal batteries, Angewandte Chemie International Edition, 2020, 59, 11784-11788. (ESI Highly Cited Paper)

26. Jing Yu, Liang Zhao, Yan-Fei Huang, Yi Hu, Likun Chen, Yan-Bing He*, Progress and perspective of constructing solid electrolyte interphase on stable lithium metal anode, Frontiers in Materials, 2020, 7, 1-7.


Some selective papers in 2019 and before


20. Yan-Fei Huang, Jia-Zhuang Xu, Thibaut Soulestin, Fabrice Domingues Dos Santos, Ruipeng Li, Masafumi Fukuto, Jun Lei, Gan-Ji Zhong, Zhong-Ming Li, Yue Li*, Lei Zhu*, Can relaxor ferroelectric behavior be realized for poly(vinylidene fluoride-cochlorotrifluoroethylene) [P(VDF-CTFE)] random copolymers by inclusion of CTFE units in PVDF crystals, Macromolecules, 2018, 51, 5460-5472.

11. Yan-Fei Huang, Jia-Zhuang Xu*, Dong Zhou, Ling Xu, Bai-Song Zhao, Zhong-Ming Li*, Simultaneous reinforcement and toughening of polymer/hydroxyapatite composites by constructing bone-like structure, Composites Science and Technology, 2017, 151, 234-242.

10. Yan-Fei Huang, Jia-Zhuang Xu*, Zheng-Chi Zhang, Ling Xu, Liang-Bin Li, Jun-Fang Li, Zhong-Ming Li*, Melt processing and structural manipulation of highly linear disentangled ultrahigh molecular weight polyethylene, Chemical Engineering Journal, 2017, 315, 132-141.

5. Yan-Fei Huang, Jia-Zhuang Xu, Jian-Shu Li, Ben-Xiang He, Ling Xu*, Zhong-Ming Li*, Mechanical properties and biocompatibility of melt processed, self-reinforced ultrahigh molecular weight polyethylene, Biomaterials, 2014, 35, 6687-6697.

4. Yan-Fei Huang, Jia-Zhuang Xu, Jun-Yi Xu, Zheng-Chi Zhang, Benjamin S. Hsiao, Ling Xu*, Zhong-Ming Li,* Self-reinforced polyethylene blend for artificial joint application, Journal of Materials Chemistry B 2014, 2, 971-980.

 

BOOK CHAPTERS

1. Yan-Fei Huang, Jia-Zhuang Xu*, Zhong-Ming Li*, Advances in enhancing mechanical performance of ultrahigh molecular weight polyethylene used for total joint replacement, Advances in Bioinspired and Biomedical Materials Volume 2. American Chemical Society, 2017: 273-294.



专利

4. 贺艳兵,黄妍斐,谷添,史沛然,康飞宇,一种聚偏氟乙烯基固态电解质、其制备方法及锂离子电池,2021.05.13,中国发明专利,ZL 202110390072.1,已授权

3. 徐家壮黄妍斐,李忠明,高耐磨高强度超高分子量聚乙烯基人工关节材料及其制备方法,2015.06.18,中国发明专利,ZL201510342118.7,已授权

2. 李忠明,黄妍斐,雷军,钟淦基,徐家壮,徐玲,一种人工关节用可熔体加工的超高分子量聚乙烯复合材料,2013.12.24,中国发明专利,CN103751849 A,已公开

1. 李忠明,黄妍斐,雷军,人工关节用辐照交联聚乙烯共混物材料其制备方法;徐玲, 2013.06.21,中国发明专利,ZL201310247665.8,已授权

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