裴学良，博士，副研究员。2002年9月–2009年7月就读于江西师范大学，获应用化学学士学位和高分子化学与物理硕士学位；2009年9月–2013年1月就读于中科院宁波材料所，获高分子化学与物理博士学位；2013年2月–2015年2月在中科院宁波材料所开展博士后研究；博士后出站后留所工作至今。

研究方向：碳化硅陶瓷先驱体制备及应用研究。

1. Ma LK, Deng YY, Pei XL*, et al. Catalytic conversion of residual carbon in precursor-derived SiC into carbon nanotubes using metal nickel and mechanism analysis. Silicon, 2025, 17, 851–860.
2. Yang H*, Pei XL*, Zhang KH, et al. Investigation of the corrosion resistance of SiC ceramic composite coatings on nuclear graphite spheres for high-temperature reactor fuel elements. Nucl. Eng. Des., 2025, 443, 114336.
3. Deng YY, Ma LK, Pei XL*, et al. Free radical-initiated direct ink writing of liquid polycarbosilane slurry and its conversion into SiC ceramic parts with low shrinkage. Ceram. Int., 2024, 50, 51252–51259.
4. Wang YJ, Ma LK, Pei XL*, et al. Residual carbon trapping effect of nano Si for stoichiometric SiC derived from polycarbosilane and its application in SiCf/SiC composites with largely improved thermal conductivity. J. Eur. Ceram. Soc., 2024, 44, 7482–7489.
5. Gong J, Wang YJ, Zhou MJ, Pei XL*, et al. Rapid curing of liquid polycarbosilane and is conversion into protective coating. Silicon, 2023, 15, 5803–5810.
6. Gong J, Wang YJ, Huang J, Pei XL*, et al. Digital Light Processing of SiC Ceramic from Allylhydridopolycarbosilane with Limited Acrylate Monomers. Ceram. Int., 2022, 48, 18468–18474
7. Wang YJ, Pei XL*, Li HY, et al. Crosslinking of active polycarbosilane initiated by free radical and its application in the preparation of SiC fibers. J. Inorg. Mater., 2021, 36, 967–973.
8. Wang YJ, Gong J, Pei XL, et al. Preparation of liquid polycarbosilane containing vinyl ether group and its rapid curing through thiol-ene click reaction. J. Am. Ceram. Soc., 2022, 105, 7122–7131.
9. Wang YJ, Pei XL*, Li HY, et al. Preparation of SiC ceramic fiber from a photosensitive polycarbosilane. Ceram. Int., 2020, 46, 28300–28307.
10. Wang YJ, Li X, Pei XL*, et al. Preparation of highly porous SiC via ceramic precursor conversion and evaluation of its thermal insulation performance. Adv. Appl. Ceram., 2020, 119, 398–406.
11. Chen JS, Wang YJ, Pei XL*, et al. Preparation and stereolithography of SiC ceramic precursor with high photosensitivity and ceramic yield. Ceram. Int., 2020, 46, 13066–13072.
12. Zhen XL, Pei XL*, Wang YF, et al. Crosslinking kinetics of polycarbosilane precursor in ozone atmosphere and the formation mechanism of continuous hollow SiC fiber. J. Eur. Ceram. Soc., 2019, 39, 2028–2035.
13. Luo YG, Zhen XL, Pei XL*, et al. Preparation of hollow SiC ceramic fiber from polycarbosilane fiber by diffusion-controlled crosslinking method. Adv. Appl. Ceram., 2019, 119, 166–173.
14. Xi XF. Chen YS, Pei XL*, et al. A multiscale hydrothermal carbon layer modified carbon fiber for composite fabrication. RSC Adv., 2018, 8, 23339–23347.
15. Wang J, Pei XL*, Zhi JH, et al. The effects of phenolic resin-derived PyC interlayers on microstructure and mechanic properties of Cf/SiC composites. Ceram. Int., 2018, 44, 16157–16163
16. Wang J, Zhang XM, Pei XL*, et al. The influences of carbon nanotubes introduced in three different phases of carbon fiber/pyrolytic carbon/silicon carbide composites on microstructure and properties of their composites. Carbon, 2018, 129, 409–414.
17. Zhong XQ, Pei XL*, Miao YL, et al. Accelerating the crosslinking process of hyperbranched polycarbosilane by UV irradiation. J. Eur. Ceram. Soc., 2017, 37, 3263–3270.
18. Ji P, Pei XL*, Miao YL, et al. Effect of ultraviolet irradiation on the cross-linking process and ceramic yield of liquid hyperbranched polycarbosilane. Adv. Appl. Ceram., 2017, 116, 445–451.
19. Zhong XQ, Pei XL*, He L, et al. Hydrophobic modification of poly(aryl ether ketone ketone) aerogel via poly(dimethylsiloxane). J. Sol-Gel. Sci. Technol., 2017, 81, 220–225.
20. Pei XL, Zhai WT, Zheng WG*. Preparation of poly(aryl ether ketone ketone)–silica composite aerogel for thermal insulation application. J. Sol-Gel. Sci. Technol., 2015, 76, 98–109.
21. Pei XL, Chen GF, Fang XZ*. Influence of crystalline polyimide hard block on the properties of poly(imide siloxane) copolymers. Polymer, 2015, 56, 229–236.
22. Pei XL, Shen B, Zhang LH, et al. Accelerating the graphitization process of polyimide by addition of graphene. J. Appl. Polym. Sci., 2015, 132, 41274.
23. Pei XL, Zhai WT, Zheng WG*. Preparation and characterization of highly cross-linked polyimide aerogels based on polyimide containing trimethoxysilane side groups. Langmuir, 2014, 30, 13375−13383.
24. Pei XL, Chen GF, Hou YJ, et al. Comparative study on polyimides derived from isomeric diphenylsulfonetetracarboxylic dianhydrides. High. Perform. Polym., 2013, 25, 312–323.
25. Pei XL, Chen GF, Fang XZ*. Synthesis and properties of poly(imide siloxane) block copolymers with different block lengths. J. Appl. Polym. Sci., 2013, 129, 3718–3727.
26. Pei, XL Chen GF, Fang XZ*. Preparation and characterization of poly(imide siloxane) block copolymers based on diphenylthioether dianhydride isomer mixtures. High. Perform. Polym., 2011, 23, 625–632.

主持项目

       承担中科院先导专项子任务、中科院重点部署项目子课题、国家自然科学基金青年基金、宁波市科技创新2025重大专项子课题以及宁波市自然科学基金等。另参与多项国家、中科院和宁波市等项目。

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