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人工晶体学报 ›› 2026, Vol. 55 ›› Issue (6): 878-885.DOI: 10.16553/j.cnki.issn1000-985x.2026.0031

• 研究论文 • 上一篇    下一篇

2英寸氮化铝单晶应力模拟、热键合及生长研究

高飞1,2,3(), 辛倩2(), 王英民4, 程红娟1,3, 王增华1,3()   

  1. 1.中国电子科技集团公司第四十六研究所,天津 300220
    2.山东大学集成电路学院,济南 250100
    3.新型半导体晶体材料技术重点实验室,天津 300220
    4.山西烁科晶体有限公司,太原 030062
  • 收稿日期:2026-02-28 出版日期:2026-06-20 发布日期:2026-07-07
  • 通信作者: 辛倩,教授。E-mail:xinq@sdu.edu.cn
    王增华,博士,高级工程师。E-mail:wangzh2015@lzu.edu.cn
  • 作者简介:高飞(1988—),男,河南省人,博士研究生,高级工程师。E-mail:highflyer.gao@mail.sdu.edu.cn

Stress Simulation, Thermal Bonding, and Growth of 2-Inch Aluminum Nitride Single Crystals

GAO Fei1,2,3(), XIN Qian2(), WANG Yingmin4, CHENG Hongjuan1,3, WANG Zenghua1,3()   

  1. 1.The 46th Research Institute,CETC,Tianjin 300220,China
    2.School of Integrated Circuits,Shandong University,Jinan 250100,China
    3.CETC Key Laboratory of Advanced Semiconductor Crystal Materials and Technologies,Tianjin 300220,China
    4.Shanxi Semisic Crystal Co.,Ltd.,Taiyuan 030062,China
  • Received:2026-02-28 Online:2026-06-20 Published:2026-07-07

摘要: 本文围绕2英寸(1英寸=2.54 cm)氮化铝(AlN)单晶的应力调控、热键合工艺及高质量厚晶生长开展计算仿真和单晶生长研究。精准揭示了不同衬底材料对AlN单晶施加的降温热应力机理,阐明金属衬底特性与晶体残余应力的内在关联,为AlN单晶生长的衬底筛选提供理论支撑;在此基础上基于仿真模拟技术,创新实现了2英寸AlN低应力热键合工艺,解决了AlN籽晶高温热键合面临的应力开裂难题;同时,结合仿真与结构优化设计成功突破厚晶生长技术,制备出厚度达10.8 mm的2英寸高质量AlN单晶,晶片(002)高分辨X射线衍射(HRXRD)摇摆曲线半峰全宽低至51.67″。

关键词: 氮化铝单晶; 应力抑制; 有限元分析; 热膨胀系数; 物理气相传输; 热键合

Abstract: This paper,focusing on the stress regulation,thermal bonding process,and high-quality thick-crystal growth of 2-inch aluminum nitride (AlN) single crystals,performed systematic computational simulations and single-crystal growth experiments. It reveals the mechanism of cooling-induced thermal stress imposed on AlN single crystals by different substrate materials,and elucidates the intrinsic correlation between the properties of metal substrates and the residual stress of the crystals,providing theoretical support for the substrate selection in AlN single-crystal growth. Moreover,relying on simulation technology,an innovative low-stress thermal bonding process for 2-inch AlN is achieved,addressing the stress-induced cracking problem encountered during the high-temperature thermal bonding of AlN seed crystals. Meanwhile,by integrating simulation with structural optimization design,the thick-growth technology is successfully broken through,and a 2-inch high-quality AlN single crystal with a thickness of 10.8 mm is fabricated. The full width at half maximum (FWHM) of the (002) high-resolution X-ray diffraction (HRXRD) rocking curve of the wafer is as low as 51.67″.

Key words: AlN single crystal; stress control; finite element analysis; thermal expansion coefficient; physical vapor transport; thermal bonding

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