聚焦信息技術對材料的重大需求,,立足光電功能材料和寬禁帶半導體材料技術優(yōu)勢,致力于寬禁帶半導體材料,、電光晶體,、光電功能玻璃及器件等研究,實現(xiàn)“材料-器件-場景”的全鏈條創(chuàng)新,,為下一代光電技術提供關鍵支撐,。
本研究方向“十四五”期間代表性成果有:
1,、郝霄鵬等,二維材料的非線性光學效應和磁性,,2022年度山東省自然科學二等獎
2,、王旭平等,高效二次電光晶體材料及其激光調(diào)制技術,,2022年度山東省技術發(fā)明二等獎
3,、石鋒等,基于晶格動力學理論詮釋的5G微波陶瓷與器件關鍵技術及產(chǎn)業(yè)化,,2023年度山東省科技進步二等獎
4,、Baoguo Zhang, Haixiao Hu, Xiaogang Yao, Yongzhong Wu, Yongliang Shao*, Xiaopeng Hao*, Preparation of controllable double-selective etched porous substrate for HVPE growth of GaN crystals with excellent optical properties, CrystEngComm, 2023.
5、Xuping Wang*, Xinguo Mao, Pan Chen, Qian Du, Yuguo Yang, Panyu Qiao,Shaodong Zhang, Zhijian Li, Rui Zhang, Bing Liu**, Jiyang Wang. Potassium tantalate niobate crystals: Efficient quadratic electro-opticmaterials and their laser modulation technology. Journal of Materiomics, 2023.
6,、Fulin Zhang, Yingxu Zhu, Songtao Fan, Huajian Yu, Yuguo Yang, Limei Zheng, Yuanyuan Zhang*, Bing Liu*, Xuping Wang, Jiyang Wang, Achieving High Piezoelectric Performance Across Multidomains Design in K(Ta,Nb)O3 Based Lead-free Single Crystals, ACS Applied Materials & Interfaces, 2024.
