主要研究方向：

1. 2nd International Conference on New Materials for Environment and Energy 23/10/2024 - 25/10/2024 Kunming, China, Edited by: Xin Chen, Journal of Physics: Conference Series, Vol. 2953, 2025.

2. Abdullah, M., Jiang, W., Chen, X., Xu, S. (2024). Emerging Pseudocapaciting Materials. In: Gupta, R.K. (eds) Pseudocapacitors. Engineering Materials. Springer, Cham. https://doi.org/10.1007/978-3-031-45430-1_4

3. International Conference on New Energy and Optoelectronic Materials 2023 (NEOM 2023) 03/06/2023 - 04/06/2023, Edited by: Xin Chen, Kun Liang, Journal of Physics: Conference Series, vol 2552, 2023.

4. Qi Zhang, Yi E, Meng Jiang, Xin Chen*, Runfa Li, “Activated Carbon-Based Supercapacitors”, Ch. 7, pp. 165-182, in “Nanostructured Materials for Supercapacitors”, Ed. Sabu Thomas Amadou Belal Gueye, and Ram K. Gupta, Springer Nature Switzerland AG, 2022.

5. 陳新、王德強(qiáng)、曹紅亮、王以群、黃月霞，“新能源材料科學(xué)基礎(chǔ)實(shí)驗(yàn)”，華東理工大學(xué)出版社，2018.

6. Shen J. Dillon and Xin Chen, “Temperature control in environmental cells for TEM”, Ch. 6, pp. 127-139, in “Liquid Cell Electron Microscopy”, Ed. F. M. Ross, Cambridge University Press, 2017.

7. “Advanced Nano Deposition Methods”, Ed. Y. Lin, X. Chen, Wiley-VCH, 7 Nov. 2016

8. “Applied Physics in the 21^st Century”, Ed. X. Chen, Research Signpost, 2008.

1.     Yuanfang Zhang#, Junqiu Zhang#, Wenqi Lv#, Li Gu#, Fenfa Yao, Yanning Zhang*, Xin Chen*, Chuanhong Jin*. Encapsulation and electronic modulation of Mo_1-xW_xS₂ nanoribbons in single-walled carbon nanotubes, Carbon, 243 (2025) 120493.

2.    Wei Yan, Xin Chen*, Zhiqiang Wang, Ziyue Zhao, Yang Liu, Muhammad Abdullah, Bi₂O₃/Bi₂S₃ rod/sheet nanocomposites as battery-type materials for supercapacitors, Chemical Engineering Journal, 504 (2025) 158864.

3.    Renzhao Xu, HuiminYin*, Daliang He, Xiaoming Ma, Shibo Liang, Chuanghong Jin*, Xin Chen*,  Mechanism of polymer removal from semiconducting single-walled carbon nanotubes via rapid thermal processing: insights from in-situ environmental transmission electron microscopy, Nanoscale, , 17 (2025) 14941-14947.

4.    Yang Liu, Linfeng Sheng, Muhammad Abdullah, Xing Shen, Ying He, Liyi Tan, Juan Liu, Xin Chen*, High resolution observation of the noble-metal/ZnO-QDs/rGO ternary system using ultra-thin SiNx window in situ liquid cell scanning electron microscopy, New Journal of Chemistry, 48 (2024) 14538-14547. (Outside Front Cover)

5.    Meng Jiang, Muhammad Abdullah, Xin Chen*, Yi E, Liyi Tan, Wei Yan, Yang Liu, Wenrui Jiang, “Two-Step Synthesis of ZnS-NiS₂ composite with rough nanosphere morphology for high-performance asymmetric supercapacitors”, Batteries, 10(1) (2024) 16.  (Guest Editor)

6.    Yi E, Xing Shen, Xin Chen*, Meng Jiang, Wei Yan, Yang Liu, Wenrui Jiang, Muhammad Abdullah, “Preparation of biomass composite activated carbon based supercapacitor materials and their application in energy storage devices”, Chemical Engineering Science, 282 (2023) 119193.

7.    Xin Chen*, Liyi Tan, Siyu Cheng, Yang Liu, Xing Shen, and Mengqin Zhu, “In situ liquid cell SEM observation of dynamic processes of Au nanoparticles”, Microscopy Research and Technique, 86(8) (2023) 1057-1066.

8.    Runfa Li, Xin Chen*, Hongliang Cao, Wei Yan, Yuanfang Zhang, Siyu Cheng, Wenrui Jiang, Qi Zhang, Yi E, Meng Jiang, Abdullah Muhammad and Liyi Tan, “Facile synthesis of Ni₃Se₄/Ni_0.6Zn_0.4O/ZnO nanoparticle as high-performance electrode materials for electrochemical energy storage device”, Nanotechnology, 34(18) (2023) 185401.

9.    Qi Zhang, Xin Chen*, Siyu Cheng, Runfa Li, Yi E, Meng Jiang“Synthesis of VS₂/NiS nanocomposites by in situ growing NiS clusters on VS₂ ultrathin nanoplates for high performance supercapacitors”, ChemElectroChem, 19(3) (2022) e202200073. (Inside Back Cover)

10.    Siyu Cheng, Xin Chen*, Chuanzhen Wang and Liyi Tan, “In-situ liquid cell TEM and SEM observation of the CdS-GO nanocomposite”, Journal of Materials Research, 37 (2022) 1780–1788.

11.    Xin Chen*, Yan Li, Chang Li, Hongliang Cao, Chuanzhen Wang, Siyu Cheng, Qi Zhang, “A Novel Strategy of Multi-element Nanocomposite Synthesis for High Performance ZnO-CoSe₂ Supercapacitor Material Development”, Chinese Journal of Chemistry, 39 (2021) 2441-2450.

12.     Xiaoming Ma, Fang Lin, Xin Chen*, Chuanhong Jin,* “Synergy between structure characteristics and the solution chemistry in a near/non-equilibrium oxidative etching of penta-twinned palladium nanorods”,  Journal of Physical Chemistry C, 125(7) (2021) 4010-4020.(Supplementary Cover)

13.     Xiaoxiang Yang, Jie Xu, Xin Chen*, Yuli Lei, Lingling Wang, Siyu Cheng, Yan Li, Yuxuan Lu, Yupeng Zhu, Na Chen, “Preparation and Characterization of Porous Carbon from Mixed Leaves for High-Performance Supercapacitors”, Chinese Journal of Chemistry, 39(2) (2021) 353-359.

14.     Huimin Yin, Xiaoxiang Yang, Chang Li, Yan Li, Hongliang Cao, Xin Chen*, Lingling Wang, “Rational synthesis of porous CuO/Cu₂O/NiCo₂O₄ 3D composites for high-performance supercapacitors”, Journal of Materials Research, 36(2) (2021) 387-396.

15.     Xiaoming Ma, Fang Lin, Xin Chen*, Chuanhong Jin*, “Unveiling the Growth Pathways of Multiply-Twinned Gold Nanoparticles by in situ Liquid Cell Transmission Electron Microscopy”,ACS Nano, 14(8) (2020) 9594-9604.

16.     Xiaoxiang Yang, Xin Chen*, Hongliang Cao, Chang Li, Lingling Wang, Yulian Wu, Chuanzhen Wang, Yan Li, “Rational synthesis of Cu₇Se₄-Cu_xCo_1-xSe₂ double-shell hollow nanospheres for high performance supercapacitors”, Journal of Power Sources, 480 (2020) 228741.

17.     Chuanzhen Wang, Xin Chen*, Yulian Wu, Yan Li, Siyu Cheng, “In-Situ Liquid Cell TEM Observation of Dynamic Process of Oleic Acid Emulsion with Gold Nanorods”, The Journal of Physical Chemistry C, 124(47) (2020) 26018-26025. (Supplementary Cover)

18.    Haifeng Wang, Xiaoqin Zhou, Yunhui Huang, Xin Chen*, Chuanhong Jin*, “Interactions of Sub-five Diameter Colloidal Palladium Nanoparticles in Solution Investigated via Liquid Cell Transmission Electron Microscopy”, RSC Advances, 10 (2020) 34781-34787.

19.    Xiaoxiang Yang, Jie Xu, Xin Chen*, Yuli Lei, Lingling Wang, Siyu Cheng, Yan Li, Yuxuan Lu, Yupeng Zhu, Na Chen, “Preparation and Characterization of Porous Carbon form Mixed Leaves for High-Performance Supercapacitors”, Chinese Journal of Chemistry, 38 (2020) 10.1002/cjoc.202000348.

20.    Jiali Fang, Xin Chen*, Haiyang Liu, and Yulian Wu, “Facile and green synthesis of Au nanorods/graphene oxide nanocomposite with excellent catalytic properties for reduction of 4-nitrophenol”, Journal of Materials Science, 55 (2020) 5880-5891.

21.    HaoqiTan, Junjie Sun, Dawei Jin, Jialin Song, Miao Lei, Artem Antoshin, Xin Chen; Meng Yin, Xue Qu, Changsheng Liu, “Coupling PEG-LZM Polymer Network with Polyphenol Yields Suturable Biohydrogels for Tissue Patching”, Biomaterials Science, 8(12) (2020) 3334-3347.

22.    Yulian Wu, Xin Chen*, Chang Li, Jiali Fang and Haiyang Liu, “In-situ liquid cell TEM observation of solution-mediated interaction behaviour of Au/CdS nanoclusters”, New Journal of Chemistry, 43 (2019) 12548-12554.

23.    Chang Li, Che Chen Tho, Daria Galaktionova, Xin Chen, Petr Král, and Utkur Mirsaidov, “Dynamics of amphiphilic block copolymers in an aqueous solution: micelle formation and nanoparticle encapsulation”, Nanoscale, 11 (2019) 2299-2305.

24.    Haoqi Tan, Dawei Jin, Xue Qu, Huan Liu, Xin Chen, Meng Yin, Changsheng Liu, “A PEG-Lysozyme hydrogel harvests multiple functions as a fit-to-shape tissue sealant for internal-use of body”, Biomaterials, 192 (2019) 392-404.

25.    Haiyang Liu, Kai Ke, Chang Li, Xin Chen*, and Yulian Wu, “Facile synthesis of porous Pd nanoclusters for enhanced catalytic applications”, Chinese Journal of Chemistry, 37, (2019) 565-569.（封一）

26.   Jiali Fang, Xin Chen*, Chang Li, Yulian Wu, “Observation of the gold nanorods/graphene interactions with in situ liquid cell transmission electron microscopy”, Acta Physico-Chimica Sinica, 35(8) (2019) 808-815.

27.   Chang Li, Xin Chen*, Haiyang Liu, Jiali Fang, Xiaoqin Zhou, “In-situ liquid-cell TEM study of radial flow-guided motion of octahedral Au nanoparticles and nanoparticle clusters”, Nano Research, 11(9) (2018) 4697-4707.

28.   Hulian Wang, Dancheng Zhu, Feng Jiang, Xin Chen*, Chuanhong Jin*, “Study on growth mechanism of CVD growth MoSe₂ on graphene substrate”, Nanotechnology, 29 (2018) 314001.

29.   Hongliang Cao*, Chao Chen, Debiao Xie, Xin Chen*, Ping Wang*, Yibing Wang, Huajie Song, Wenxin Wang, “Ahyperbranched amphiphilicacetal polymer with an acid-triggered hydrophilic transition for smart drug delivery”, Polymer Chemistry, 9(2) (2018) 169-177. （封二）

30.   Hongliang Cao, Xiang Wang, Xin Chen*, Haiyang Liu, Junsheng Zheng and Wangfan Zhou, “Hollow cubic double layer structured Cu₇S₄/NiS nanocomposites for high-performance supercapacitors”, Journal of Materials Chemistry A, 2017, 5(39) (2017) 20729-20736.

31.   Xin Chen*, Chang Li, Xing Kong, Hongliang Cao Hulian Wang, Xiaoqin Zhou, “Direct observation of growth and self-assembly of Pt nanoclusters in water with the aid of a triblock polymer using in situ liquid cell TEM”, Chinese Journal of Chemistry, 35(8) (2017) 1278-1283.（封底）

32.   Xin Chen*, Jiapei Shu, Qing Chen*, “Abnormal gas-liquid-solid phase transition behaviors of water observed with in situ environmental SEM”, Scientific Reports, 7 (2017) 46680.

33.   周曉琴, 張輝, 張澤, 陳新*, 金傳洪*, “用原位液體池透射電鏡技術(shù)表征金屬鈀在球形金納米顆粒表面的異質(zhì)沉積”, 物理化學(xué)學(xué)報, 33(3) (2017) 458-463. 

34.   X. Kong, H. L. Cao*, C. Li and X. Chen*, “One step photochemical synthesis of clean surfaced sponge-like porous platinum with high catalytic performances”, Journal of Colloid and Interface Science, 487 (2016) 60-67.

35.   H. L. Cao*, H. J. Song, D. B. Xie, C. Chen, X. Chen*, Ping Wang, Wenxin Wang, “GSH-responsive micelles based on multi-linear-cyclized & branched copolymers for smart drug delivery”, RSC Advances, 6 (2016) 80896-80904.

36.   F. F. Wei, H. L. Cao*, X. Chen*, “La_0.6Sr_0.4CoO_3-δ-Ce_0.8Gd_0.2O_2-δ nanocomposites prepared by a sol-gel process for intermediate temperature solid oxide fuel cell cathode applications”, Journal of Materials Science, 51 (2016) 2160.   

37.   X. Chen*, C. Li and H. L. Cao, “Recent developments of in situ wet cell technology for transmission electron microscopies”, Nanoscale, 7 (2015) 4811-4819.  

38.   X. Chen*, L. H. Zhou, P. Wang, H. L. Cao, X. L. Miao, F. F. Wei, X. Chen, “Effects associated with nanostructure fabrication using in situ liquid cell TEM technology”, Nano-Micro Letters, 7(4) (2015) 385-391.  

39.   H. L. Cao,* X. L. Miao, M. Q. Zhu, C. Li, F. F. Wei and X. Chen*, “Ultrasonic synthesis of Au/AgCl hybrid cubes and their evolution under electron beam irradiation”, Nano, 10(6) (2015) 1550086.  

40.   Y. B. Wang, X. Chen*, H. L. Cao, C. Deng, X. D. Cao, P. Wang*, “A structural study of Escherichia coli cells using an in situ liquid chamber TEM technology”, Journal of Analytical Methods in Chemistry, 2015 (2015) 829302.   

41.   X. Chen *, L.-H. Zhou, P. Wang, H.-L. Cao, X.-L. Miao, and F. F. Wei, “A study of electron beam induced deposition and nano device fabrication using liquid cell TEM technology”, Chinese Journal of Chemistry, 32 (2014) 399-404.   

42.   X. Chen, S. Kim, J. Mabon, M. Sardela, D. Zuo, J. G. Wen, J. M. Zuo, “Dislocations and strain in Si/SiGe/Si heterostructures: a combined real and reciprocal space analysis”, Microscopy and Microanalysis, 20 (2014) 1521-1527.   

43.   H. L. Cao,Y. X. Dong,A. Aied, T. Y. Zhao, X. Chen, W. X. Wang and A. Pandit, “Acetal-linked branched poly(dimethyl-aminoethyl methacrylate) as an acid cleavable gene vector with reduced cytotoxicity”, Chemical Communications, 50 (2014) 15565-15568.   

44.   X. Chen, W. P. Gao, S. Sivaramakrishnan, H. F. Hu, and J. M. Zuo, “In-situ RHEED study of epitaxial gold nanocrystals on TiO₂ (110) surfaces”, Applied Surface Science, 270 (2013) 661-666.  

45.   Y. H. Lan, X. Z. Qian, C. J. Zhao*, X. Chen, Z. Li*, “High performance visible light driven photocatalysts silver halides and graphitic carbon nitride AgX@g-C₃N₄ (X=Cl, Br, I) nanocomposites”, Journal of Colloid and Interface Science, 395 (2013) 75.   

46.   X. Chen*, J. G. Wen, “An in situ wet-cell TEM observation of gold nanoparticle motion in aqueous solution”, Nanoscale Research Letters, 7 (2012) 598.   

47.   X. Chen, K. W. Noh, J. G. Wen, and S. Dillon, “In-situ electrochemical wet cell TEM characterization of solid-liquid interactions between Ni and aqueous NiCl₂”, Acta Materialia, 60 (2012) 192.

48.   Y. Liu, X. Chen, K. W. Noh, and S. Dillon, “Electron beam induced deposition of silicon nanostructures from a liquid phase precursor”, Nanotechnology, 23 (2012) 385302.

49.  X. Chen*, L. H. Zhou, P. Wang, C. J. Zhao, and X. L. Miao, “A study of nano materials and their reactions in liquid using in situ wet cell TEM technology”, Chinese Journal of Chemistry, 30(12) (2012) 2839-2843. 

50.   K. Noh, L. Sun, X. Chen, J. Wen and S. Dillon, “In situ TEM characterization of electrochemical systems”, Microscopy and Microanalysis, 17 (S2) (2011) 1572. 

51.   Z.-W. Xing, X. Chen, N. J. Wu, and A. Ignatiev, “Bipolar resistive switching in Cr-doped TiO_x thin films”, Chinese Physics B 20(9) (2011) 097703.

52.   A. Zomorrodian, H. Salamati, Z. G. Lu, X. Chen, N. J. Wu, A. Ignatiev, “Electrical conductivity of epitaxial La_0.6Sr_0.4Co_0.2Fe_0.8O_3-d thin films grown by pulsed laser deposition”, International Journal of Hydrogen Energy, 35 (2010) 12443.

53.   A. Ignatiev, X. Chen, N. J. Wu, Z. G. Lu, L. Smith, “Nanostructured thin solid oxide fuel cells with high power density”, Dalton Transactions, 40 (2008) 5501.

54.   A. Ignatiev, N. J. Wu, X. Chen, Y. B. Nian, C. Papagianni, S. Q. Liu, J. Strozier, “Resistance switching in oxide thin films”, Phase Transitions, 81 (2008) 791.

55.   Y. B. Nian, J. Strozier, N. J. Wu, X. Chen, and A. Ignatiev, “Evidence for an oxygen diffusion model for the electric pulse induced resistance change effect in oxides”, Physical Review Letters, 98 (2007) 146403.

56.  X. Chen, N. J. Wu, J. Strozier, and A. Ignatiev, “Spatially extended nature of resistance switching in perovskite oxide thin films”, Applied Physics Letters, 89 (2006) 063507.

57.   X. Chen, N. J. Wu, J. Strozier and A. Ignatiev, “Direct resistance switching profile study on a symmetric electrical pulse induced resistance change device”, Applied Physics Letters, 87 (2005) 233506.

58.   X. Chen, N. J. Wu, L. Smith, and A. Ignatiev, “Thin-film heterostructure solid oxide fuel cells”, Applied Physics Letters, 84 (14) (2004) 2700.  

?2018年中國石油和化學(xué)工業(yè)優(yōu)秀出版物圖書獎一等獎

?美國國家航空航天局太空行動獎（2007）