主持项目：

1、国家自然科学基金青年科学基金项目

论题：p-MgNiO/立方相n-MgZnO异质结界面特性、物性调控及紫外发光器件研究

项目批准号：11304128 

总经费28万元    

2、江苏省高校自然科学基金面上项目，

论题：p-NiO/i-MgO/立方相n-MgZnO异质结界面调控及紫外探测器研究

项目编号：13KJB140004

总经费3.2万元。

3、江苏科技大学校级项目

论题：纳米团簇材料焊接及烧结的动力学与热学稳定性研究

项目批准号：2010SL100J  

总经费2.0万元

4、东南大学生物电子学国家重点实验室开放课题

论题：ZnO/内源性小分子吸附界面特性的第一性原理研究

总经费6.0万元

5、中国博士后科学基金第60批面上资助项目

论题：磷烯外延生长过程中成核和连续生长的微观机理研究

总经费5.0万元

参与项目：

1、国家自然科学基金青年科学基金项目

论题：微纳米氧化锌结构中的回音壁模极化激元受激辐射研究

项目批准号：11104119

2、国家自然科学基金面上项目

论题：纳米氧化锌表面的生物分子组装与免疫检测

项目批准号：60976002

3、国家自然科学基金面上项目

论题：氧化锌/石墨烯复合回音壁模微腔中紫外激光的研究

项目批准号：61275054

4、江苏省自然科学基金--面上项目

论题：金属/介质/ZnO:Sn复合回音壁表面等离激元微纳激光研究

目批准号：BK20151329

5、江苏省自然科学基金--青年基金项目

论题：基于 TiO2纳米管 /环异质结构钙钛矿电池设计 

项目批准号：BK20160561 

教师获奖：

1、获2008年和2013年学校《大学物理实验》教学质量优秀奖；

2、第九届大学生物理及实验科技作品创新竞赛二等奖作品优秀指导老师；

3、镇江市2013年优秀科技论文理科组一等奖；

4、2013/2014学年江苏科技大学优秀教师；

5、江苏省高校“青蓝工程”优秀青年骨干教师；

6、江苏科技大学2015/2016学年教学优秀奖；

7、江苏科技大学2016/2017学年优秀教师；

8、半导体光子材料荧光特性及微纳激光设计，江苏省教育厅，二等奖，排名第五，2018；

9、江苏科技大学2018/2019学年教学优秀奖；

10、江苏省高校微课教学比赛 微课程 三等奖 作品《古今中外漫谈物理》排名第二，2020.12

11、江苏科技大学2019/2020学年教学优秀奖；

指导学生获奖：

1、第九届江苏省高校大学生物理与实验科技作品创新竞赛  二等奖 2012.11

2、第十届江苏省高校大学生物理与实验科技作品创新竞赛 三等奖 王越 滕德燊  2013.11

3、第十二届江苏省高校大学生物理与实验科技作品创新竞赛 三等奖  李莉 魏炜 孙广平  2015.11

4、第十三届江苏省高校大学生物理与实验科技作品创新竞赛 三等奖 陈平超 苗德壮 吴升聪  2016.11

5、第十五届江苏省高校大学生物理与实验科技作品创新竞赛 三等奖 智能语音OCR放大镜的设计及功能实现  刘跃，  

   2018.11.25

6、第五届江苏省智能（虚拟）仪器大赛三等奖 《基于Scratch软件设计的凯特摆测重力加速度实验仪器》 王方龙、黎尧、

   李旭、彭绍曼、黄元庆，2020.11

7、第六届全国大学生物理实验竞赛三等奖  王方龙、黎尧、李旭、彭绍曼、黄元庆，2020.12.23

8、第十七届江苏省高校大学生物理与实验科技作品创新竞赛 三等奖 潘玉琪 高浩然 尤烁朝  2020.11

9、江苏科技大学 优秀硕士学位论文，田斌伟，2020.06

教研

1、完成了江苏省现代教育技术研究所“十一五” 规划滚动课题一项，课题名称《物理实验在信息化背景下的自主学习研究》，并以第二作者在期刊《实验室研究与探索》上发表研究论文《大学物理实验学生自主学习调查分析与实践初探》（2010,29:114-117）。

2、以第一作者发表课程教学论文：

（1）《教学与社会服务兼顾的物理演示实验室运行探讨》，河套学院学报，2013,10:57-59.

（2）《基于生活科技的大学物理绪论教学研究与实践》，高等函授学报（自然科学版），2013,26:24-27.

（3）《基于物理过程模拟的计算物理教学研究与实践》，江苏教育学院学报（自然科学版），2013,29:34-36.

（4）《大学物理学习中微积分教学策略研究与应用》，邵阳学院学报（自然科学版），2020,17：67-72.

（5）《脉冲激光沉积镀膜实验虚拟仿真教学的设计与实践》,实验科学与技术，2023（21）：77-81

3、成功申报学校2013年教学（考核）方法改革示范课程项目，以应用物理专业课程《计算物理》立项,已顺利结题，主持编写了《计算物理讲义》和《计算物理实验指导书》。

4、主持“《大学物理》教学改革示范课程建设”项目，2018-2020.

5、主持“专业渗透和加强物理素质教育的《大学物理》教学改革研究与实践”，2018-2019.

6、共同主持“大学物理1--江苏省在线开放课程立项”，2018-2020.

7、主持编写江苏科技大学研究生教材《计算材料学》，2021-2022.

8、主持获批江苏省一流课程：脉冲激光沉积镀膜虚拟仿真实验，2021.07

9、出版主编教材：

（1）《基于密度泛函理论的计算材料学基础》，南京大学出版社，2023

（2）《大学物理》，南京大学出版社，2024

科研资料收集

1、   Pentagon-based 2D materials

2、  2D carbon structure database!

3、 高能量密度锂硫电池离商业应用还有多远？

4、北京大学 吕劲 老师主页

教学参考

1、CPU是如何制造出来的？高清图解

2、【手绘图解】从零维到十维空间

3、最强物理科普

4、Linux 最强总结

5、物理吸附与化学吸附的含义与异同

6、查找下载外文文献的工具

7、人工智能时代的高等教育白皮书

8、半导体材料研究框架：详解八大芯片材料

9、芯片半导体基础知识

10、芯片类型与技术节点

11、快速了解第一性原理计算与密度泛函理论

拿来的感悟

1、26幅哲理漫画

2、感恩的心、比黄金贵的诚信、发自内心的善良

通讯作者

17.Renhao Xu, Zonggang Qiu, Jiyuan Guo *,Theoretical evaluation of gas sensing and capturing characteristics on the
point defective diboron dinitride monolayer,Journal of Physics and Chemistry of Solids 184 (2024) 111695

https://doi.org/10.1016/j.jpcs.2023.111695【3区，Impact Factor4.0】

16.Han Wang, Fan Kong, Zonggang Qiu, Jiyuan Guo, * Huabing Shu and Qin Wei,Theoretical prediction of 2D biphenylene as a potential anchoring material for lithium–sulfur batteries,Phys. Chem. Chem. Phys., 2023, 25, 25240

https://doi.org/10.1039/D3CP02863A【3区，Impact Factor 3.3】

15.ZonggangQiu,FanKong,HanWang,JiyuanGuo,HuabingShu,JunDai,Computational evaluation of lithium functionalized Penta-BN2 as promising reversible hydrogen storage, International journal o f hydrogen energy 48 ( 2023 ) 36051-36062

https://doi.org/10.1016/j.ijhydene.2023.05.319  【2区，Impact Factor 7.139 】

14. MinruiYang,FanKong,LeiChen,BinweiTian,JiyuanGuo,Potential application of two-dimensional PC6 monolayer as an anode material in alkali metal-ion (Li, Na, K) batteries,Thin Solid Films 769 (2023) 139734.

https://doi.org/10.1016/j.tsf.2023.139734   【3区，Impact Factor 2.358】

13.Fan Kong,^aLei Chen,^aMinrui Yang,^aJiyuanGuo^aJia Wan,^aHuabing Shu and Jun Dai，Investigation of the anchoring and electrocatalytic properties of pristine and doped borophosphene for Na–S batteries，Phys. Chem. Chem. Phys., 2023,25, 5443-5452.

https://doi.org/10.1039/D2CP05366G  【2区，Impact Factor 3.676 】

12.Author links open overlay panelFanKong，LeiChen，MinruiYang，JiyuanGuo，YingWang，HuabingShu，JunDai，Theoretical probing the anchoring properties of BNP₂monolayer for lithium-sulfur batteries，Applied Surface Science 594 (2022)   153393.    https://doi.org/10.1016/j.apsusc.2022.153393   【1区，Impact Factor 6.707 】

11.Minrui Yang,^aLei Chen,^aFan Kong,^aJiyuan Guo﹡,^aHuabing Shu and Jun Dai，Promising application of a SiC₂/C₃B heterostructure as a new platform for lithium-ion batteries，Phys. Chem. Chem. Phys., 2022,24, 6926-6934

https://doi.org/10.1039/D1CP05298E 【2区，Impact Factor 3.676 】

10.Lei Chen, Minrui Yang, Fan Kong, Jiyuan Guo﹡⁎, Huabing Shu, Jun Dai,Metallic penta-Graphene/penta-BN2 heterostructure with high specific capacity: A novel application platform for Li/Na-ion batteries,Journal of Alloys and Compounds 901 (2022) 163538.

https://doi.org/10.1016/j.jallcom.2021.163538   【2区，Impact Factor 5.316 】

9.Lei Chen,^aMinrui Yang,^aFan Kong,^aWenling Du,^aJiyuan Guo*^a  and    Huabing Shu, Penta-BCN monolayer with high specific capacity and mobility as a compelling anode material for rechargeable batteries,Phys. Chem. Chem. Phys., 2021, ,23, 17693 - 17702，DOI: 10.1039/D1CP03017E

【2区，Impact Factor 3.676 】

https://pubs.rsc.org/en/content/articlelanding/2021/cp/d1cp03017e/unauth

8.Author links open overlay panelLeiChen,WenlingDu,Jiyuan Guo*,HuabingShu,YingWang,JunDai,Modelling of monolayer penta-PtN2 as an anode material for Li/Na-ion storage,Materials Chemistry and Physics, 262(2021)124312.    DOI: 10.1016/j.matchemphys.2021.124312

【3区，Impact Factor 3.408】

https://www.sciencedirect.com/science/article/abs/pii/S025405842100095X?dgcid=rss_sd_all

7.W.L. Du, L. Chen, Jiyuan Guo*, H.B. Shu,Novel borophosphene as a high capacity anode material for Li-ion storage,Journal of Solid State Chemistry 296 (2021) 121950.

【3区，Impact Factor 2.726】

https://www.sciencedirect.com/science/article/abs/pii/S0022459620307817

6.Jiyuan Guo*,Binwei Tian,Huabing Shu,Ying Wang  and Jun Dai,Multidimensional B4N as novel anode materials for lithium ion batteries, Phys. Chem. Chem. Phys., 2020,22, 19913-19922. DOI: 10.1039/D0CP02668A

【2区，Impact Factor 3.676 】

https://pubs.rsc.org/en/content/articlelanding/2020/cp/d0cp02668a/unauth#!divAbstract

5.Binwei Tian, Wenling Du, Lei Chen,Jiyuan Guo*, Huabing Shu, Ying Wang, Jun Dai,Probing pristine and defective NiB6 monolayer as promising anode materials for Li/Na/K ion batteries，Applied Surface Science 527 (2020) 146580

【2区，Impact Factor 6.182】

https://www.sciencedirect.com/science/article/abs/pii/S0169433220313374

4.Binwei Tian, Taohua Huang,Jiyuan Guo *, Huabing Shu, Ying Wang, Jun Dai,Performance effects of doping engineering on graphene-like C3N as an anode material for alkali metal ion batteries,Materials Science in Semiconductor Processing 109 (2020) 104946.

【3区，Impact Factor 3.085】

https://www.sciencedirect.com/science/article/abs/pii/S1369800119313964

3.Binwei Tian, Taohua Huang, Jiyuan Guo∗, Huabing Shu, Ying Wang, Jun Dai,Gas adsorption on the pristine monolayer GeP3: A first-principles calculation,Vacuum 164 (2019) 181–185.

【3区，Impact Factor 2.906】

https://www.sciencedirect.com/science/article/abs/pii/S0042207X18323923

2.Taohua Huang, Binwei Tian, Jiyuan Guo∗, Huabin Shu, Ying Wang, Jun Dai，Semiconducting borophene as a promising anode material for Li-ion and Na-ion batteries，Materials Science in Semiconductor Processing， 89 (2019) 250–255.

【3区，Impact Factor 3.085】

https://www.sciencedirect.com/science/article/abs/pii/S1369800118313209

1.黄桃花，郭纪源∗，孙晨立，陈雷,锑烯表面碱金属原子吸附和扩散行为研究.人工晶体学报,47(2018)635-641.

http://www.cnki.com.cn/Article/CJFDTotal-RGJT201803030.htm

第一作者发表论文

1.Guo J.Y.,Li C.S.,Xiao C.M.,Effect of Geometrical Confinement on Depletion Interactions in Colloidal Suspensions[J]. Chin.Phys.Lett.,22(2005),1267-1269.

2.Guo J.Y.,Huang L.X.,Xiao C.M.,Effects of unsymmetrical geometric confinements on depletion interactions in colloidal suspensions[J].Chin. Phys. Soc.15(7),(2006)0001-7.

3.Guo J.Y.,Chen Z.S.,Huang L.X.,Xiao C.M.,Effects of Geometrical Confinement on Depletion Force in Colloidal System[J].Chinese Journal of Chemical Physics,18(6),2005,993-996.

4.Guo J.Y.,Xiao C.M.,Grand Canonical Ensemble Monte Carlo Simulation of Depletion Interactions in Colloidal Suspensions[J]. Chin.Phys.Lett.,25 (2008) 314-316.

5.Guo J.Y., Xu C.X., Wu P., Gu B.X, Structure evolution of Zn cluster on Si (001) substrate for ZnO nanostructure growth [J]. J. Crystal Growth, 312(2010)3609–3612.

6.Guo J. Y., Xu C. X., Gu B. X., Sheng F. Y. Structure evolution of Zn cluster on graphene for ZnO nanostructure growth [J].J. Appl. Phys. 109(2011) 024307(1-4).

7.Guo J. Y., Xu C. X., Shi Z. L., Dai J., Li Z. H., and Sheng F. Y. Heteroepitaxial structure of Zn atoms deposit on graphene, Si (001) and graphene/Si (001) substrates for ZnO nanostructure growth [J]. J. Crystal Growth, 336(2011)32-39.

8.Guo J. Y., Xu C. X., Yang C., Dai J., Li Z. H.Influence of carbon nanotube on the structure evolution of Ni–Cu alloy nanorod [J]. Eur. Phys. J. D 61(2011) 621-625.

9.Guo J. Y., Xu C. X.Comparative investigation on decorating carbon nanotubes with different transition metals [J]. Appl. Phys. A 102 (2011) 333–337.

10.Guo J.Y., Xu C.X., Hu A.M., Shi Z. L., Sheng F.Y., Dai J., Li Z.H., Welding of gold nanowires with different joining procedures [J]. J. Nanopart. Res, 14(2012)666.

11.Guo J. Y.,Xu C. X., Sheng F. Y., Shi Z. L., Dai J., Li Z.H., Hu X. Simulation on initial growth stages of graphene on Pt (111) surface [J]. J. Appl. Phys. 111(2012)044318.

12.Guo J.Y., Xu C.X., Hu A.M., Sheng F.Y., Shi Z. L., Dai J., Li Z.H. Sintering dynamics and thermal stability for the different arranged styles of Ag clusters [J].J. Phys.Chem.Solids,73 (2012) 1350.

13.Guo J.Y., Xu C.X., Sheng F.Y., Jin Z.L, Shi Z. L., Dai J., Li Z.H. Morphology and Structure of Nickel Cluster in the Heterojunction between Carbon Nanotube and Metal [J].Quantum Matter 2(2013）181-186

合作发表

[10].Wang, Y (Wang, Ying); Cheng, Q (Cheng, Quan); Guo, JY (Guo, Jiyuan); Wang, W (Wang, Wei)，Sonic horizon dynamics for quantum systems with cubic-quintic-septic nonlinearity，AIP ADVANCES,9( 2019)

[9].Fu, X (Fu, Xi); Guo, JY (Guo, Jiyuan); Li, LM (Li, Liming); Dai, TN (Dai, Tianao),Structural and electronic properties of predicting two-dimensional BC2P and BC3P3 monolayers by the global optimization method,CHEMICAL PHYSICS LETTERS,726(2019)69-76

[8].Shu, HB (Shu, Huabing); Guo, JY (Guo, Jiyuan); Niu, XH (Niu, Xianghong),Electronic, photocatalytic, and optical properties of two-dimensional boron pnictides,JOURNAL OF MATERIALS SCIENCE,54(2019)2278-2288.

[7].Fu, X (Fu, Xi); Guo, JY (Guo, Jiyuan); Li, LM (Li, Liming),Computational prediction of two-dimensional monolayer B6C2P2 by the global optimization method,32(2018)30

[6].Shu, HB (Shu, Huabing); Guo, JY (Guo, Jiyuan),Electronic and optical properties of phosphorene-like arsenic phosphorus: a many-body study,MATERIALS RESEARCH EXPRESS,5(2018)3

[5].Li, Q (Li, Qiang); Zhao, YH (Zhao, Yinghe); Guo, JY (Guo, Jiyuan); Zhou, QH (Zhou, Qionghua); Chen, Q (Chen, Qian); Wang, JL (Wang, Jinlan),On-surface synthesis: a promising strategy toward the encapsulation of air unstable ultra-thin 2D materials,NANOSCALE,10(2018)3799-3804.

[4].Zhu, GY (Zhu, Gangyi); Li, JP (Li, Jiaping); Li, JT (Li, Jitao); Guo, JY (Guo, Jiyuan); Dai, J (Dai, Jun); Xu, CX (Xu, Chunxiang); Wang, YJ (Wang, Yongjin),Single-mode ultraviolet whispering gallery mode lasing from a floating GaN microdisk,43(2018)647-650.

[3].Shu, HB (Shu, Huabing); Li, YH (Li, Yunhai); Niu, XH (Niu, Xianghong); Guo, JY (Guo, JiYuan),Electronic structures and optical properties of arsenene and antimonene under strain and an electric field,JOURNAL OF MATERIALS CHEMISTRY C6(2018)83-90.

[2].Li, SF (Li, Shifeng); Wang, Y (Wang, Ying); Zhou, Y (Zhou, Yu); Guo, JY (Guo, Jiyuan); Gao, GJ (Gao, Guojun); Zhang, YM (Zhang, Yamei),Soliton dynamics for one dimensional quantum system incorporating higher-order dispersion effect and nonlinear interactions,CHINESE JOURNAL OF PHYSICS,55(2017)2436-2440

[1].Shu, HB (Shu, Huabing); Tong, YL (Tong, Yilong); Guo, JY (Guo, Jiyuan),Novel electronic and optical properties of ultrathin silicene/arsenene heterostructures and electric field effects,PHYSICAL CHEMISTRY CHEMICAL PHYSICS 19(2017)10644-10650

2016年及以前

1.Xiao C .M., Guo J. Y., Hu P.,Geometrical confinements and depletion interactions[J].Phys.Rev.E 73,(2006)061403.

2.Xiao C .M., Guo J. Y.,Li C.S.,Depletion forces in colloidal system under geometrical confinements[J].Europhys. Lett., 73 (3)(2006) 443–449

3.Xiao C .M., Guo J. Y., Hu P.,A Monte Carlo Study of Influences on Depletion Force from Another Large Sphene in Colloidal Suspensions[J]. Chin.Phys.Lett. 23(4)(2006)1038-1041.

4.Hu A.M, Guo J. Y., Alarifi H., Patane G., Zhou Y., Compagnini G. and Xu C. X. Low temperature sintering of Ag nanoparticles for flexible electronics Packaging[J]. Appl. Phys.Lett. 97(2010)153117.

5.Sheng F.Y., Xu C.X., Guo J. Y., Zhu G.Y, Chen Q., Structural, electronic and infrared spectral properties of ZnO hexagonal nanodisks with different saturate conditions[J].Science of Advanced Materials,3(2011)709-718.

6.Dai J., Xu C. X., Wu P., Guo J. Y., Li Z. H., and Shi Z. L. Exciton and electron-hole plasma lasing in ZnO dodecagonal whispering-gallery-mode microcavities at room temperature[J]. Appl. Phys.Lett. 97 (2010) 011101.

7.Dai J., Xu C.X., Shi Z.L., Ding R., Guo J.Y., Li Z.H., Gu B.X., Wu P. Three-photon absorption induced whispering gallery mode lasing in ZnO twin-rods microstructure[J]. Opt. Mater. 33(2011) 288-291.

8.Dai J., Xu C. X., Sun L. X., Chen Z. H., Guo J. Y. and Li Z. H., Multiphoton absorption-induced optical whispering-gallery modes in ZnO microcavities at room temperature[J]. J. Phys. D: Appl.Phys. 44(2011) 025404.

9.Dai J., Xu C. X., Gao M., Liu Z., Shi Z. L., Xu X. Y., Guo J. Y., Li Z. H., Structure evolution and optical properties of the hierarchical ZnO micro/nanorods fabricated by two-step growth method[J]. CrystEngComm, 14(2012) 2180-2185.

10.Xu, X.Y, Jin, Z.L, Xu, C.X, Guo, J.Y, Shi, Z.L, Pan, J., Hu, J.G, DEFECT-ORIGIN AND STABILITY OF VISIBLE EMISSION IN ZnO NANOPILLARS, Functional Materials Letters, 5(3), (2012 )1240001.

11.Sheng F.Y, Xu C.X.,Jin Z.L.,Guo J.Y.,Fang S.J.,Shi Z.L, Wang J.L.Simulation on Field Enhanced Electron Transfer between the Interface of ZnO−Ag Nanocomposite[J].J. Phys. Chem. C  2013, 117 (36), pp 18627–18633

12.Hu A., Peng P., Alarifi H., Zhang X.Y., Guo J. Y., Zhou Y.,Duley W. W.,Femtosecond laser welded nanostructures and plasmonic devices[J]JOURNAL OF LASER APPLICATIONS,2012,24(4)042001

13.Dai, J., Xu C.X.,Guo J.Y., Xu X.Y., Zhu G.Y., Lin Y.,Brush-like SnO2/ZnO hierarchical nanostructure: Synthesis, characterization and application in UV photoresponse[J]. AIP ADVANCES 2013,3(6),062108

14.Jun Dai, Xu C. X., Gao M., Liu Z., Shi Z. L., Xu X. Y., Guo J. Y., Li Z. H., Structure evolution and optical properties of the hierarchical ZnO micro/nanorods fabricated by two-step growth method[J]. CrystEngComm, 14(2012) 2180-2185.

15..Sheng F.Y, Xu C.X.,Jin Z.L.,Guo J.Y.,Fang S.J.,Shi Z.L, Wang J.L.Simulation on Field Enhanced Electron Transfer between the Interface of ZnO−Ag Nanocomposite[J].J. Phys. Chem. C  2013, 117 (36), pp 18627–18633

16.Jun Dai, Chunxiang Xu, Xiaoyong Xu, Jiyuan Guo, Jitao Li,Gangyi Zhu, and Yi Lin，Single ZnO Microrod Ultraviolet Photodetector with HighPhotocurrent Gain，ACS Appl. Mater. Interfaces 2013, 5, 9344−9348

17.Jun Dai, Chunxiang Xu, Jitao Li, Yi Lin, Jiyuan Guo, and Gangyi Zhu,Photoluminescence and Two-Photon Lasing of ZnO:Sn Microdisks,J. Phys. Chem. C 2014, 118, 14542−14547

18.Jun Dai; Junfeng Lu; Fang Wang; Jiyuan Guo; Ning Gu; Chunxiang Xu,Optical and Exciton Dynamical Properties of a Screw-Dislocation-Driven ZnO:Sn Microstructure, ACS Appl. Mater. Interfaces, 2015,7(23), 12655-12662 .

19. Jun Dai; Pengxia Zhou; Junfeng Lu; Hongge Zheng; Jiyuan Guo; Fang Wang; Ning Gu; Chunxiang Xu,The excitonic photoluminescence mechanism and lasing action in band-gap-tunable CdS1−xSex nanostructures,Nanoscale, 2016,8, 804-811

20. Wang, Y (Wang, Ying); Li, SH (Li, Shaohong); Guo, JY (Guo, Jiyuan); Zhou, Y (Zhou, Yu); Zhou, QC (Zhou, Qingchun); Zhou, SY (Zhou, Shuyu); Zhang, YS (Zhang, Yongsheng),Exact soliton solution for the fourth-order nonlinear Schrodinger equation with generalized cubic-quintic nonlinearity,MATHEMATICAL METHODS IN THE APPLIED SCIENCES，39（2016）5770-5774