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  • 姓名: 丁善軍
  • 性別: 男
  • 職稱: 副研究員
  • 職務: 
  • 學歷: 博士
  • 電話: 
  • 傳真: 
  • 電子郵件: shanjunding@ime.ac.cn
  • 所屬部門: 封裝中心
  • 通訊地址: 北京市朝陽區北土城西路3號

    簡  歷:

  • 教育背景

    2018.09-2022.09?北京理工大學 博士


    工作簡歷

    2025.12-至今 ??中國科學院微電子研究所 副研究員

    2023.02-2025.12?中國科學院微電子研究所 助理研究員


    社會任職:

    研究方向:

  • 先進封裝;算力芯片封裝基板;玻璃基板;功能基板;固化收縮及表征;電子電鍍;表界面工程

    承擔科研項目情況:

  • 作為項目負責人及技術骨干先后承擔/參與自然基金、博士后、高技術、GJ等項目。

    [1]面向高算力芯片的大規模基板異質界面黏附行為研究及應用,國家資助博士后研究人員計劃,2023.02-2025.01,主持;

    [2]面向高算力芯片封裝基板的增層介質表面金屬化粘附機理研究,北京市自然科學基金委員會,2025.01-2026.12,主持;

    [3]算力芯片封裝基板超精細線路界面粘附關鍵技術研究,微電子研究所,2024.01-2026.12,主持;

    [4] xxx高密度基板技術,高新技術領域特區項目,2023.06-2024.10,技術負責人;

    [5]面向萬瓦級集成芯片的供電架構與電路關鍵技術研究,國家自然科學基金委員會,2024.01-2027.12,參與;


    代表論著:

  • 近五年第一作者/通訊作者發表SCI期刊論文12篇。

    [1] S. J. Ding, M. Li, M. X. Liu, X. M. Wu, C. Chen, Q. C. An, Z. D. Fang, Q. D. Wang. Enhanced interfacial adhesion strength and reduced warpage of copper electrodeposited epoxy composite substrates by annealing treatment[J]. Surfaces and Interfaces, 2026, 84, 108573.

    [2] S. J. Ding, J. Y. Zhao, X. M. Wu, P. Sun, F. Yang, M. Q. Gui, C. Chen, Z. D. Fang, Q. D. Wang. Review on warpage mechanisms and control of packaging substrates for large-scale chiplet integration[J]. Journal of Materials Science: Materials in Electronics, 2025, 36, 2149.

    [3] S. J. Ding, J. Y. Zhao, C. Chen, X. M. Wu, Z. D. Fang, Q. D. Wang. Curing kinetics of a novel commercial epoxy-phenolic composite build-up film for flip-chip ball grid array (FCBGA) substrates[J]. Microelectronics Journal, 2025, 161, 106717.

    [4] S. J. Ding, X. M. Wu, C. Chen, M. Q. Gui, P. Sun, F. Yang, X. Zhang, Z. D. Fang, Q. D. Wang. Enhanced adhesion strength of copper deposited epoxy composite films for chip substrates by tuning copper oxide and internal stress[J]. Applied Surface Science, 2025, 684, 161911.

    [5] S. J. Ding, X. M. Wu, X. Zhang, M. Q. Gui, Z. D. Fang, Q. D. Wang. Heterointerfacial adhesion failure mechanism of ultrahigh filler loading containing epoxy composite films for chip substrates[J]. RSC Applied Interfaces, 2024, 1, 1214-1221.

    [6] S. J. Ding, Z. D. Fang, Z. Y. Yu, Q. D. Wang. Research Progress of Interfacial Adhesion Force of Copper Plating on Ajinomoto Build-up Films for Chip Substrates[J]. Materials Today Communications, 2023, 37,107201.

    [7] S. J. Ding, Z. D. Fang, Z.Y. Yu, Q. D. Wang. Curing kinetics and mechanical properties of epoxy–cyanate ester composite films for microelectronic applications[J]. ACS Omega, 2023, 8(36): 32907-32916.

    [8] S. J. Ding, G. C. Zhu, S. Zhao, L. Zhou, Y. J. Luo. Enhanced self-healing driving force in polymer materials by regulating molecular structure[J]. Materials Today Chemistry, 2023, 27, 101278.

    [9] S. J. Ding, G. C. Zhu, S. Zhao, W. Wu, P. Jin, Y. K. Jiao, W. R. Zhai, L. Zhou, Y. J. Luo. Simultaneously optimized healing efficiency and mechanical strength in polymer composites reinforced by ultrahigh loading fillers based on interfacial energy and dynamic disulfide bonds[J]. Polymer, 2022, 251, 124711.

    [10] S. J. Ding, Z. Wang, G. C. Zhu, X. M. Zhang, J. Zhang, Y. J. Zhang, Z. Q. Cen, L. Zhou, Y. J. Luo. Accelerating Self-Healing Driven by Surface Energy Using Bulky Ester Groups in Polymer Materials[J]. The Journal of Physical Chemistry C, 2021, 125(51): 28048-28058.

    [11] S. J. Ding, J. Zhang, G. C. Zhu, X. Ren, L. Zhou, Y. J. Luo. Rationally constructed surface energy and dynamic hard domains balance mechanical strength and self-healing efficiency of energetic linear polymer materials[J]. Langmuir, 2021, 37(30): 8997-9008.

    [12] S. J. Ding, J. Zhang, L. Zhou, Y. J. Luo. Promoting healing progress in polymer composites based on Diels-Alder reaction by constructing silver bridges[J]. Polymers for Advanced Technologies, 2021, 32(3): 1239-1250.

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