林春富

基本信息

• 姓名：林春富

• 职称：副教授

• 联系方式：见黄页

• 电子邮件：linchunfu@dhu.edu.cn

• 研究方向：储能电池固态离子学

• 个人简介：中国材料研究学会青年工作委员会第八届理事会理事。Journal of Materials Chemistry A期刊2022年度新锐科学家（Emerging Investigator）。入选2024年度“全球前2%顶尖科学家”榜单。入选2021年度“全球十万科学家”榜单。新加坡国立大学President’s Graduate Fellowship获得者。担任国家自然科学基金通讯评议人。担任Advanced Materials、Advanced Energy Materials、Advanced Functional Materials、Advanced Science、Angewandte Chemie International Edition、Journal of the American Chemical Society、ACS Energy Letters、Nano Letters、Energy Storage Materials、Nano Energy和Chemistry Materials等四十余个SCI期刊的审稿专家。与国内外相关课题组有良好的合作关系。热忱欢迎对科研有热情、对学术有追求的青年教师和优秀学生加入！

学习和工作经历

科研成果

• 以第一作者或通讯作者身份在Angewandte Chemie International Edition、Advanced Energy Materials（×4）、Advanced Functional Materials（×3）、Advanced Science（×4）、ACS Nano、Nano Energy、Energy Storage Materials（×3）、Energy & Environmental Materials、Chemistry of Materials、eScience、Nano-Micro Letters、Chemical Engineering Journal、Small（×2）、Journal of Materials Chemistry A（×8）、ACS Applied Materials & Interfaces（×2）、ACS Applied Nano Materials、Nanoscale（×2）、Journal of Power Sources（×6）、Chemical Communications（×4）、Electrochimica Acta（×5）等期刊上发表SCI论文>80篇。论文入选2018年度中国百篇最具影响国际学术论文。论文两获“铌在电池中研究优秀论文奖”。撰写中文专著1部和英文专著中的1章。主持国家自然科学基金2项和横向项目3项。获省级科技进步二等奖和三等奖各1项。

科研论文

期刊论文（一作/通讯）：

2025年

83) Qiao Li1, Liting Yang1, Guisheng Liang1, Jiahui Yu, Shaowu Huang, Liming Wu*, Chunfu Lin*, Renchao Che*, Negative thermal expansion behavior enabling good electrochemical-energy-storage performance at low temperatures, Angewandte Chemie International Edition, 2025, 63: e202419300.

82) Yan Zhao, Qiang Yuan, Liting Yang, Guisheng Liang, Yifeng Cheng, Limin Wu*, Chunfu Lin*, Renchao Che*, “Zero-strain” NiNb2O6 fibers for all-climate lithium storage. Nano-Micro Letters, 2025, 17: 15.

2024年

81) Lei Wang, Yanchen Fan, Yan Zhao, Qiang Yuan, Haoxi Ben, Hui (Claire) Xiong, Ying Shao, Chunfu Lin*, Chunrong Ma*, Optimized architectural engineering and interface modulation in metallic-phase selenide for exceptional sodium-storage performance, Nano Energy, 2024, 132: 110408.

80) Wenze Wang, Qian Zhang, Liting Yang, Guisheng Liang, Xuhui Xiong, Yifeng Cheng, Liming Wu*, Chunfu Lin*, and Renchao Che*, How do the four core factors of high entropy affect the electrochemical properties of energy-storage materials? Advanced Science, 2024, 11: 2411291.

79) Lei Wang, Yanchen Fan, Guangshuai Han, Haoxi Ben, Chunfu Lin*, Chunrong Ma*, Engineering fast diffusion channels in metal sulfide/selenide heterostructures via confinement effect for high-performance sodium storage. Chemical Engineering Journal, 2024, 493: 152732.

78) Yan Zhao, Qiang Yuan, Xuehua Liu, Zhongzhu Liu, Aimin Guo, Robson Monteiro, Luanna Parreira, Rogerio Ribas, Chunfu Lin*, Carbon-coated V0.6Mo0.4Zr0.4Nb8.6O25 with an enlarged crystal structure for high-performance lithium-ion batteries. Journal of Energy Storage, 2024, 91: 112019.

77) Yi Lei, Qing Yuan, Yan Zhao, Lei, Wang, Zhongzhu Liu, Robson Monteiro, Luanna Parreira, Rogerio Ribas, Aimin Guo, Chunfu Lin*, Carbon-coated TiNb2O7 microspheres with partial nitridation for high-performance lithium storage. Functional Materials Letters, 2024, 17: 2450014.

76) Qiang Yuan, Xiangzhen Zhu, Yan Zhao, Lei Wang, Yi Lei, Xuehua Liu, Chunfu Lin*, W7Nb4O31 nanorods with a mixed crystal structure: A very fast- and stable-charging anode material for aqueous lithium-ion batteries. Advanced Functional Materials, 2024, 34: 2400010.

75) Xingxing Jin1, Qiang Yuan1, Xiaolin Sun1, Xuehua Liu, Jianfei Wu*, Chunfu Lin*, Porous Nb4W7O31 microspheres with a mixed crystal structure for high-performance Li+ storage. Energy Materials, 2024, 4: 400004.

2023年

74) Changpeng Lv, Chunfu Lin*, Xiu Song Zhao*, Enhancing low-temperature electrochemical kinetics and high-temperature cyclic stability by decreasing ionic packing factor. eScience, 2023, 3: 100179.

73) Yinjun Ou, Liting Yang, Jiazhe Gao, Songjie Li, Xuehua Liu, Yifeng Cheng, Jincang Zhang, Limin Wu*, Chunfu Lin*, Renchao Che*, Absolutely-zero-expansion behavior enables ultra-long life for stationary energy storage. Advanced Functional Materials, 2023, 33: 2305329.

72) Songjie Li, Jiazhe Gao, Yinjun Ou, Xuehua Liu, Liting Yang, Yifeng Cheng, Jincang Zhang, Liming Wu*, Chunfu Lin*, Renchao Che*, Temperature effects on electrochemical energy-storage materials: a case study of yttrium niobate porous microspheres. Small, 2023, 19: 2303763.

71) Shangfu Gao, Songjie Li, Liting Yang, Xuehua Liu, Yi-Feng Cheng, Jincang Zhang, Chunfu Lin*, Renchao Che*, “Zero-strain” Li2VSiO5 for high-performance lithium storage. Chemistry of Materials, 2023, 35: 4048–4056.

70) Jiazhe Gao1, Liting Yang1, Cihui Huang1, Guisheng Liang1, Yi Lei, Songjie Li, Wenze Wang, Yinjun Ou, Shangfu Gao, Xuehua Liu, Yifeng Cheng, Jincang Zhang, Zhongzhu Liu, Aiming Guo, Robson Monteiro, Luanna Parreira, Rogerio Ribas, Chunfu Lin*, Limin Wu*, Renchao Che*, Sodium niobate with a large interlayer spacing: a fast-charging, long-life, and low-temperature friendly lithium-storage material. Advanced Science, 2023, 10: 2300583.

69) Yinjun Ou, Songjie Li, Jiazhe Gao, Wenze Wang, Qian Zhang, Shangfu Gao, Chunfu Lin*, Temperature effects on electrochemical performance of Li4Ti5O12. Functional Materials Letters, 2023, 16: 2351012.

68) Shangfu Gao, Songjie Li, Jiazhe Gao, Xuehua Liu*, Chunfu Lin*, Carbon coated “zero-strain” Li2TiSiO5 nanowires for high-performance lithium storage. Materials Technology, 2023, 38: 2204292.

66) Jiazhe Gao, Songjie Li, WenzeWang, Yinjun Ou, Shangfu Gao, Xuehua Liu*, Chunfu Lin*, Carbon-coated CuNb13O33 as a new anode material for lithium storage. Materials, 2023, 16: 1818.

2022年

67) Qian Zhang1, Siyuan Ma1, Wenze Wang, Shangfu Gao, Yinjun Ou, Songjie Li, Xuehua Liu, Chunfu Lin*, “Zero-strain” K2SrV4O12 as a high-temperature friendly Li+-storage material. Energy Storage Materials, 2022, 52: 637–645.

65) Songjie Li, Jiazhe Gao, Yinjun Ou, Wenze Wang, Qian Zhang, Shangfu Gao, Xuehua Liu, Chunfu Lin*, A general strategy to enhance electrochemical activity and energy density of energy-storage materials through using sintering aids with redox activity. Journal of Materials Chemistry A, 2022, 10: 19953–19962.

64) Wenze Wang, Qian Zhang, Tian Jiang, Songjie Li, Jiazhe Gao, Xuehua Liu, Chunfu Lin*, Conductive LaCeNb6O18 with a very open A-site-cation-deficient perovskite structure: a fast- and stable-charging Li+-storage anode compound in a wide temperature range. Advanced Energy Materials, 2022, 12: 2200656.

63) Jianbin Deng1, Changpeng Lv1, Tian Jiang, Siyuan Ma, Xuehua Liu, Chunfu Lin*, Selective doping to controllably tailor maximum unit-cell-volume change of intercalating Li+-storage materials: A case study of 𝜸 phase Li3VO4. Advanced Science, 2022, 9: 2106003.

62) Siyuan Ma, Tian Jiang, Jianbin Deng, Qian Zhang, Yinjun Ou, Xuehua Liu, Chunfu Lin*, Kuikui Wang*, X.S. Zhao, VPO5: an all-climate lithium-storage material. Energy Storage Materials, 2022, 46: 366–373.

61) Weifeng Huang, Changchun Yang*, Ning Miao, Chunfu Lin*, Wei Xu, Augusto Marceli, Wei Huang*, A novel temperature-dependent electrochemical system for electrode materials with time resolved XRD function. Scripta Materialia, 2022, 211: 114529.

60) Changpeng Lv, Chunfu Lin*, X.S. Zhao*, Rational design and synthesis of nickel niobium oxide with high-rate capability and cycling stability in a wide temperature range. Advanced Energy Materials, 2022, 12: 2102550.

59) Tian Jiang, Siyuan Ma, Jianbin Deng, Tao Yuan*, Chunfu Lin*, Meilin Liu*, Partially reduced titanium niobium oxide: a high-performance lithium-storage material in a broad temperature range. Advanced Science, 2022, 9: 2105119.

58) Liting Yang1, Guisheng Liang1, Haijie Cao1, Siyuan Ma, Xuehua Liu, Xiao Li, Guanyu Chen, Wenbin You, Chunfu Lin*, Renchao Che*, A new sodium calcium cyclotetravanadate framework: “zero-strain” during large-capacity lithium intercalation. Advanced Functional Materials, 2022, 32: 2105026.

57) Cihui Huang, Renjie Li, Lijie Luo*, Yongjun Chen*, Chunfu Lin*, The exploration of a CuNb3O8 Li+-storage anode compound. Materials Technology, 2022, 37: 814–821.

2021年

56) Jinping Huang, Qing Chen, Shuaifeng Chen, Lijie Luo*, Jianbao Li, Chunfu Lin*, Yongjun Chen*, Al3+-doped FeNb11O29 anode materials with enhanced lithium-storage performance. Advanced Composites and Hybrid Materials, 2021, 4: 733–742.

55) Renjie Li, Guisheng Liang, Xiangzhen Zhu, Qingfeng Fu, Yongjun Chen, Lijie Luo, Chunfu Lin*, Mo3Nb14O44: a new Li+ container for high-performance electrochemical energy storage. Energy & Environmental Materials, 2021, 4: 65–71.

54) Xingxing Jin, Lijie Luo, Yongjun Chen, Jianbao Li*, Chunfu Lin*, BiNb5.4O15: a new Li+-storage material with a tetragonal tungsten bronze crystal structure. Functional Materials Letters, 2021, 14: 2150005.

53) Mingxing Liang, Yongcong Huang, Yuda Lin, Guisheng Liang, Cihui Huang, Lan Chen*, Jiaxin Li*, Qian Feng*, Chunfu Lin*, Zhigao Huang, Micro-nano structured VNb9O25 anode with high electronic conductivity for high-rate and long-life lithium storage. Journal of Materials Science & Technology, 2021, 83: 66–74.

52) Qing Chen, Longyang Liu, Shuaifeng Chen, Huan Yang, Lijie Luo*, Chunfu Lin*, Juanxiu Xiao, Jianbao Li, Changjiu Li, Yongjun Chen*, An efficient method for large-scale preparation of high-purity α-Si3N4 nanowires and their electrochemical performance. Ceramics International, 2021, 47: 11304–11312.

2020年

51) Qingfeng Fu, Xiangzhen Zhu, Renjie Li, Guisheng Liang, Lijie Luo, Yongjun Chen, Yuanli Ding, Chunfu Lin*, Kuikui Wang*, Xiu Song Zhao, A low-strain V3Nb17O50 anode compound for superior Li+ storage. Energy Storage Materials, 2020, 30: 401–411.

50) Xiangzhen Zhu, Guisheng Liang, Qingfeng Fu, Renjie Li, Yongjun Chen*, Yicheng Bi, Duo Pan, Rajib Das, Chunfu Lin*, Zhanhu Guo*, An inverse opal Cu2Nb34O87 anode for high-performance Li+ storage. Chemical Communications, 2020, 56: 7321–7324.

49) Shuaifeng Chen, Huan Yang, Qing Chen, Longyang Liu, Xue Hou, Lijie Luo*, Chunfu Lin*, Changjiu Li, Yongjun Chen*, Synthesis of BCN nanoribbons from coconut shells using as high-performance anode materials for lithium-ion batteries. Electrochimica Acta, 2020, 346: 136239.

48) Guisheng Liang1, Liting Yang1, Qing Han, Guanyu Chen, Chunfu Lin*, Yongjun Chen, Lijie Luo, Xianhu Liu, Yuesheng Li, Renchao Che*, Conductive Li3.08Cr0.02Si0.09V0.9O4 anode material: novel “zero-strain” characteristic and superior electrochemical Li+ storage. Advanced Energy Materials, 2020, 10: 1904267.

47) Qingfeng Fu, Haijie Cao, Guisheng Liang, Lijie Luo, Yongjun Chen, Vignesh Murugadoss, Shide Wu, Tao Ding, Chunfu Lin*, Zhanhu Guo*, A highly Li+-conductive HfNb24O62 anode material for superior Li+ storage. Chemical Communications, 2020, 56: 619–622.

46) Guisheng Liang, Xingxing Jin, Cihui Huang, Lijie Luo*, Yongjun Chen, Chunfu Lin*, Cr3+ doped Li3VO4 for enhanced Li+ storage. Functional Materials Letters, 2020, 13: 2050005.

2019年

45) Xiangzhen Zhu, Haijie Cao*, Renjie Li, Qingfeng Fu, Guisheng Liang, Yongjun Chen, Lijie Luo, Chunfu Lin*, Xiu Song Zhao, Zinc niobate materials: crystal structures, energy-storage capabilities and working mechanisms. Journal of Materials Chemistry A, 2019, 7: 25537–25547.

44) Liting Yang1, Xiangzhen Zhu1, Xiaohui Li, Xuebing Zhao, Ke Pei, Wenbin You, Xiao Li, Yongjun Chen, Chunfu Lin*, Renchao Che*, Conductive copper niobate: superior Li+-storage capability and novel Li+-transport mechanism. Advanced Energy Materials, 2019, 9: 1902174.

43) Qingfeng Fu, Renjie Li, Xiangzhen Zhu, Guisheng Liang, Lijie Luo, Yongjun Chen, Chunfu Lin*, X.S. Zhao, Design, synthesis and lithium-ion storage capability of Al0.5Nb24.5O62. Journal of Materials Chemistry A, 2019, 7: 19862–19871.

42) Renjie Li, Yiran Pu, Jian Xu, Qingfeng Fu, Guisheng Liang, Xiangzhen Zhu, Lijie Luo*, Yongjun Chen, Chunfu Lin*, Novel GaNb49O124 microspheres with intercalation pseudocapacitance for ultrastable lithium-ion storage. Ceramics International, 2019, 45: 12211–12217.

41) Xiangzhen Zhu, Jian Xu, Yunpeng Luo, Qingfeng Fu, Guisheng Liang, Lijie Luo, Yongjun Chen, Chunfu Lin*, X.S. Zhao*, MoNb12O33 as a new anode material for high-capacity, safe, rapid and durable Li+ storage: structural characteristics, electrochemical properties and working mechanisms. Journal of Materials Chemistry A, 2019, 7: 6522–6532.

40) Renjie Li, Xiangzhen Zhu, Qingfeng Fu, Guisheng Liang, Yongjun Chen, Lijie Luo, Mengyao Dong, Qian Shao, Chunfu Lin*, Renbo Wei*, Zhanhu Guo*, Nanosheet-based Nb12O29 hierarchical microspheres for enhanced lithium storage. Chemical Communications, 2019, 55: 2493–2496.

39) Xiaoming Lou1, Renjie Li1, Xiangzhen Zhu, Lijie Luo, Yongjun Chen, Chunfu Lin*, Hongliang Li, X.S. Zhao*, New anode material for lithium-ion batteries: aluminum niobate (AlNb11O29). ACS Applied Materials & Interfaces, 2019, 11: 6089–6096.

2018年

38) Xiangzhen Zhu, Qingfeng Fu, Lingfei Tang, Chunfu Lin*, Jian Xu, Guisheng Liang, Renjie Li, Lijie Luo, Yongjun Chen, Mg2Nb34O87 porous microspheres for use in high-energy, safe, fast-charging and stable lithium-ion batteries. ACS Applied Materials & Interfaces, 2018, 10: 23711–23720.

37) Qingfeng Fu, Xin Liu, Jingrong Hou, Yiran Pu, Chunfu Lin*, Liang Yang, Xiangzhen Zhu, Lei Hu, Shiwei Lin, Lijie Luo, Yongjun Chen, Highly conductive CrNb11O29 nanorods for use in high-energy, safe, fast-charging and stable lithium-ion batteries. Journal of Power Sources, 2018, 397: 231–239.

36) Lei Hu1, Lijie Luo1, Lingfei Tang, Chunfu Lin*, Renjie Li, Yongjun Chen, Ti2Nb2xO4+5x anode materials for lithium-ion batteries: a comprehensive review. Journal of Materials Chemistry A, 2018, 6: 9799–9815.

35) Renjie Li, Chunfu Lin*, Ning Wang*, Lijie Luo*, Yongjun Chen, Jianbao Li*, Zhanhu Guo*, Advanced composites of complex Ti-based oxides as anode materials for lithium-ion batteries. Advanced Composites and Hybrid Materials, 2018, 1: 440–459.

34) Renjie Li, Yi Qin, Xin Liu, Liang Yang, Chunfu Lin*, Ran Xia, Shiwei Lin, Yongjun Chen, Jianbao Li, Conductive Nb25O62 and Nb12O29 anode materials for use in high-performance lithium-ion storage. Electrochimica Acta, 2018, 266: 202–211.

33) Xiaoming Lou1, Qingfeng Fu1, Jian Xu, Xin Liu, Chunfu Lin*, Jiaxing Han, Yunpeng Luo, Yongjun Chen, Xiaoyong Fan, Jianbao Li, GaNb11O29 Nanowebs as high-performance anode materials for lithium-ion batteries. ACS Applied Nano Materials, 2018, 1: 183–190.

32) Chunfu Lin, Lei Hu, Chuanbing Cheng, Kai Sun, Xinkuai Guo, Qian Shao, Jianbao Li, Ning Wang*, Zhanhu Guo*, Nano-TiNb2O7/carbon nanotubes composite anode for enhanced lithium-ion batteries of electric vehicles. Electrochimica Acta, 2018, 260: 65–72.

31) Lei Hu, Ruohan Lu, Lingfei Tang, Ran Xia, Chunfu Lin*, Zhibin Luo, Yongjun Chen, Jianbao Li, TiCr0.5Nb10.5O29/CNTs nanocomposite as an advanced anode material for high-performance Li+-ion storage. Journal of Alloys and Compounds, 2018, 732: 116–123.

30) Qingfeng Fu, Jingrong Hou, Ruohan Lu, Chunfu Lin*, Yu Ma, Jianbao Li, Yongjun Chen, Electrospun Ti2Nb10O29 hollow nanofibers as high-performance anode materials for lithium-ion batteries. Materials Letters, 2018, 214: 60–63.

2017年

29) Chao Yang, Shu Yu, Chunfu Lin*, Fan Lv, Shunqing Wu, Yong Yang, Wei Wang, Zi-Zhong Zhu, Jianbao Li, Ning Wang, Shaojun Guo*, Cr0.5Nb24.5O62 nanowires with high electronic conductivity for high-rate and long-life lithium-ion storage. ACS Nano, 2017, 11: 4217–4224.

28) Chao Yang, Yelong Zhang, Fan Lv, Chunfu Lin*, Yao Liu, Kai Wang, Jianrui Feng, Xiaohong Wang, Yongjun Chen, Jianbao Li, Shaojun Guo*, Porous ZrNb24O62 nanowires with pseudocapacitive behavior achieve high-performance lithium-ion storage. Journal of Materials Chemistry A, 2017, 5: 22297–22304.

27) Chunfu Lin, Shengjue Deng, David J. Kautz, Zhihao Xu, Tao Liu, Jianbao Li, Ning Wang*, Feng Lin*, Intercalating Ti2Nb14O39 anode materials for fast-charging, high-capacity and safe lithium-ion batteries. Small, 2017, 13: 1702903.

26) Shengjue Deng, Zhibin Luo, Yating Liu, Xiaoming Lou, Chunfu Lin*, Chao Yang, Hua Zhao, Peng Zheng, Zhongliang Sun, Jianbao Li, Ning Wang, Hui Wu, Ti2Nb10O29–x mesoporous microspheres as promising anode materials for high-performance lithium-ion batteries. Journal of Power Sources, 2017, 362: 250–257.

25) Chao Yang, Shu Yu, Yu Ma, Chunfu Lin*, Zhihao Xu, Hua Zhao, Shunqing Wu, Peng Zheng, Zi-Zhong Zhu, Jianbao Li, Ning Wang, Cr3+ and Nb5+ co-doped Ti2Nb10O29 materials for high-performance lithium-ion storage. Journal of Power Sources, 2017, 360: 470–479.

24) Xiaoming Lou, Zhihao Xu, Zhibin Luo, Chunfu Lin*, Chao Yang, Hua Zhao, Peng Zheng, Jianbao Li, Ning Wang, Yongjun Chen, Hui Wu, Exploration of Cr0.2Fe0.8Nb11O29 as an advanced anode material for lithium-ion batteries of electric vehicles. Electrochimica Acta, 2017, 245: 482–488.

23) Xiaoming Lou, Chunfu Lin*, Qiang Luo, Jinbo Zhao, Bin Wang, Jianbao Li, Qian Shao, Xingkui Guo, Ning Wang*, Zhanhu Guo*, Crystal-structure modification enhanced FeNb11O29 anodes for lithium-ion batteries. ChemElectroChem, 2017, 4: 3171–3180.

2016年

22) Chao Yang1, Shengjue Deng1, Chunfu Lin*, Shiwei Lin, Yongjun Chen, Jianbao Li, Hui Wu, Porous TiNb24O62 microspheres as high-performance anode materials for lithium-ion batteries of electric vehicles. Nanoscale, 2016, 8: 18792–18799.

21) Chao Yang, Chunfu Lin*, Shiwei Lin, Yongjun Chen, Jianbao Li, Cu0.02Ti0.94Nb2.04O7: an advanced anode material for lithium-ion batteries of electric vehicles. Journal of Power Sources, 2016, 328: 336–344.

20) Lei Hu, Chunfu Lin*, Changhao Wang, Chao Yang, Jianbao Li, Yongjun Chen, Shiwei Lin, TiNb2O7 nanorods as a novel anode material for secondary lithium-ion batteries. Functional Materials Letters, 2016, 9: 1642004.

19) Chunfu Lin*, Guisheng Liang, Jinxiang Gao, Shengjue Deng, Shiwei Lin*, Jianbao Li, Heavily Cr3+-modified Li4Ti5O12: an advanced anode material for rechargeable lithium-ion batteries. Functional Materials Letters, 2016, 9: 1650012.

2015年

18) Chunfu Lin1,*, Shu Yu1, Shunqing Wu*, Shiwei Lin*, Zi-Zhong Zhu, Jianbao Li, Li Lu*, Ru0.01Ti0.99Nb2O7 as an intercalation-type anode material with a large capacity and high rate performance for lithium-ion batteries. Journal of Materials Chemistry A, 2015, 3: 8627–8635.

17) Chunfu Lin*, Guizhen Wang, Shiwei Lin*, Jianbao Li, Li Lu*, TiNb6O17: a new electrode material for lithium-ion batteries. Chemical Communications, 2015, 51: 8970–8973.

16) Chunfu Lin1,*, Shu Yu1, Hua Zhao, Shunqing Wu*, Guizhen Wang, Lei Yu, Yanfang Li, Zi-Zhong Zhu, Jianbao Li, Shiwei Lin*, Defective Ti2Nb10O27.1: an advanced anode material for lithium-ion batteries. Scientific Reports, 2015, 5: 17836.

15) Chunfu Lin*, Shengjue Deng, Hong Shen, Guizhen Wang, Yanfang Li, Lei Yu, Shiwei Lin*, Jianbao Li, Li Lu*, Li5Cr9Ti4O24: a new anode material for lithium-ion batteries. Journal of Alloys and Compounds, 2015, 650: 616–621.

14) Chunfu Lin*, Chao Yang, Shiwei Lin*, Jianbao Li, Titanium-containing complex oxides as anode materials for lithium-ion batteries: a review. Materials Technology, 2015, 30: 192–202.

2014年

13) Chunfu Lin, Xiaoyong Fan, Yuelong Xin, Fuquan Cheng, Man On Lai, Henghui Zhou*, Li Lu*, Li4Ti5O12-based anode materials with low working potentials, high rate capabilities and high cyclability for high-power lithium-ion batteries: a synergistic effect of doping, incorporating a conductive phase and reducing particle size. Journal of Materials Chemistry A, 2014, 2: 9982–9993.

12) Chunfu Lin, Xiaoyong Fan, Yuelong Xin, Fuquan Cheng, Man On Lai, Henghui Zhou*, Li Lu*, Monodispersed mesoporous Li4Ti5O12 submicrospheres as anode materials for lithium-ion batteries: morphology and electrochemical performances. Nanoscale, 2014, 6: 6651–6660.

11) Chunfu Lin, Bo Ding, Yuelong Xin, Fuquan Cheng, Man On Lai, Li Lu*, Henghui Zhou*, Advanced electrochemical performance of Li4Ti5O12-based materials for lithium-ion battery: synergistic effect of doping and compositing. Journal of Power Sources, 2014, 248: 1034–1041.

10) Chunfu Lin, Shufeng Song, Man On Lai, Li Lu*, Li3.9Cu0.1Ti5O12/CNTs composite for the anode of high-power lithium-ion batteries: Intrinsic and extrinsic effects. Electrochimica Acta, 2014, 143: 29–35.

9) Chunfu Lin, Man On Lai, Li Lu*, Henghui Zhou*, Spinel Li4–2xCo3xTi5–xO12 (0≤x≤0.5) for lithium-ion batteries: crystal structures, material properties and battery performances. The Journal of Physical Chemistry C, 2014. 118: 14246–14255.

8) Chunfu Lin, Man On Lai, Li Lu*, Henghui Zhou*, Mesoporous Li4Ti5O12–x/C submicrospheres with comprehensively improved electrochemical performances for high-power lithium-ion batteries. Physical Chemistry Chemical Physics, 2014, 16: 24874–24883.

7) Chunfu Lin, Man On Lai, Henghui Zhou*, Li Lu*, Li3.33Cu1.005Ti4.665O12/CuO composite with P4332 space group for lithium-ion batteries: synergistic effect of substituting and compositing. RSC Advances, 2014, 4: 31196–31200.

6) Chunfu Lin, Yuelong Xin, Fuquan Cheng, Man On Lai, Henghui Zhou*, Li Lu*, Recent development in the rate performance of Li4Ti5O12. Applied Science and Convergence Technology, 2014, 23: 72–82.

2013年及以前

5) Chunfu Lin, Man On Lai, Li Lu*, Henghui Zhou*, Yuelong Xin, Structure and high rate performance of Ni2+ doped Li4Ti5O12 for lithium ion battery. Journal of Power Sources, 2013, 244: 272–279.

4) Chunfu Lin, Hong Lin*, Dongtian Zhuang, Jianbao Li, Highly-ordered perpendicular-oriented ZnO nanobelt films: synthesis, characterization and application. Journal of Nanoscience and Nanotechnology, 2009, 9: 1976–1984.

3) Chunfu Lin, Hong Lin*, Jianbao Li, Xin Li, Electrodeposition preparation of ZnO nanobelt array films and application to dye-sensitized solar cells. Journal of Alloys and Compounds, 2008, 462: 175–180.

2) Chunfu Lin, Hong Lin*, Ning Wang, Xing Zhang, Jun Yang, Jianbao Li, Xiaozhan Yang, Facile synthesis of long, straight and uniform copper nanowires via a solvothermal method. Rare Metal Materials and Engineering, 2006, 35: 644–645.

1) Chunfu Lin*, Xing Zhang, Hong Lin*, Ning Wang, Jianbao Li, Xiaozhan Yang, Synthesis of ordered mesoporous carbon using MCM-41 mesoporous silica as a template. Advanced Materials Research, 2006, 11–12: 543–546.

专利情况

1) 林春富；梁贵生。一种锂离子电池的电极材料及其制备方法，ZL201910744253.2。

2) 林春富；黄慈辉；赵修松。一种二次锂离子电池的电极材料的制备方法及其应用，ZL202010401184.8。

3) 林春富；梁贵生；赵修松。一种脱嵌型钒基负极材料及其制备方法，ZL202010397504.7。

4) 林春富；楼晓鸣；符庆丰；陈拥军。一种锂离子电池的电极材料及其制备方法，ZL201710946829.4。

5) 林春富；林红；庄东填；李建保。染料敏化太阳能电池的ZnO电极及其制备方法，ZL200710177245.1。