•  金属材料辐照损伤与晶体缺陷分析；

•  极端环境（核能、航空等）下金属材料腐蚀机理与涂层防护；

•  表面涂层改性与液相等离子体电解技术（微弧氧化等）技术开发与应用；

•  先进表征分析技术（原位电镜、同步辐射X射线、APT）等应用；

·        2024年北京师范大学年度优秀辅导员

·        2024年人民邮电出版社年度影响力作者奖

2025 年：

[1]  安瞻, 徐驰*, 龚翱翔, 佟振峰. 15-15Ti奥氏体不锈钢中D、He、Ne离子辐照损伤的TEM表征.材料导报, 2025, 39(6): 24010245-6.[DOI] 

[2] K. Zhu, J. Wang, C. Xu, G. Cheng, R. Zheng. Abnormal anisotropic thermal conductivity in porous silicon membranes. Inter. J. of Heat and Mass Transfer. 2025, 241:126743 [DOI]

[3] Y. Wang, Y. Liu, J. Zhang, Y. Zhang, Z. Liu, C. Xu, S. Zhang, J. Cheng. J. of Low Temp. Phy. 2025, 218:258-267 [DOI]

[4] A. Gong, S. Li, L. Sun, C. Xu*, Q. Tang, Z. Tong*. Strong adsorption of He bubbles by the lattice mismatch generated by irradiation of the oxide particles in a nano-featured 15–15Ti austenitic steel. Fus. Eng. Des. 2025, 218:115187 [DOI]

[5] Q Zhou, H Chen, X Li, X Jin, J Du, C Xu*, B Liao, L Xue, R Wang, W Zhao, W Xue*.  Oxidation behavior and characterization of ZrO2/Cr94Al6 composite coated Zr-Sn alloy in 1000–1200 °C steam. Ceram. Inter. 2025. (In Press) [DOI] 

[6] A Gong, C Luo, C. Xu,* Z. Tong*.  Superior irradiation resistance via nanocrystalline grains of 316L austenitic stainless steel. Acta Mater. 2025, 296:121228. [DOI]

2024 年：

[1]     H Chen, X Li, W Yang, Q Zhou, C Xu*, J Du, X Jin, W Xue*. Microstructure characterization of plasma electrolytic oxidation coating on Hf-Nb-Ta-Zr high entropy alloy. Mater. Charact. 2024, 217:114403. [DOI]

[2]     H. Guan, Q. Zhou, C. Xu*, X. Jin, J. Du, W Xue. High-temperature degradation behavior of PEO-coated ZIRLO alloy in N2 and N2+steam environments at 900 and 1000 ◦C. J. Nucl. Mater. 597 (2024) 155091. [DOI]

[3]     Q. Zhou, Y. Qu, Y. Liao, H. Li, H. Chen, C. Xu*, B. Liao, W. Xue*, Y. Zhang, R Wang. Effects of Al and Si elements on oxidation behavior in 1000–1200 ◦C steam for PEO/CrAlSi composite coating on Zr alloy. Surf. & Coat. Tech. 2024, 482:130705. [DOI]

[4]     王荣山，贾兴娜，周茜，张晏伟，柏广海，徐驰*，薛文斌.Xe离子辐照对Zr-1Nb合金表面形貌及电化学腐蚀特性的影响.稀有金属材料与工程. 2024. 53(10):2906-2912. [DOI]

[5]     C. Xu*, Q. Zhou, X. Wang, W. Xue*, X. Jin, L. Sun, T. Shen, B. Liao, Y. Li, S. Li. Effects of He and Ni ion irradiation on the ZrO2/Cr composite coating on Zr1Nb alloy. J. All. & Compds 2024, 970:172622. [DOI]

[6] J. Li, L. Wu, L. Liu, C. Zhang, C. Xu, X. Wu, C. Guo, G. Cheng, R. Zheng. Ceram. Inter. 2024, 50(24):53736-53743. [DOI]

[7] Zhang, Y., Wang, J., Han, W., Xu, C., Yoo, S.J., Zhan, Q., Ohnuki, S., Wan, F. J. Nucl. Mater. 601 (2024) 155336. [DOI] 

[8] Y. Liao, X. Wang, C. Gao, Q. Zhou, C. Xu, X. Jin, J. Du, W. Xue, Y. Zhang. Transactions of Nonferrous Metals Society of China 2024. 34(2): 435-452. [DOI]

[9] Y. Liao, Q. Zhou, C. Gao, H. Li, C. Xu, X. Jin, J. Du, W. Xue*, Y. Zhang. Ultrasonics 138 (2024) 107213. [DOI]

[10] X. Wang, Y. Liao, C. Xu, X. Jin, B. Liao, W. Xue*, Y. Zhang, G. Bai, R. Wang*. Corr. Sci. 226 (2024) 111676. [DOI]

[11]C. Gao, B Wang, Y. Liao, Q. Zhou, H. Li, X. Jin, C. Xu, J. Du, W. Xue.  Surf. Rev. Let., 2024, 2550009 [DOI]

[12] 龚翱翔，徐驰，安瞻，佟振峰.  "15-15Ti ODS奥氏体钢晶粒组织与纳米粒子的透射电镜表征" 材料导报，2024, 38(10):23010111. [DOI]

2023 年：

[1]    C. Xu, J. Zhou, T. Zhang, J Li, L Kang, S Xu, B Li*. Surface blistering and void swelling of α-Al2O3 irradiated with H2+ ions followed by 1000, 1200°C annealing. Mater. Today Energy 2023, 33:101262. [DOI]

[2]     徐驰*,万发荣.聚变材料钨辐照后退火形成的位错环特性及inside-outside衬度分析. 物理学报, 2023, 72(5): 056801. [DOI] 

[3]     C Xu*, X Wang, Q Zhou, W Xue*, X Jin, J Du, Y Li, S Li.TEM characterizations of a ZrO2/Cr composite coating on Zr-1Nb alloy after 1200 ◦C steam oxidation. Mater. Charact. 2023, 197:112701. [DOI]

[4]     C. Xu*, Q. Zhou, W. Xue, W Han*, G. Zhang, B. Liao, Y. Li, S. Li, Q. Yang. Surface protection of a V-4Cr-4Ti alloy through a multilayered TiAl/TiAlN composite coating.Vacuum 2023, 207:111595. [DOI]

[5]  X. Wang, Q. Zhou, J. Zhao, Y. Liao, C. Xu, X. Jin, J. Du, W. Xue*, W. Wang. J. All. Comp. 969 (2023) [DOI]  

[6]    B. Wang, C. Gao, H. Li, Y. Zhang, X. Jin, C. Xu, W. Xue.  Separ. & Puri. Tech. 319 (2023) 124036.

[7]  薛文斌, 金小越, 李惠, 徐 驰, 杜建成, 周 茜, 陈 虎. 阴极等离子体电解氧化表面改性新方法探索. 表面技术，2023，52 (06): 1-12

[8]   Y. Liao, Q. Zhou, C. Gao, C. Xu, X. Jin, J. Du, W. Xue, Y. Zhang. In situ monitoring of initial plasma electrolytic oxidation process on 60 vol. % SiCp/2009 aluminum matrix composite by sound and vibration measurement techniques. Rev. Sci. Instr. 94 (2023) 063905. [DOI]

[9] L. Zhang, Y. Du, W. Han*, X. Yi, P. Liu, K. Yoshida, T. Toyama*, C. Xu, et al. Nucl. Mater. & Ener. 35 (2023) 101432.

[10] X. Jin, Z. Nie, C. Xu, et al. Microstructural evolution in the vicinity of Mo–W interfaces after long-term high-temperature exposure. J. of Mater. Sci. 2023, 58.17: 7493-7503.

2022 年：

[1]     C. Xu, M. Zhu, H. Guan, C. Gao, X. Jin, J. Du, W. Xue*.Improvement of Steam Oxidation Resistance of the γ-TiAl Alloy with Microarc Oxidation Coatings at 900 - 1200℃.Corr. Sci. 2022, 209:110711. [DOI]

[2]     C. Xu, M. Zhu, C. Gao, H. Guan, X. Wang, X. Jin, J. Du, W. Xue*. Microstructural characterizations of γ-TiAl alloy after high-temperature steam oxidations at 900, 1000, 1100 and 1200 ◦C. Mater. Charact. 2022, 189:111979. [DOI]

[3]     C. Xu*, W. Han, W. Xue, Y. Li, S. Li, B. Li, F. Wan.An in-situ TEM characterization of electron beam induced dislocation motion in a single-crystalline gold thin film.Mater. Charact. 2022, 184:111697. [DOI]

[4] H. Guan, X. Wang, C. Xu, Y. Liao, C. Gao, J. Du, X. Jin, W. Xue*, J. Zhang. Effects of steam concentration and flow rate on the high temperature oxidation of PEO-coated zirconium alloy at 1000 ◦C and 1200 ◦C. Surf. & Coat. Tech. 448 (2022) 128896. 

[5] Y. Liao, X. Wang, C. Xu, et al. Influence Of Voltage On Anode Gas Compositions During Plasma Electrolytic Oxidation Of 60 Vol.% Sicp/2009 Aluminum Matrix Composite. Surf. Rev. & Lett. 2022，29:12,2350001. [DOI]

[6] B. Wang*, Y. Liao, C. Gao, H. Li, C. Xu, et al. Effect of carbon and nitrogen diffusion zone on growth mechanism of boride layer produced on Q235 Steel. Mater. Today Comm. 33 (2022) 104632

[7] C. Gao, M. Zhu, B. Wang, Y. Liao, H. Li, X. Jin, C. Xu, et al. Influence of voltage on growth and microstructure of oxide coatings on γ-TiAl alloy by cathodic plasma electrolysis in glycerin solution. Surf. Coat. Tech. 444 (2022) 128666.

[8] B. Wang, C. Gao, X. Jin, C. Xu, et al. Microstructure and properties of B + C + N ternary hardening layers on Q235 low-carbon steel prepared by plasma electrolysis. Surf. Coat. Tech. 440 (2022) 128505.

[9] K. Wei, X. Wang, C. Xu, J. Du, W. Xue*, G. Cheng*. Analyses of electrochemical behavior of plasma electrolytic oxidation film on Zirlo alloy in lithium borate buffer solution at 25–300◦C. Surf. Coat. Tech. 429 (2022) 127935.

2021 年：

[1] X. Wang, H. Guan, Y. Liao, M. Zhu, C. Xu, X. Jin, B. Liao, W. Xue*, Y. Zhang, G. Bai, R. Wang. Effect of PEO interlayer on oxidation behavior of PEO/Cr composite coating on Zr–1 Nb alloy in 1200 ◦C steam. Corr. Sci. 187 (2021) 109494.

[2] K. Wei, X. Wang, M. Zhu, H. Guan, C. Xu, et al. Effects of Li, B and H elements on corrosion property of oxide films on ZIRLO alloy in 300 ◦C/14 MPa lithium borate buffer solutions. Corr. Sci. 181 (2021) 109216.

[3] 王兴平, 廖燚钊, 关浩浩, 高川力, 朱明浩, 金小越, 徐 驰, 杜建成 , 薛文斌. 表面技术 2021, 50 (06) 23-31+40

[4] X. Wang, K. Wei, H. Guan, C. Xu, et al. High temperature oxidation of Zr–1Nb alloy with plasma electrolytic oxidation coating in 900–1200 ◦C steam environment. Surf. Coat. Tech. 407 (2021) 126768.

[5] X. Wang, Y. Liao, C. Xu, H. Guan, M. Zhu, C. Gao, X. Jin, P. Pang, J. Du, B. Liao, W. Xue. Steam oxidation behavior of ZrO2/Cr-coated pure zirconium prepared by plasma electrolytic oxidation followed by filtered cathodic vacuum arc deposition. J. All. Comp. 2021, 883:160798.

[6] 曲 尧, 关浩浩, 王兴平, 徐 驰, 金小越, 杜建成, 薛文斌. 表面技术，2021，50 (11): 121-128

[7]王兴平，魏克俭，廖斌，陈琳，关浩浩，杜建成，徐 驰，薛文斌*.锆表面磁过滤阴极真空弧离子镀Cr涂层高温蒸汽氧化行为研究，稀有金属材料与工程，2021, 50(5):8.

[8] 廖燚钊, 薛文斌, 万旭敏, 张亦凡, 朱明浩, 徐 驰, 杜建成. 放电发射光谱在金属微弧氧化表面处理中的应用研究进展. 航空材料学报 2021, 02:32-44.

2021 年以前：

[1] X. Zhang, C. Xu, et al. High-energy synchrotron x-ray study of deformation-induced martensitic transformation in a neutron-irradiated Type 316 stainless steel. Act. Mater. 200 (2020) 315–327.

[2]  C. Xu*, Y. Lu, Z. Fu, Y. Yang. In-situ TEM characterization of the tensile deformation of ion-irradiated HT-UPS steel at RT and 400°C. J. Nucl. Mater. 2020, 529:151911. [DOI]

[3]   C. Xu*, X. Zhang, M. Li, Y. Chen, J-S. Park, P. Kenesei, J. Almer, Y. Yang. In-situ high-energy X-ray characterization of neutron irradiated HT-UPS stainless steel under tensile deformation. Acta Mater. 2018, 156:330-341. [DOI]

[4]  C. Xu*, W-Y. Chen, X. Zhang, Y. Wu, M. Li, Y. Yang. Effects of neutron irradiation and post-irradiation annealing on the microstructure of HT-UPS stainless steel. J. Nucl. Mater. 2018, 507:188-197.  [DOI] 

[5] C. Xu*, W-Y. Chen, Y. Chen, Y. Yang. Microstructural evolution of NF709 austenitic stainless steel under in-situ ion irradiations at room temperature, 300, 400, 500 and 600 °C.J. Nucl. Mater. 2018, 509:644-653. [DOI]

[6] Chen, Y., C. Xu, et al. Proceedings of the 18th International Conference on Environmental Degradation of Materials in Nuclear Power Systems – Water Reactors, August 13-17, Portland, OR.

[7]  Zhang, X., M. Li, J-S. Park, P. Kenesei, J. Almer, C. Xu. Act. Mater. 126 (2017) 67-76

[8]  Zhang, X., C. Xu, et al., Rev. Sci. Instr. 88, 015111 (2017)

[9]  Kim, B. K., L. Tan, C. Xu, et al., J. Nucl. Mater. 470, 229-235.