研究方向

1. 清洁能源转换与存储材料（锂、钠离子电池、锂硫电池等）

2. 功能纳米材料（可控制备及性能调控）

联系方式

办公室

行远楼B509

E-mail

sunlin@nju.edu.cn

课题组网站

https://www.x-mol.com/groups/sun_lin

本课题组欢迎有志于新能源和新材料研究的青年人才加盟！

教育经历

2010.09－2013.06

2013.09－2017.06

2019.07至今

常州大学

南京大学

南京大学

化学工程

化学

化学

硕士

博士

博士后

工作经历

2017.10－至今

盐城工学院

副教授

荣誉与奖励

1.      江苏省“青蓝工程”优秀青年骨干教师（2023）

2.      高性能二次电池的复合电极材料结构设计与协同机理研究，2021年度江苏省科学技术奖三等奖（3/7）

3.      第六届江苏省科协青年会员（化学化工领域）创新创业大赛一等奖

4.      2018年江苏省高层次创新创业人才引进计划科技副总（FZ20180681）

5.      盐城工学院第二批“2311”高层次人才

6.      盐城工学院2022年科技标兵

7.      盐城工学院2021年度优秀共产党员

8.        盐城市政府专利奖银奖

9.        盐城市自然科学优秀学术成果二等奖

10.    Oriental Journal of Chemistry杰出审稿人

11.    2016年南京大学正大天晴博士一等奖学金；2012年硕士研究生国家奖学金；

2013年常州大学优秀毕业研究生。

研究项目

1.        主持在研国家自然科学基金青年项目 “抗氧化亚纳米硅/碳负极材料的液相合成调控机制及储锂特性”（52202309）；

2.        主持在研江苏省科技厅碳达峰碳中和专项基金“面向零碳排放与废热利用的“捕能-储能-一体化”热液流电池前沿技术基础”（BK20220008）；

3.        主持在研配位化学国家重点实验室开放课题“亚纳米尺度硅碳负极的结构调控及储锂机制”（SKLCC2308）；

4.        主持完成江苏省自然科学基金青年项目 “有序半导体硅纳米材料的溶液可控合成及组装机制研究”（BK20181056）；

5.        主持完成江苏省博士后科学基金项目“高能锂电池负极用有序介孔硅的自组装合成”（2020Z258）；

6.        主持完成江苏省光伏科学与技术国家重点实验室培育建设点开放项目“有序介孔硅的自组装合成及锂电性能研究”（SKLPST201901）；

7.        主持完成江苏省科技厅产学研合作项目“负载型杂多酸盐催化剂及其应用于制备缩醛（酮）类香料的方法”（BY2018264）；

8.        主持完成配位化学国家重点实验室开放项目“新型硅卤团簇的合成及介导有序硅纳米材料关键步骤研究”（SKLCC1802）；

9.        主持完成江苏省生态建材与环保装备协同创新中心暨江苏省新型环保重点实验室联合开放课题“新型半导体硅纳米材料的自组装合成及高效锂电性能研究”（JH201844）；

10.  参与主持完成国家自然科学基金面上项目“超大孔沸石分子筛的晶化机理研究”（21673115）；

11.  参与主持完成国家自然科学基金青年项目“非活泼芳烃氧化偶联反应金纳米簇催化剂的构建及催化机制研究”（21802119）；

12.  参与主持完成国家自然科学基金青年项目“智能光响应金属有机骨架材料的构筑及苯/环己烷吸附分离性能研究”（21808195）。

代表性论文

第一/通讯作者：

1.        Liu, Y.-X.; Shao R.; Jiang R.-Y.; Song, S.-Y.; Jin, Z.; Sun,   L.*; A Review of Existing and Emerging Binders   for Silicon Anodic Li-Ion Batteries, Nano Res., 2023, 16,   6736-6752.

2.        Sun, L.*; Liu, Y.-X.; Xie, J.; Fan, L.-L.; Wu,   J.; Jiang, R.-Y.; Jin, Z.*;  Polar   Co9S8 Anchored on Pyrrole-Modified Graphene with In Situ Growth of CNTs   as Multifunctional Self-Supporting Medium for Efficient Lithium-Sulfur   Batteries, Chem. Eng. J., 2023, 451, 138370.

3.        Sun, L. *; Liu, Y.-X.; Shao, R.; J   Wu, Jiang, R.-Y.; Jiang, R.-Y.; Jin, Z.*;   Recent Progress and Future Perspective on Practical Silicon Anode-Based   Lithium Ion Batteries, Energy Storage Mater., 2022, 46, 482-502. （ESI高被引论文、热点论文）

4.        Sun, L.*; Liu, Y.-X.; Wu, J.; Shao, R.; Jiang,   R.-Y.; Tie, Z.-X.; Jin, Z.*;  Rapid construction of highly-dispersed   cobalt nanoclusters embedded in hollow cubic carbon walls as an effective   polysulfide promoter in high-energy lithium-sulfur batteries, Nano   Res., 2022, 15, 5105-5113.

5.        Sun, L.*; Liu, Y.-X.; Zhang, K.-Q.; ; Cheng, F.;   Jiang, R.-Y.; Liu, Y.-Q.; Zhu, J; Jin, Z.*; Pang, H.*  A Review on Recent Advances for Boosting   Initial Coulombic Efficiency of Silicon Anodic Lithium Ion batteries. Small   2022, 18(5), 2102894.

6.        Sun, L.*; Liu,   M.-P.; Hu, Y.-X.*; Silicon-Based Nanomaterials: Synthesis, Optimization and   Applications. Front. Chem. 2022, doi:   10.3389/fchem.2022.951641.

7.        Sun, L.; Xie,   J.; Cheng, F.; Chen, R.-Y.; Zhu, Q.-L.; Jin, Z.*;  Rapid Construction of Two⁃Dimensional N, S⁃Co⁃doped Porous   Carbon for Realizing High⁃Performance Lithium⁃Sulfur Batteries.  Chin.   J. Inorg. Chem. 2022, 38, 1189-1198.

8.        Sun, L.; Xie,   J.; Huang, S.-C.; Liu, Y.-X.; Zhang, L.; Wu, J.; Jin, Z.*; Rapid CO₂   exfoliation of Zintl phase CaSi₂-derived ultrathin free-standing   Si/SiO_x/C nanosheets for high-performance lithium storage. Sci.   China. Mater. 2022, 65, 51-58.

9.        Sun, L.; Song,   X.-Y.; Liu, Y.-X.; Xie, J.; Wu, J.; Cheng, F.; Zhang, X.-L.; Tie, Z.-X.; Jin,   Z.*;  Spongy-like N,   S-codoped ultrathin layered carbon assembly for realizing high performance   sodium-ion batteries. FlatChem 2021, 28, 100258.

10.  Sun, L.; Xie, J.; Zhang, X.-X.;   Zhang, L.; Wu, J.; Shao, R.; Jiang, R.-Y.; Jin, Z.*;  Controllable synthesis of nitrogen-doped carbon nanobubbles to   realize high-performance for lithium and sodium storage. Dalton Trans.   2020, 49, 15712-15717.

11.  Sun, L.; Xie, J.; Zhang, L.; Jiang,   R.-Y.; Wu, J.; Fan, L.-L.; Shao, R.; Chen, Z.-D.; Jin, Z.*; 2D black TiO_2-x   nanoplate-decorated Ti₃C₂ MXene hybrids for ultrafast   and elevated stable lithium storage. FlatChem. 2020, 20,   100152.

12.  Sun, L.; Xie, J.; Liu T.; Huang,   S.-C.; Zhang, L.; Chen, Z.-D.; Jiang, R.-Y.; Jin, Z.*;  Preparation of Porous Silicon   Nanomaterials and Applications in High Energy Lithium Ion Batteries. Chin.   J. Inorg. Chem. 2020, 36, 393-405.

13.  Sun, L.; Xie, J. Jin, Z.*; Different   Dimensional Nanostructured Silicon Materials: From Synthesis Methodology to   Application in High-Energy Lithium-Ion Batteries. Energy Technol. 2019,   7, 1900962. （Materials Views China亮点报道）

14.  Sun, L.*; Xie, J.; Li, Q.; Wang,   F.; Xi, X.-G.; Li, L.; Wu, J.; Shao, R.; Chen, Z.-D.*; Facile synthesis of   thin black TiO_2-x nanosheets with enhanced lithium-storage   capacity and visible light photocatalytic hydrogen production. J. Solid   State Electrochem. 2019, 23, 803-810.

15.  Sun, L.*; Xie, J.; Chen, Z.-D.*;   Wu, J.; Li, L.*; Reversible lithium storage in a porphyrin-based MOF   (PCN-600) with exceptionally high capacity and stability. Dalton Trans. 2018,   47, 9989-9993. 

16.  Sun, L.; Wang, F.; Su, T.-T.; Du,   H.-B.*; Room-Temperature Solution Synthesis of Mesoporous Silicon for Lithium   Ion Battery Anodes. ACS Appl. Mater. Interfaces. 2017, 9,   40386-40393.

17.  Sun, L.; Wang, F.; Su, T.-T.; Du,   H.-B.*; Step-by-step assembly preparation of core-shell Si-mesoporous TiO₂   composite nanospheres with enhanced lithium-storage properties. Dalton   Trans. 2017, 46, 11542-11546.

18.  Sun, L.; Su, T.-T.; Xu, L.; Du,   H.-B.*; Preparation of uniform Si nanoparticles for high-performance Li-ion   battery anodes. Phys. Chem. Chem. Phys. 2016, 18,   1521-1525.

19.  Sun, L.; Su, T.-T.; Xu, L.; Liu,   M.-P.; Du, H.-B.*; Two-dimensional ultra-thin SiO_x (0 < x <   2) nanosheets with long-term cycling stability as lithium ion battery anodes.   Chem. Commun. 2016, 52, 4341-4344.

20.  Sun, L.; Shao, R.*; Tang, L.-Q.*;   Chen, Z.-D.; Synthesis of ZnFe₂O₄-ZnO nanocomposites   immobilized on graphene with enhanced photocatalytic activity under solar   light irradiation. J. Alloys Compd. 2013, 564, 55-62.（入选2012年以来被引次数最多论文之一）

21.  Sun, L.; Shao, R.; Chen, Z.-D.;   Tang, L.-Q.*; Dai, Y.; Ding, J.-F.;  Alkali-dependent synthesis of flower-like ZnO structures with   enhanced photocatalytic activity via a facile hydrothermal method. Appl.   Surf. Sci. 2012, 258, 5455-5461.

22.  Sun, L.; Shao, R.*; Tang, L.-Q.*;   Chen, Z.-D.; Synthesis of Ag/ZnO Nanocomposite with Excellent Photocatalytic   Performance via a Facile Sol-Gel Method. Adv. Mater. Res. 2014,   875-877, 251-256.

23.  Xie, J.; Sun, L.*; Liu,   Y.-X.; Xi, X.-G.; Chen, R.-Y.; Jin, Z.*; SiO_x/C-Ag nanosheets   derived from Zintl phase CaSi₂ via a facile redox reaction for   high performance lithium storage. Nano Res. 2021, doi: 10.1007/s12274-021-3491-z.

24.  Wu, J.; Wang, H.-N.; Bao, L.; Zhong, J.; Chen, R.-Y.*; Sun,   L.*; Novel raspberry-like hollow SiO₂@TiO₂   nanocomposites with improved photocatalytic self-cleaning properties: Towards   antireflective coatings. Thin Solid Films 2018, 651,   48-55. （Advances in Engineering亮点报道）

25.  Shao, R.; Sun, L.*; Tang, L.-Q.*; Chen,   Z.-D.; Preparation and characterization of magnetic core–shell ZnFe₂O₄@ZnO   nanoparticles and their application for the photodegradation of methylene   blue. Chem. Eng. J. 2013, 217, 185-191.

参与作者：

26.  Feng, Y.-G.; Wang, Y.-D.; Sun, L.; Zhang, K.-Q.; Liang,   J.-Q.; Zhu, M.-F.; Tie, Z.-X.; Jin, Z.; Fluorinated Interface Engineering   toward Controllable Zinc Deposition and Rapid Cation Migration of   Aqueous Zn-Ion Batteries, Small, 2023, 2302650.

27.  Zhang, L.; Jia, Y.; Luo, J.-B.; Huang, Y.; Chen, X.-Y.; An, Q.;   Shi, Z.-Q.; Sun, L.; Jiang, R.-Y.; Song, X.-Y.; Constructing imine and amine-based hydrogen-bonded organic frameworks   in aqueous media and selective CO₂ adsorption, Tetrahedron, 2023, 135,   133336.

28.  Wang, F.; Sun, L.; Zi, W.-W.; Zhao,   B.-X.; Du, H.-B.;  Solution   Synthesis of Porous Silicon Particles as an Anode Material for Lithium Ion   Batteries. Chem. Eur. J. 2019, 25, 9071-9077.

29.  Zhang, L.; Liang, R.-R.; Hang, C.; Wang, H.-Y.; Sun, L.;   Xu, L.; Zhang, Z.-Y.; Zhang, X.-M.; Chang, F.-F.; Zhao, S.-Y.; Huang, W.;  A facile solution-phase synthetic   approach for phenol-based porous organic cages and covalent organic   frameworks. Green Chem. 2020, 22, 2498-2504.

30.  Ye, Y.-Z.; Shen, F.; Wang, H.-N.; Chen, R.-Y.*; Sun, L.*;   Preparation of Titania Doped SiO₂ Nanotube Composites with   Manganese loadings for NH₃-SCR Applications. Chinese J. Inorg.   Chem. 2018, 34, 2088-2096.

31.  Li, L.*; Sun, L.; Cang, H.; Chu, W.; Shao, J.-L.;   Yan, J.-L.*; Silica-assisted mesoporous Co@Carbon nanoplates derived from   ZIF-67 crystals and their enhanced catalytic activity. J. Solid State   Chem. 2018, 267, 134-139.

32.  Wang, F.; Song, C.-S.; Zhao, B.-X.; Sun, L.; Du,   H.-B.;  One-pot   solution synthesis of carbon-coated silicon nanoparticles as an anode   material for lithium-ion batteries, Chem. Commun. 2019, 56,   1109-1112.

33.  Xu, L.; Zhai, M.-K.; Wang, F.; Sun, L.; Du, H.-B.*;   A series of robust metal-porphyrinic frameworks based on rare earth clusters   and their application in N-H carbene insertion. Dalton Trans. 2016,   45, 17108-17112.

34.  Gao, Z.-H.; Chen, F.-J.; Xu, L.; Sun, L.; Xu, Y.*;   Du, H.-B.*; A Stable Extra-Large-Pore Zeolite with Intersecting 14- and   10-Membered-Ring Channels. Chem. Eur. J. 2016, 22,   14367-14372.

35.  Liu, M.-P.; Su, T.-T.; Sun, L.; Du, H.-B.*; Facile   preparation of yolk-shell structured Si/SiC@C@TiO₂ nanocomposites   as highly efficient photocatalysts for degrading organic dye in wastewater. RSC   Adv. 2016, 6, 4063-4069.

36.  Xu, L.; Luo, Y.-P.; Sun, L.; Xu, Y.; Cai, Z.-S.;   Fang, M.*; Yuan, R.-X.*; Du, H.-B.*; Highly Stable Mesoporous Zirconium   Porphyrinic Frameworks with Distinct Flexibility. Chem. Eur. J. 2016,   22, 6268-6276.

37.  Liu, M.-P.; Luo, Y.-P.; Xu, L.; Sun, L.; Du, H.-B.*;   Hollow-structured Si/SiC@C nanospheres as highly active catalysts for   cycloaddition of epoxides with CO₂ under mild conditions. Dalton   Trans. 2016, 45, 2369-2373.

38.  Xu, L.; Luo, Y.-P.; Sun, L.; Pu, S.; Fang, M.;   Yuan, R.-X.; Du, H.-B.*; Tuning the properties of the metal–organic framework   UiO-67-bpy via post-synthetic N-quaternization of pyridine sites. Dalton   Trans. 2016, 45, 8614-8621.

39.  Pu, S.; Xu, L.; Sun, L.; Du, H.-B.*; Tuning the   optical properties of the zirconium–UiO-66 metal–organic framework for   photocatalytic degradation of methyl orange. Inorg. Chem. Commun. 2015,   52, 50-52.

40.  Wu, J.; Tang, L.-Q.; Sun, L.; Shao, R.; Synthesis   of ethyl vanillin using continuous flow microfluid technique. J. Chem.   Pharm. Res. 2013, 5, 824-829.

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