代表性成果: | 1、论文著作 [1] Shijie Zhang, Jiajun Zheng, Di Lan, Zhenguo Gao, Xiaowei Liang, Qingfeng Tian, Zhiwei Zhao#, Guanglei Wu#, Hierarchical engineering on built-in electric field of bimetallic zeolitic imidazolate derivatives towards amplified dielectric loss, Advanced Functional Materials, 2024, 2413884. [2] Guoguo Zhang, Mengdi Huang, Xiaomiao Zhao, Han Zhang, Yimeng Wang, Xiaoyang Zhang, Hongjuan Zheng#, Pengxian Lu, Zhiwei Zhao#, Preparation and properties of Ti(C,N)-based cermets with graphene nanosheet addition by spark plasma sintering, Journal of Materials Research and Technology, 2023, 24: 185-199. [3] Shijie Zhang, Di Lan, Xingliang Chen, Yueyuan Gu, Junwen Ren#, Suxuan Du, Shichang Cai, Xiaomiao Zhao, Zhiwei Zhao#, Guanglei Wu#, Three-dimensional macroscopic absorbents: from synergistic effects to advanced multifunctionalities, Nano Research, 2024, 17(3): 1952-1983. [4] Shijie Zhang, Zhenguo Gao, Zhengbin Sun, Bo Cheng, Zhiwei Zhao#, Yunchao Jia, Guanglei Wu#, Solid solution strategy for bimetallic metal-polyphenolic networks deriving electromagnetic wave absorbers with regulated heterointerfaces, Applied Surface Science, 2023, 611: 155707. [5] Guoguo Zhang, Zhiwei Zhao#, Hongjuan Zheng#, Shijie Zhang, Zheng Chen, Shun Wang, Xiaomiao Zhao, Effects of the addition of multi-walled carbon nanotubes on the microstructure and properties of Ti(C,N)-based cermets prepared by spark plasma sintering, Materials Characterization, 2022, 193: 112289. [6] Hao Jiang, Zhiwei Zhao#, Yanju Qian, Yaohua Yan, Yanlan Lei, Zichang Zhang, Shijie Zhang, Zheng Chen, Shun Wang, Xinpo Lu, Effects of nanocomposite grain growth inhibitors and multi-walled carbon nanotubes on the microstructure and mechanical properties of ultrafine cemented carbides, Journal of Materials Research and Technology, 2023, 26: 3054-3069. [7] Zimei Gao, Zhiwei Zhao#, Haobo Li, Effect of the content of V2O5 on the thermal conductivity of diamond/Cucomposites prepared by spark plasma sintering, Ceramics International , 2025, 51 (6): 7938-7945. [8] Zhiwei Zhao#. Microwave-assisted synthesis of vanadium and chromium carbides nanocomposite and its effect on properties of WC-8Co cemented carbides. Scripta Materialia, 2016, 120 (7): 103-106. [9] Suxuan Du, Mingsen Gao, Shun Wang, Xiaomiao Zhao, Shijie Zhang, Caixiao Huo, Pengtao Hua, Yihao Jia, Mao Wen#, Zhiwei Zhao#, Influence of Si-addition on tribological and corrosion properties of Ta-Si-C coatings, Ceramics International, 2025, 51 (1): 1346-1353. [10] Panjun Wang, Jinke Wang, Yao Huang, Xuequn Cheng#, Zhiwei Zhao#, Lingwei Ma#, Shun Wang, Ruijie Han, Zichang Zhang, Dawei Zhang, Xiaogang Li#, Effects of grain size on the corrosion inhibition and adsorption performance of benzotriazole on carbon steel in NaCl solution, Journal of Materials Science & Technology, 2025, 217: 221–236. [11] Xiaomiao Zhao#, Tianyu Suo, Qianhui Mao, Zhiwei Zhao#, Shun Wang, Biao Wan, Jianping Liu, Linqi Zhang#, Xiaowei Liang, Anmei Xu, Zhengxin Li. Structure and piezochromism of chrysene at high pressures. Dyes and Pigments, 2024, 227: 112161. [12] Jiaying Liu, Zhiwei Zhao#, Hao Jiang, Xiaomiao Zhao, Shijie Zhang, Chunlong Guan, Jinwen Ye, Zheng Chen. In-situ preparation and properties of ultrafine cemented carbide through spark plasma sintering. Journal of Alloys and Compounds, 2025, 1010: 178181. [13] Qiujun Hu#, Junbiao Guo, Xiaomiao Zhao, Chunlong Guan, Shun Wang, Zhiwei Zhao#. Enhanced thermoelectric properties of 3D printed Bi2Te2.7Se0.3 by atomic interface engineering. Journal of Alloys and Compounds, 2024, 1004: 175770. [14] Hao Jiang, Zhiwei Zhao#, Panjun Wang, Xiaowei Liang, Qiujun Hu, Liuyang Bai, Hongjuan Zheng, Zheng Chen. Preparation of ultrafine WC-V8C7-Cr3C2-co cemented carbides by spark plasma sintering in-situ synthesis of composite grain growth inhibitors. International Journal of Refractory Metals and Hard Materials, 2024, 125: 106910. [15] Xiaomiao Zhao#, Yongkai Wei, Kai Zhang, Zhiwei Zhao#, Shun Wang, Wei Miao, Suxuan Du, Shjie Zhang, Wenfeng Li, Chunlong Guan, Liping Shi, Xinpo Lu, Sankui Xu, Temperature effect on vibrational properties of crystalline Dibenz[a,h] anthracene, Spectrochimica Acta Part A, 2022, 274: 121107. [16] Zhiwei Zhao#, Yanju Qian, Xiaomiao Zhao#, Baozhen Yang, Shun Wang, Xinpo Lu, Chunlong Guan. Reaction kinetics and properties of VN/CrN nanocomposite via microwave in situ synthesis. International Journal of Refractory Metals and Hard Materials, 2020, 92: 105326. [17] 赵志伟. Preparation and Application of Transition Metal Carbides Nanomaterials , Lambert Academic Publishing, 2020. [18] 赵志伟. 纳米碳(氮)化物的制备与应用, 化学工业出版社, 2020. 2、发明专利 [1] 赵志伟, 等. 一种快速合成CBN磨具用陶瓷结合剂的制备方法, 2017.10, 中国, ZL 201510402929.1 [P]. [2] 赵志伟, 等. 一种微波法快速合成CBN磨具用陶瓷结合剂的制备方法, 2017.10, 中国, ZL 201510402910.7 [P]. [3] 赵志伟, 等. 一种碳热还原氮化法合成纳米氮化钒/氮化铬复合粉末的方法, 2015.6, 中国, ZL201310672946.8 [P]. [4] 赵志伟, 等. 一种纳米氮化钒/氮化铬复合粉末的制备方法, 2015.8, 中国, ZL201310698867.4[P]. [5] 赵志伟, 等. 一种碳热还原氮化法合成纳米氮化铬粉末的方法, 2015.7, 中国, ZL201310672664.8 [P]. [6] 赵志伟, 等. 一种纳米碳化铬粉末的制备方法, 2012.5, 中国, ZL201010186195.5[P]. [7] 赵志伟, 等. 一种纳米碳化铬/钒复合粉末的制备方法, 2012.8, 中国, ZL201010186209.3[P]. [8] 胡文萌, 赵志伟, 等. 一种高性能超细硬质合金的制备方法, 2017.10, 中国, ZL 201510624783.5 [P]. [9] 赵志伟, 等. 低温高强立方氮化硼磨具陶瓷结合剂的制备方法, 2012.12, 中国, ZL 201010519472.X [P]. [10] 赵志伟, 等. 一种纳米陶瓷结合剂CBN磨具的微波制备方法, 2020.10, 中国, ZL 201711415406.6 [P]. [11] 赵志伟, 等. 一种纳米陶瓷结合剂的制备方法, 2021.03, 中国, ZL 201711415293.X[P]. [12] 赵志伟, 等. 一种复合磨料及其制备方法, 2021.11, 中国, ZL 202011612304. 5[P]. [13] 赵志伟, 等. 一种具有磨削与抛光功能磨料的制备方法, 2023.08, 中国, ZL 202110641358. 2[P]. [14] 赵志伟, 等. 一种分层植砂砂带用磨料的制备方法和应用方法,2022.05 中国, ZL 202011624062. 1[P]. 3、获奖荣誉 [1] 第十三届河南省青年科技奖, 中共河南省委组织部、河南省人力资源和社会保障厅、河南省科学技术协会, 2018. [2] 河南省教育厅学术技术带头人, 河南省教育厅, 2014. [3] 光学与电子行业关键零件精密切割用系列超硬磨具开发及应用, 2015-J-010-R09/15, 河南省科技进步一等奖,2015. [4] 超硬工具高性能粉末与长寿命应用技术, 2024-TR-02-05-03, 中国机械制造工艺协会科学技术二等奖, 2024. [5] 超强韧大尺寸纳米结构金刚石制备关键技术, 2024-J-5-1-01-R10, 中国核学会科学技术特等奖,2024. [6] 高纯超细碳(氮)化钒/铬粉体的低温快速合成关键技术及应用, 2021-F-013-R01/05, 河南省技术发明三等奖, 2022. [7] 新型钻探用超硬耐磨组件关键技术及应用, 2024-J-239-R04/07, 河南省科技进步三等奖,2024. [8] 河南省优秀硕士学位论文指导教师, 河南省学位委员会、河南省教育厅, 2022. [9] 河南省优秀硕士学位论文指导教师, 河南省学位委员会、河南省教育厅, 2017. [10] Effect of reaction time on phase composition and microstructure of chromium carbide nanopowders, 河南省教育厅, 优秀科技论文奖, “一等奖”, 2020. [11] Microwave-assisted synthesis of vanadium and chromium carbides nanocomposite and its effect on properties of WC-8Co cemented carbides, 河南省科学与技术协会, 优秀科技论文奖, “一等奖”, 2018. [12] Effects of additives on synthesis of vanadium carbide (V8C7) nanopowders by thermal processing of the precursor, 河南省教育厅, 优秀科技论文奖, “一等奖”, 2012. [13] 高品质纳米碳化物粉末的微波快速合成及应用研究, 河南省科技厅, 河南省第十二届挑战杯自然科学奖, “一等奖”, 2015. [14] 纳米过渡金属碳化物的合成及其高温高压特性研究, 河南省科技厅, 河南省第九届挑战杯自然科学奖, “一等奖”并获“优秀指导教师”, 2011. [15] 新型超细硬质合金-使“工业的牙齿”更锋利, 河南省教育厅, 河南省“互联网+”大学生创新创业大赛暨第五届中国“互联网+”大学生创新创业大赛, “一等奖”并获“优秀指导教师”, 2019. 4、主持项目 [1] SPS原位构筑多元WC基复合材料的形成机理及协同作用机制研究, 52274362, 国家自然科学基金面上项目, 国家自然科学基金委员会, 2022. [2] 微波法原位合成V8C7-Cr3C2纳米复合粉末的热动力学及机理研究, 51304063, 国家自然科学基金青年基金, 国家自然科学基金委员会, 2013. [3] 高性能超细硬质合金的关键制备技术及产业化, 221111230800, 河南省重点研发专项, 河南省科技厅, 2022. [4] 微波法原位合成纳米氮化钒/氮化铬复合粉末及反应机制研究,河南省高校科技创新人才资助项目, 16HASTIT011, 河南省教育厅, 2015. [5] SPS条件下多元碳化钨基复合材料的界面行为及作用机制研究, 202300410115, 河南省自然科学基金面上项目, 河南省科技厅, 2020. [6] 高品质纳米复合碳化物的制备及其在超细硬质合金中的应用研究, 2013GGJS-076, 河南省高等学校青年骨干教师资助项目, 河南省教育厅, 2013. [7] 高端油气采掘设备关键部件研制与开发, 第三批“智汇郑州·1125聚才计划”-郑州市科技创新领军人才资助项目, 郑州市科技局, 2018. |
