陈焕君

中山大学教授、博导。

教育部国家重大人才工程(青年)入选者(2018年)

电子邮箱:[email protected]

联系电话:020-84110916

学术主页://scholar.google.com/citations?user=jV7cacEAAAAJ&hl=zh-CN

学术兼职和社会服务

1)2020年入选SCI期刊Nanomaterials编委会成员(Editorial Board Member);

2)2023年担任SCI期刊Nanomaterials专题副主编(Topic Associate Editor);

3)2023年担任期刊Frontiers in Photonics副主编(Associate Editor);

4)担任Nature、Nature Materials、Nature Communications、Advanced Materials、Nano Letters、ACS Nano、Light: Science & Applications、Advanced Functional Materials、Nanoscale、Advanced Optical Materials、ACS Photonics等国际一区期刊审稿人。

教育经历

2007年8月~2010年8月,香港中文大学 物理学     博士

2004年9月~2007年7月,中山大学   光学工程  硕士

2000年9月~2004年7月,中山大学   物理学     本科

授课课程

固体物理

纳米光子学

普通物理实验

光子学

研究方向

1)纳米光子与纳米光电子
2)极化激元物理、材料及光电器件研究
3)太赫兹及中远红外探测材料与器件

诚挚邀请各位同学报考研究生或者加入进行本科科研体验!

请联系邮箱:[email protected]

科研项目

1)极化激元二维材料及其太赫兹波微纳探测器研究,广州市基础研究”领航类“项目,30万,2023年4月1日—2026年3月31日,主持;

2)太赫兹波与中远红外光探测及调制用的高性能二维晶体极化激元序构材料研究,国家自然科学基金委员会重大研究计划“功能基元序构的高性能材料基础研究”重点支持项目,300万,2020年1月—2023年12月,主持;

3)基于微纳结构的亚毫米波探测新方法及器件研究,国家重点研发计划“纳米科技”专项“新型纳米结构亚毫米波辐射源和探测器及集成技术”项目子课题(课题三),141万,2019 年11 月—2024 年10 月,课题中山大学方负责人;

4)范德华α-MoO3晶体微纳序结构的制备、中红外声子极化激元新效应、及光电应用探索研究,广东省自然科学基金面上项目,10万,2020年1月—2022年12月,主持;

5)二维原子晶体材料的光电特性与新原理器件探索,国家自然科学基金重大项目,748万,2013年1月—2017年12月,学术骨干,已结题;

6)一维可变价态过渡金属氧化物纳米结构的近红外表面等离激元研究,国家自然科学基金面上项目,110万,2015年1月—2018年12月,主持,已结题;

7)基于局域表面等离子体共振增强的硅纳米线光电流特性及其物理机制的研究,国家自然科学基金青年科学项目,25万,2013年1月—2015年12月,主持,已结题;

8)纳米异质结构的近红外局域光场耦合研究,广东省自然科学杰出青年基金项目,100万,2014年10月—2018年10月,主持,已结题;

9)广东特支计划百千万工程青年拔尖人才,10万,2015年6月—2018年5月,主持,已结题;

10)金属纳米结构阵列表面等离子体共振对量子点发光行为的调制,教育部科技发展中心博士点基金新教师类,4万,2013年1月—2015年12月,主持,已结题;

11)局域表面等离子体共振增强单根硅纳米线光电流的研究,广东省自然科学基金博士启动项目,3万,2012年10月—2014年10月,主持,已结题;

12)基于磁共振模式的光场局域及定向光散射研究,广州市珠江科技新星专项,30万,2016年5月—2019年4月,主持,已结题;

13)中山大学百人计划引进人才启动经费,60万,2012年1月—2013年12月,主持,已结题。

代表性科研成果

长期致力于极化激元效应及其新型光电功能材料与器件的研究,关注低维结构激元效应及机制、激元结构构筑与电磁场调控、光电探测材料及器件,围绕“材料制备-物理效应研究-器件应用”开展全链条研究,在SCI 期刊已发表120篇文章,他引8000余次(SCI)/11000余次(Google),H 指数51(SCI)/56(Google),研究成果被Nature,Science,Nat. Materials,Nat. Photonics,Nat. Nanotechnology,Nat. Communications,Nat. Rev. Mater.,Sci. Adv.等重要学术期刊引用。

代表性文章(全部文章列表请参见Google Scholar://scholar.google.com/citations?user=jV7cacEAAAAJ&hl=zh-CNResearchID//www.researcherid.com/rid/I-7080-2012

 

2024年:

1) A Flexible and Wearable Photodetector Enabling Ultra-Broadband Imaging from Ultraviolet to Millimeter-Wave Regimes, Shaojing Liu, Ximiao Wang, Ningsheng Xu, Runli Li, Hai Ou, Shangdong Li, Yongsheng Zhu, Yanlin Ke, Runze Zhan, Huanjun Chen,* Shaozhi Deng Advanced Science, 2024, accepted. SCI收录,影响因子:17.520

2) Stretchable, Transparent, and Ultra‑Broadband Terahertz Shielding Thin Films Based on Wrinkled MXene Architectures, Shaodian Yang,# Zhiqiang Lin,# Ximiao Wang,# Junhua Huang, Rongliang Yang, Zibo Chen, Yi Jia, Zhiping Zeng, Zhaolong Cao, Hongjia Zhu, Yougen Hu, Enen Li, Huanjun Chen,* Tianwu Wang,* Shaozhi Deng,* Xuchun Gui* Nano-Micro Letters, 2024, 16, 165,SCI收录,影响因子:26.600

 

2023年:

1) α-MoO3/石墨烯异质叠层结构中的声子极化激元-等离极化激元杂化波导模式, 孙凤升, 郑泽波, 黄悟朝, 许宁生, 王锡描, 王天武, 陈焕君,* 邓少芝* 中国激光, 2023, 1, 176−187. 中国自然科学核心期刊,影响因子:1.324(纳米光子材料专刊,封面文章

2)A Centimeter-Scale Type-II Weyl Semimetal for Flexible and Fast Ultra-Broadband Photodetection from Ultraviolet to Sub-Millimeter Wave Regime, Qi Yang,† Ximiao Wang,† Zhihao He, Yijun Chen, Shuwei Li, Huanjun Chen,* Shuxiang Wu* Advanced Science, 2023, 2205609. SCI收录,影响因子:17.520

3) In-Plane Hyperbolic Polariton Tuners in Terahertz and Long-Wave Infrared Regimes, Wuchao Huang,† Thomas G. Folland,† Fengsheng Sun,† Zebo Zheng,† Ningsheng Xu, Qiaoxia Xing, Jingyao Jiang, Joshua D. Caldwell,* Hugen Yan,* Huanjun Chen,* Shaozhi Deng* Nature Communications, 2023,14, 2716. SCI收录,影响因子:17.690

4) Room–Temperature Terahertz Detector Based on Monolayer Graphene Integrated with an Asymmetric Bowtie Antenna, Zicheng Guo,† Chaojun Ma,† Hai Ou, Ximiao Wang, Shaojing Liu, Huanjun Chen,* Shaoyong Zheng,* Shaozhi Deng Photonics, 2023,10, 576. SCI收录,影响因子:2.536

5) Rigorous Modal Analysis of Chiral Nanoparticles, Zhaolong Cao, Jinyang Li, Shaozhi Deng, and Huanjun Chen* Advanced Optical Materials, 2023, 11,  2300599. SCI收录,影响因子:10.050(Featured as a Front Cover story

6) Néel-Type Optical Target Skyrmions Inherited from Evanescent Electromagnetic Fields with Rotational Symmetry, Bo Tian,† Jingyao Jiang,† Zebo Zheng, Ximiao Wang, Shaojing Liu, Wuchao Huang, Tian Jiang,* Huanjun Chen,* Shaozhi Deng Nanoscale, 2023, 15, 13224−13232. SCI收录,影响因子:6.700(Featured as a Front Cover story

7) In-plane Dipolar Nano-antenna Steers Polariton Waves at Nanoscale, Huanjun Chen, Shaohzi Deng* Light: Science & Applications, 2023, 12, 253. SCI收录,影响因子:6.700(Invited News & Views

 

2022年:

1) A Physical Interpretation of Coupling Chiral Metaatoms, Zhaolong Cao, Jianfa Chen, Shaozhi Deng, Huanjun Chen*  Nanoscale, 2022, 14, 3849−3857. SCI收录,影响因子:7.790(Themed Issue: 2022 Emerging Investigators

2) Controlling and Focusing In-plane Hyperbolic Phonon Polaritons in α-MoO3 with a Curved Plasmonic Antenna, Zebo Zheng, Jingyao Jiang, Ningshegn Xu, Ximiao Wang, Wuchao Huang, Yanlin Ke, Shouren Zhang, Huanjun Chen,* Shaozhi Deng* Advanced Materials, 2022, 34, 2104164. SCI收录,影响因子:30.849(Featured as a Front Cover story

3) Tunable Hyperbolic Phonon Polaritons in a Suspended Van Der Waals α-MoO3 with Gradient Gaps, Zebo Zheng, Fengshegn Sun, Ningshegn Xu, Wuchao Huang, Xuexian Chen, Yanlin Ke, Runze Zhan, Huanjun Chen,* Shaozhi Deng* Advanced Optical Materials, 2022, 10, 2102057. SCI收录,影响因子:10.050

4) A Planar Plasmonic Nano-gap and its Array for Enhancing Light−Matter Interactions at Nanoscale, Li Zhang, Ximiao Wang, Huanjun Chen,* Chuan Liu,* Shaozhi Deng Nanoscale, 2022, 14, 12257−12264. SCI收录,影响因子:7.790(Featured as a Back Cover story

 

2021年:

1) In-Plane Anisotropic Raman Spectroscopy of van der Waals α‑MoO3, Muqian Wen,† Xuexian Chen,† Zebo Zheng, Shaozhi Deng, Zhibin Li, Weiliang Wang,* Huanjun Chen* Journal of Physical Chemistry C, 2021, 125, 765−773. SCI收录,影响因子:4.189(Featured as Inside Cover story

2) Polariton Waveguide Modes in Two-Dimensional Van der Waals Crystals: An Analytical Model and Correlative Nano-imaging, Fengsheng Sun,† Wuchao Huang,† Zebo Zheng,† Ningsheng Xu, Yanlin Ke, Runze Zhan, Huanjun Chen,* Shaozhi Deng* Nanoscale, 2021, 13, 4845−4854. SCI收录,影响因子:6.860(Themed Collection: Advances in Plasmonics and Its Applications

3) High-quality All-inorganic Perovskite CsPbBr3 Microsheet Crystals as Low-loss Subwavelength Exciton−Polariton Waveguides, Zijuan Li,† Fengsheng Sun,† Zebo Zheng,† Jun Chen, Albert V. Davydov, Shaozhi Deng,* Huairuo Zhang,* Huanjun Chen,* Fei Liu* Nano Letters, 2021, 21, 1822−1830. SCI收录,影响因子:11.238

4) Ultrafast Generation of Optical Hyperbolicity, Shaozhi Deng,* Huanjun Chen Science, 2021, 371, 572−573. SCI收录,影响因子:41.845(Invited Perspectives

Summary: //science.sciencemag.org/cgi/content/summary/371/6529/572?ijkey=hKJ...

Reprint: //science.sciencemag.org/cgi/rapidpdf/371/6529/572?ijkey=hKJv/rTFgR...

Full text: //science.sciencemag.org/cgi/content/full/371/6529/572?ijkey=hKJv/r...

5) A Nano-imaging Study of Graphene Edge Plasmons with Chirality-Dependent Dispersions, Ximiao Wang†, Zebo Zheng†, Ningsheng Xu, Weiliang Wang,* Huanjun Chen,* Shaozhi Deng* Advanced Optical Materials, 2021, 9, 2100207. SCI收录,影响因子:10.050(Featured as Front Cover story; Featured by Materials Views China

6) Van Der Waals Phonon Polariton Microstructures for Configurable Infrared Electromagnetic Field Localizations, Wuchao Huang†, Fengsheng Sun†, Zebo Zheng†, Thomas G. Folland, Xuexian Chen, Huizhen Liao, Ningsheng Xu, Joshua D. Caldwell, Huanjun Chen,* Shaozhi Deng* Advanced Science, 2021, 8, 2004827. SCI收录,影响因子:15.840(Featured as Frontispiece story

7) Probing Electronic Properties of CVD Monolayer Hexagonal Boron Nitride by an Atomic Force Microscope, Shiyu Deng, Yanyun Gu, Xi Wan*, Mingliang Gao, Shijia Xu, Kun Chen,* Huanjun Chen* Frontiers in Materials, 2021, 8, 735344. SCI收录,影响因子:3.515

8) A Complete Two-Dimensional Avalanche Photodiode Based on MoTe2−WS2−MoTe2 Heterojunctions With Ultralow Dark Current, Tenghui Ouyang, Ximiao Wang, Shaojing Liu, Huanjun Chen,* Shaozhi Deng Frontiers in Materials, 2021, 8, 736180. SCI收录,影响因子:3.515

9) Chemical Tuning on Resonance Coupling in Gold Nanorod−Monolayer WS2 Heterostructures, Shiya Wen, Shiyu Deng, Kun Chen, Huanjun Chen,* Shaozhi Deng Frontiers in Materials, 2021, 8, 744275. SCI收录,影响因子:3.515

 

2020年:

1) High-Aspect-Ratio Plasmonic Heterostructures for in Vivo Enhanced Optical Coherence Tomography Imaging in the Second Near-Infrared Biological Window, Yifan Xu,† Bin Zhou,† Chao Zhuang, Jianhua Zhou,* Huanjun Chen,* Shaozhi Deng* Advanced Optical Materials, 2020, 2000384. SCI收录,影响因子:10.050(Featured as a Front Cover story; Featured by Materials Views China

2) Phonon Polaritons in Twisted Double-Layers of Hyperbolic Van Der Waals Crystals, Zebo Zheng,‡ Fengsheng Sun,‡ Wuchao Huang, Jingyao Jiang, Runze Zhan, Yanlin Ke, Huanjun Chen,* Shaozhi Deng* Nano Letters, 2020, 20, 5301−5308. SCI收录,影响因子:12.279

3) Resonance Coupling in an Individual Gold Nanorod−Monolayer WS2 Heterostructure: Photoluminescence Enhancement with Spectral Broadening, Yinzhu Jiang,‡ Hao Wang,‡ Shiya Wen, Huanjun Chen,* Shaozhi Deng* ACS Nano, 2020, 14, 13841−13851. SCI收录,影响因子:14.588

 

2019年:

1) Resonance Coupling in Heterostructures Composed of Silicon Nanosphere and Monolayer WS2: A Magnetic-Dipole-Mediated Energy Transfer Process, Hao Wang, Jinxiu Wen, Weiliang Wang, Ningsheng Xu, Pu Liu, Jiahao Yan, Huanjun Chen,* Shaozhi Deng*  ACS Nano, 2019, 13, 1739−1750. SCI收录,影响因子:13.903

2) Resonance Coupling in Hybrid Gold Nanohole–Monolayer WS2 Nanostructures, Xuexian Chen, Hao Wang, Ning-Sheng Xu, Huanjun Chen,* Shaozhi Deng* Applied Materials Today, 2019, 15, 145−152. SCI收录,影响因子:8.013

3) A Plasmon-Mediated Electron Emission Process, Yan Shen,# Huanjun Chen,# Ningsheng Xu, Yang Xing, Hao Wang, Runze Zhan, Li Gong, Jinxiu Wen, Chao Zhuang, Xuexian Chen, Ximiao Wang, Yu Zhang, Fei Liu, Jun Chen, Juncong She, Shaozhi Deng*  ACS Nano, 2019, 13, 1977−1989. SCI收录,影响因子:13.903

4) Charge Density Wave Phase Transitions in Large-Scale Few-Layer 1T-VTe2 Grown by Molecular Beam Epitaxy, Xingyuan Ma, Tian Dai, Shuai Dang, Songdan Kang, Xuexian Chen, Wenqi Zhou, Gaili Wang, Hongwei Li, Ping Hu, Zhihao He, Yue Sun, Dan Li, Fengmei Yu, Xiang Zhou, Huanjun Chen,* Xinman Chen, Shuxiang Wu,* Shuwei Li ACS Applied Materials & Interfaces, 2019, 11, 10729−10735. SCI收录,影响因子:8.456

5) A Mid-Infrared Biaxial Hyperbolic Van Der Waals Crystal, Zebo Zheng, Ningsheng Xu, Stefano L. Oscurato, Michele Tamagnone, Fengsheng Sun, Yinzhu Jiang, Yanlin Ke, Jianing Chen, Wuchao Huang, William L. Wilson, Atonio Ambrosio,* Shaozhi Deng,* Huanjun Chen* Science Advances, 2019, 5, eaav8690. SCI收录,影响因子:12.804(ESI高被引论文

 

2018年:

1) Highly Confined and Tunable Hyperbolic Phonon Polaritons in Van Der Waals Semiconducting Transition Metal Oxides, Zebo Zheng, Jianing Chen, Yu Wang, Ximiao Wang, Xiaobo Chen, Pengyi Liu, Jianbin Xu, Weiguang Xie,* Huanjun Chen,* Shaozhi Deng,* Ningsheng Xu* Advanced Materials, 2018, 30, 1705318. SCI收录,影响因子:30.849(Featured as Frontispiece story

2) Superhydrophobic SERS Substrates Based on Silicon Hierarchical Nanostructures, Xuexian Chen, Jinxiu Wen, Jianhua Zhou, Zebo Zheng, Di An, Hao Wang, Weiguang Xie, Runze Zhan, Ningsheng Xu, Jun Chen, Juncong She, Huanjun Chen,* Shaozhi Deng* Journal of Optics, 2018, 20, 024012. SCI收录,影响因子:1.741(Speical Issue: Emerging Leaders

3) Room-Temperature Strong Coupling between Dipolar Plasmon Resonance in Single Gold Nanorod and Two-Dimensional Excitons in Monolayer WSe2, Jinxiu Wen, Hao Wang, Huanjun Chen,* Shaozhi Deng,* Ningsheng Xu Chinese Physics B, 2018, 27, 096101. SCI收录,影响因子:1.321(Speical Topic: Nanophotonics

4) Plasmonic Sensing Characteristics of Gold Nanorods with Large Aspect Ratios, Chao Zhuang , Yifan Xu, Ningsheng Xu, Jinxiu Wen, Huanjun Chen,* Shaozhi Deng* Sensors, 2018, 18, 3458. SCI收录,影响因子:2.475

5) Chemical Vapor Deposition Grown Wafer-Scale 2D Tantalum Diselenide with Robust Charge-Density-Wave Order, Jianping Shi, Xuexian Chen, Liyun Zhao, Yue Gong, Min Hong, Yahuan Huan, Zhepeng Zhang, Pengfei Yang, Yong Li, Qinghua Zhang, Qing Zhang, Lin Gu, Huanjun Chen,* Jian Wang,* Shaozhi Deng, Ningsheng Xu, and Yanfeng Zhang* Advanced Materials, 2018, 30, 1801616. SCI收录,影响因子:21.950

 

2017年:

1) Flexible, Transparent, and Free-Standing Silicon Nanowire SERS Platform for In Situ Food Inspection, Hao Cui, Shuoyu Li, Shaozhi Deng, Huanjun Chen,* Chengxin Wang,* ACS Sensors, 2017, 2, 386−393. SCI收录

2) Tailoring of Electromagnetic Field Localizations by Two-Dimensional Graphene Nanostructures, Zebo Zheng, Juntao Li, Teng Ma, Hanlin Fang, Wencai Ren, Jun Chen, Juncong She, Yu Zhang, Fei Liu, Huanjun Chen,* Shaozhi Deng,* Ningsheng Xu* Light: Science & Applications, 2017, 6, e17057; SCI收录,影响因子:13.600(Featured as Cover story

3) Room-Temperature Strong Light–Matter Interaction with Active Control in Single Plasmonic Nanorod Coupled with Two-Dimensional Atomic Crystals, Jinxiu, Wen, Hao, Wang, Weiliang Wang, Zexiang Deng, Chao Zhuang, Yu Zhang, Fei Liu, Juncong She, Jun Chen, Huanjun Chen,* Shaozhi Deng,* Ningsheng Xu* Nano Letters, 2017, 17, 4689−4697. SCI收录,影响因子:12.712

 

2016年:

1) Nanoscale Insights into the Hydrogenation Process of Layered α-MoO3, Weiguang Xie, Mingze Su, Zebo Zheng, Yu Wang, Li Gong, Fangyan Xie, Weihong Zhang, Zhi Luo, Jianyi Luo, Pengyi Liu, Ningsheng Xu, Shaozhi Deng, Huanjun Chen,* Jian Chen,* ACS Nano, 2016, 10, 1662−1670. SCI收录,影响因子:13.334

2) Monolayer MoS2 Dendrites on a Symmetry-Disparate SrTiO3 (001) Substrate: Formation Mechanism and Interface Interaction, Yu Zhang, Qingqing Ji, Jinxiu Wen, Jiu Li, Cong Li, Jianping Shi, Xiebo Zhou, Kebin Shi, Huanjun Chen,* Yuanchang Li,* Shaozhi Deng, Ningsheng Xu, Zhongfan Liu, Yanfeng Zhang,* Advanced Functional Materials, 2016, 26, 3299−3305. SCI收录,影响因子:11.382

3) Molybdenum Nanoscrews: A Non-Coinage-Metal Substrate for Surface-Enhanced Raman Scattering,  Di An, Yan Shen, Jinxiu Wen, Zebo Zheng, Jun Chen, Juncong She, Huanjun Chen,* Shaozhi Deng, NingshengXu,* Nano-Micro Letters, 2016, 9, 1−10,SCI收录,影响因子:3.012 (Featured as Cover story)

4) Chemically-Doped Graphene with Improved Surface Plasmon Characteristics: An Optical Near-Field Study, Zebo Zheng, Weiliang Wang, Teng Ma, Zexiang Deng, Yanlin Ke, Runze Zhan, Qionghui Zou, Wencai Ren, Jun Chen, Juncong She, Yu Zhang, Fei Liu, Huanjun Chen,* Shaozhi Deng,* Ningsheng Xu, Nanoscale, 2016, 8, 16621−16630,SCI收录,影响因子:7.760 (Featured as Back Cover story)

5) Resonance Coupling in Silicon Nanosphere−J-Aggregate Heterostructures, Hao Wang, Yanlin Ke, Ningsheng Xu, Runze Zhan, Zebo Zheng, Jinxiu Wen, Jiahao Yan, Pu Liu, Jun Chen, Juncong She, Yu Zhang, Fei Liu, Huanjun Chen,* Shaozhi Deng,* Nano Letters, 2016, 16, 6886−6895,SCI收录,影响因子:13.779

 

2015年:

1) A Centimeter-Scale Sub-10 nm Gap Plasmonic Nanorod Array Film as a Versatile Platform for Enhancing Light–Matter Interactions, Zhang-Kai Zhou, Jiancai Xue, Zebo Zheng, Jiahua Li, Yanlin Ke, Ying Yu, Jun-Bo Han, Weiguang Xie, Shaozhi Deng,Huanjun Chen,*Xuehua Wang,*Nanoscale, 2015, 7, 15392‒15403. SCI收录,影响因子:7.760

2) Janus Magneto−Electric Nanosphere Dimers Exhibiting Unidirectional Visible Light Scattering and Strong Electromagnetic Field Enhancement, Hao Wang, Pu Liu, Yanlin Ke, Yunkun Su, Lei Zhang, Ningsheng Xu, Shaozhi Deng,Huanjun Chen,*ACS Nano, 2015, 9, 436−448. SCI收录,影响因子:13.334

3) Stretchable Plasmonic Substrate with Tunable Resonances for Surface-Enhanced Raman Spectroscopy, Jinxiu Wen, Hongbo Zhang,Huanjun Chen,*Weihong Zhang, Jian Chen*J. Opt., 2015, 17, 114015.SCI收录,影响因子:1.847

 

2014年:

1) Shaping the Emission Spectral Profile of Quantum Dots with Periodic Dielectric and Metallic Nanostructures, Zhang-Kai Zhou, Dang Yuan Lei, Jiaming Liu, Xin Liu, Jiancai Xue, Qiangzhong Zhu,Huanjun Chen,*Tianran Liu, Yinyin Li, Hongbo Zhang, Xuehua Wang,*Adv. Opt. Mater., 2014, 2, 56‒64. SCI收录,影响因子:10.050 (Featured as Inside Front Cover story; Featured by Materials Views China

 

2013年:

1) Gold Nanorods and Their Plasmonic Properties,Huanjun Chen,Lei Shao, Qian Li, Jianfang Wang, Chemical Society Reviews, 2013, 42, 2679‒2724. SCI收录,影响因子:34.090 (邀请综述,ESI高引用论文)

 

2012年:

1) Plasmonic Percolation: Plasmon-Manifested Dielectric-to-Metal Transition, Huanjun Chen,Feng Wang, Kun Li, Kat Choi Woo, Jianfang Wang, Quan Li, Ling­Dong Sun, Xixiang Zhang, Hai­Qing Lin, Chun­Hua Yan, ACS Nano, 2012, 6, 7162−7171. SCI收录,影响因子:13.334

2) Fano Resonance in Gold Core–Dielectric Shell Nanostructures without Symmetry Breaking,Huanjun Chen,Lei Shao, Yat Cho Man, Chunmei Zhao, Jianfang Wang, Baocheng Yang, Small, 2012, 8, 1503‒1509. SCI收录,影响因子: 8.315

3) Plasmonic‒Molecular Resonance Coupling: Plasmonic Splitting versus Energy Transfer,Huanjun Chen,Lei Shao, Kat Choi Woo, Jianfang Wang, Hai-Qing Lin, J. Phys. Chem. C, 2012, 116, 14088‒14095. SCI收录,影响因子: 4.509

 

2011年:

1) Observation of the Fano Resonance in Gold Nanorods Supported on High-Dielectric-Constant Substrates, Huanjun Chen, Lei Shao, Tian Ming, Kat Choi Woo, Yat Cho Man, Jianfang Wang, Hai­Qing Lin, ACS Nano, 2011, 5, 6754­−6763. SCI收录,影响因子:13.334

2) Effect of the Dielectric Properties of Substrates on the Scattering Patterns of Gold Nanorods, Huanjun Chen,Tian Ming, Shouren Zhang, Zhao Jin, Baocheng Yang, Jianfang Wang, ACS Nano, 5, 4865­−4877, 2011. SCI收录,影响因子:13.334

 

2010年:

1) Plasmon–Molecule Interactions,Huanjun Chen,Tian Ming, Lei Zhao, Feng Wang, Ling-Dong Sun, Jianfang Wang, Chun-Hua Yan, Nano Today, 2010, 5, 494–505. SCI收录,影响因子:13.157 (邀请综述)

2) Understanding the Photothermal Conversion Efficiency of Gold Nanocrystals,Huanjun Chen,Lei Shao, Tian Ming, Zhenhua Sun, Chunmei Zhao, Baocheng Yang, Jianfang Wang, Small, 2010, 6, 2272–2280. SCI收录,影响因子:8.368

 

2009年:

1) Plasmon Coupling in Clusters Composed of Two-Dimensionally Ordered Gold Nanocubes,Huanjun Chen,Zhenhua Sun, Weihai Ni, Kat Choi Woo, Hai-Qing Lin, Ling-Dong Sun, Jianfang Wang, Chun-Hua Yan,Small, 2009, 5, 2111–2119.SCI收录,影响因子:8.368

2) Shape-Dependent Refractive Index Sensitivities of Gold Nanocrystals with the Same Plasmon Resonance Wavelength,Huanjun Chen,Lei Shao, Kat Choi Woo, Tian Ming, Hai-Qing Lin, Jianfang Wang,J. Phys. Chem. C, 2009, 113, 17691–17697.SCI收录,影响因子:4.772

 

2008年:

1) Shape- and Size-Dependent Refractive Index Sensitivity of Gold Nanoparticles, Huanjun Chen, Xiaoshan Kou, Zhi Yang, Weihai Ni, Jianfang Wang, Langmuir, 2008, 24, 5233–5237. SCI收录,影响因子:4.457 (引用次数389次,ESI高引用论文)

 

2007年:

1) Gasochromic Effect and Relative Mechanism of WO3 Nanowire Films, Huanjun Chen,Ningsheng Xu, Shaozhi Deng, Dongyu Lu, Zhenglin Li, Jun Zhou, Jun Chen, Nanotechnology, 2007, 18, 205701.SCI收录,影响因子:3.821

2) Electrochromic Properties of WO3 Nanowire Films and Mechanism Responsible for the Near Infrared Absorption, Huanjun Chen, Ningsheng Xu, Shaozhi Deng, Jun Zhou, Zhenglin Li, Hao Ren, Jun Chen, Juncong She, J. Appl. Phys., 2007, 101, 114303.SCI收录,影响因子:2.183

 

发明专利

1)一种大面积少层/单层极化激元晶体及其制备方法,陈焕君,廖慧珍,黄悟朝,邓少芝,许宁生,中国发明专利,授权号:ZL202210356150.0

2)一种基于金属微纳天线的面内各向异性极化激元器件及其制备方法和激发方法,陈焕君,蒋菁遥,郑泽波,邓少芝,中国发明专利,授权号:ZL202110418768.0

3)一种基于聚焦离子束刻蚀制备的范德华激元材料微纳结构及其制备方法,陈焕君,黄悟朝,邓少芝,许宁生,中国发明专利,授权号:ZL201910200073.8

4)一种转移制备二维原子晶体叠层结构的方法,陈焕君,温锦秀,邓少芝,许宁生,中国发明专利,授权号:ZL201710283498.0

5)一种利用硅纳米介电材料制备的超疏水表面增强拉曼基底及其制备方法,陈焕君,陈学贤,邓少芝,许宁生,中国发明专利,授权号:ZL201710231551.2