一、近年来代表性论文：

[1] X. Lu, T. Yang, Q. Xiong, X. Hu, J. Guo, Z. Ji, Constructing hierarchical cobalt doped SnO2/carbon cluster as high reversible and high capacity anodes for sodium storage, Journal of Electroanalytical Chemistry, 848 (2019) 113327.

[2] X. Lu, Q. Mao, Q. Xiong, S. Pan, X. Duan, Z. Ji, Fabrication of SnO2/pyrolytic carbon nanosphere via methods of precursor atomization and combustion as a high reversibility anode for sodium storage, Journal of Solid State Chemistry, 277 (2019) 556-563.

[3] Y. Chen, L. Bao, N. Du, T. Yang, Q. Mao, X. Lu*, Y. Lin, Z. Ji, In situ synthesis of carbon doped porous silicon nanocomposites as high-performance anodes for lithium-ion batteries, Nanotechnology, 30 (2019) 035602.

[4] X. Lu, Q. Mao, Y. Chen, L. Bao, L. Tong, Q. Xiong, H. Qin, H. Pan, Z. Ji, A novel oxygen vacancy introduced microstructural reconstruction of SnO2-graphene nanocomposite: Demonstration of enhanced electrochemical performance for sodium storage, Electrochim. Acta, 282 (2018) 351-361.

[5] X. Lu, F. Luo, Q. Xiong, H. Chi, H. Qin, Z. Ji, L. Tong, H. Pan, Sn-MOF derived bimodal-distributed SnO2 nanosphere as a high performance anode of sodium ion batteries with high gravimetric and volumetric capacities, Materials Research Bulletin, 99 (2018) 45-51.

[6] X. Lu, G. Wu, Q. Xiong, H. Qin, W. Wang, F. Luo, Fabrication of binder-free graphene-SnO2 electrodes by laser introduced conversion of precursors for lithium secondary batteries, Appl. Surf. Sci., 406 (2017) 265-273.

[7] X. Lu, G. Wu, Q. Xiong, H. Qin, Z. Ji, H. Pan, A novel microstructural reconstruction phenomenon and electrochemical performance of cactus-like SnO2/carbon composites as anode materials for Na-ion batteries, Electrochim. Acta, 245 (2017) 587-596.

[8] X. Lu, G. Wu, Q. Xiong, H. Qin, Z. Ji, H. Pan, Laser in-situ synthesis of SnO2/N-doped graphene nanocomposite with enhanced lithium storage properties based on both alloying and insertion reactions, Appl. Surf. Sci., 422 (2017) 645-653.

[9] X. Lu, F. Yang, Y. Wang, X. Geng, P. Xiao, The influence of graphene/carbon mass ratio on microstructure and electrochemical behavior in the graphene-SnO2-carbon composite as anodes for Li-ion batteries, J. Alloy. Compd., 636 (2015) 202-210.

[10] X. Lu, F. Yang, X. Geng, P. Xiao, Enhanced cyclability of amorphous carbon-coated SnO2-graphene composite as anode for Li-ion batteries, Electrochim. Acta, 147 (2014) 596-602.

[11] Q. Xiong, X. Teng, J. Lou, G. Pan, X. Xia, H. Chi, X. Lu, T. Yang, Z. Ji, Design of pyrite/carbon nanospheres as high-capacity cathode for lithium-ion batteries, Journal of Energy Chemistry, 40 (2020) 1-6.

[12] Y. Shi, Z. Yu, X. Lu, J. Zhang, Efficient Polymer Solar Cells Employing Solution-Processed Conjugated Polyelectrolytes with Differently Charged Side Chains, Macromolecular Chemistry and Physics, 221 (2020) 1900554.

[13] Y. Shi, X. Lu, Y. Zhang, J. Xi, Efficient polymer solar cells that use conjugated polyelectrolyte with a tetravalent amine-end side chain, Organic Electronics, 77 (2020) 105542.

[14] X. Hu, S. Xiang, H. Sun, X. Lou, Q. Xiong, X. Lu, H. Qin, Z. Ji, B. Hu, Low-temperature pseudomorphic transformation of polyhedral MIL-88A to lithium ferrite (LiFe3O5) in aqueous LiOH medium toward high Li storage, Nanoscale, 11 (2019) 11892-11901.

[15] T. Yang, D. Yang, Y. Liu, J. Liu, Y. Chen, L. Bao, X. Lu, Q. Xiong, H. Qin, Z. Ji, C.D. Ling, R. Zheng, MOF-derived carbon-encapsulated cobalt sulfides orostachys-like micro/nano-structures as advanced anode material for lithium ion batteries, Electrochim. Acta, 290 (2018) 193-202.

[16] H.Z. Chi, Y.Q. Wu, Y.K. Shen, C. Zhang, H. Qin, Q. Xiong, X. Lu, Z. Ji, Effects of anodic deposition of manganese oxide on surface chemical environment and capacitive performance of graphene hydrogel, Electrochim. Acta, 290 (2018) 487-495.

[17] Y. Chen, Q. Mao, L. Bao, T. Yang, X. Lu, N. Du, Y. Zhang, Z. Ji, Rational design of coaxial MWCNTs@Si/SiOx@C nanocomposites as extending-life anode materials for lithium-ion batteries, Ceramics International, 44 (2018) 16660-16667.

[18] X. Geng, F. Yang, H. Liu, X. Lu, P. Xiao, Palladium Migration Through a Zirconium Carbide Coating in TRISO-Coated Fuel Particles, Journal of the American Ceramic Society, 99 (2016) 1455-1463.

[19] X. Geng, F. Yang, Y. Chen, X. Lu, X. Zhong, P. Xiao, Silver assisted crack healing in SiC, Acta Materialia, 105 (2016) 121-129.

[20] Y. Wang, J. Cao, J. Rao, X. Lu, P. Xiao, Y. Zhou, D. Jia, J.-H. Ouyang, Electron beam "ballooned" carbon sphere derived from graphene oxide by a hydrazine assisted hydrothermal method, Rsc Advances, 4 (2014) 5826-5829.

二、 近年来授权发明专利：

(1)    陆潇晓，李瑞亨，季振国，毛启楠，骆芳，刘蓉，吴国龙，一种针对微型剃须刀具的高速激光离焦淬火强化方法，ZL 201711417053.3，发明，授权日期2019.6.25

(2)    陆潇晓，郑秀，季振国，熊琴琴，秦海英，一种具有粒径双峰分布的SnO2纳米球及其应用，ZL 201711049558.9，发明，授权日期2019.5.31

(3)    陆潇晓，童林聪，毛启楠，季振国，骆芳，熊琴琴，秦海英，含氧空位缺陷的SnO2-石墨烯纳米复合材料及其应用，ZL201810175614.1, 发明，授权日期2020.5.10

(4)    陆潇晓，童林聪，刘孝谦，鲍亮，陈逸凡，杨涛，熊琴琴，季振国，一种利用溶胶汽雾自燃烧法制备SnO2-非晶碳纳米复合小球的方法，ZL201810778105.8，发明，授权日期2020.11.17

(5)    陆潇晓，鲍亮，陈逸凡，杨涛，朱怡雯，熊琴琴，季振国，童林聪，一种在线裂解雾化复合前驱体制备SnO2/非晶碳纳米复合材料的方法，ZL201810778802.3，发明，授权日期2020.11.17

(6)    陆潇晓，吴国龙，熊琴琴，秦海英，季振国，卿振军，史月琴，一种利用激光辐照原位制备无粘结剂石墨烯/SnO2复合电极的方法, 专利公开号：201611014740.6

(7)    骆芳，陆潇晓，王伟彬，袁林江，一种碳化硅纳米纤维的制备方法，ZL201710463059.8，发明，授权日期2019.12.17

三、代表性科研项目

1．掺杂对于锡基钠米复合材料储钠性能的影响及机理研究（51804092），国家自然科学基金委，2019.1--2021.12，项目主持人

2．浙江省钱江人才D类项目--高端装备阀类零部件的强化制造（QJD1802012），浙江省人力资源与社会保障厅，2018.10-2019.9，项目主持人

3．无粘结剂SnO2纳米复合电极的激光可控制备及储锂过程的失效机制（LY18E020005），浙江省自然科学基金委，2018.01-2019.12，项目主持人

4．军民融合培育基金--军用xxx电极组件的研发，浙江省军民融合委员会，2017.10-2019.10，项目主持人

5. 晶格缺陷及异质结构对于锡基储钠材料性能退变的影响机制研究（TY21E020009），浙江省自然科学基金委，2021.01-2023.12，项目主持人