2020.07-至今，西南科技大学  特聘副教授，硕士研究生导师

2023.07-2024.01 北京高压科学研究中心 (HPSTAR)  博士后研究员，合作导师：曾桥石研究员

2015.09-2020.06，四川大学（硕博连读），高压科学与技术，理学博士

2011.09-2015.06，天水师范学院，物理学，理学学士

Journal of Inorganic Materials, (SCI, IF:1.7) 青年编委，2022.1-2024.12

Nanotechnology and Precision Engineering, (SCI, IF:3.7) Early career Editor, October 1, 2022 ~ September 30, 2024

Materials Research and Development, Editorial Board Member, Aug. 15, 2022  ~ Aug. 14, 2024. 

American Journal of Modern Physics, Editorial Board Member, March 3, 2023 ~ March 3, 2025

Progress in Natural Science: Materials International, (SCI, IF:4.7) Youth Editorial, May 10, 2023 ~ May 10, 2024

中国晶体学会终身会员

中国物理学会会员

一：高压下凝聚态物质的行为和物性研究

压力作为作为三个基本热力学要素之一，近几十年随着高压科学和技术的迅速发展，人们已将高压作为改变物质状态的重要手段之一，广泛应用于各个科学研究领域的前沿。物质在压力的作用下，其体积以至原子间距都会发生收缩，内部能量状态发生变化，从而引起物质性质的改变。当压力达到一定程度后，物质就会出现结构转变，比如从气态到液态的转变、从液态到固态的转变、一种晶体结构到另一种晶体结构的转变、以及绝缘态到金属态的转变，这就是我们常说的压致相变，它已成为材料研究领域的新生长点。对新型功能材料（如纳米材料，二维材料和铁电材料等）展开一些列原位高压研究（同步辐射，拉曼散射、超声和电性能测试等），结合第一性原理计算，研究其高压下行为和物性，为其应用提供实验和理论上的支撑。

二：新型功能材料的原子分子设计与组织和性能高压调控

高温高压作为作为一种合成材料的方法，已经被成功应用于超硬材料，硬质合金和复合功能材料领域。对于超高温陶瓷的合成和烧结极具优势，能够大幅降低处理温度，实现超高致密度，促进塑性形变。整体上降低了制备成本，提高样品的综合性能。该方法在制备用于国防，航天航空和电子等领域的材料极具潜质。

三：中子衍射

中子衍射技术是研究晶体学的方法，是弹性散射的一种，用来确定某个材料的原子结构或磁性结构。这个技术与X射线衍射法类似，其主要差别在于放射源不同，这两种技术可以互为补充。可依托九院二所的******展开实验。

四：高温高压金属玻璃的制备

超高温结构陶瓷HfB2屈服强度的高压研究，四川大学研究生创新基金，2018YJSY063，2018.5-2020.5，主持；

极端条件下过渡金属硼/碳化合物高熵陶瓷的制备与物性研究，深地科学与工程教育部重点实验室开放基金课题， DESEYU201904，2019.10-2020.9，主持；

高压下二维TMDCs材料的结构相变、金属化行为和光电性能研究，西南科技大学博士基金，20zx7136，2021.1-2023.12，主持。

超高压诱导铪基轻元素化合物的结构和性能转变研究，四川省科技厅青年项目，2022NSFSC1810, 2022.1-2023.12，主持。

2024年论文

1. Hao Liang*, Yingying Zeng, Lei Liu*, Leiming Fang, Wenjia Liang, Zhengang Zhang, Yue Tang, Hua-Zhong Guo, Fang Peng, Jiang Li*, Understanding the path to stability: Structural phase transition and bonding behavior in Yb:Lu2O3 nanocrystals under compression, J. Phys.Chem. C 128(2024) 3588-3601. (三区 IF:3.7)

2. Jie Chen, Fang Peng*, Yipeng Wang, Ruiqi He, Zhengang Zhang, Wenjia Liang, Haidong Long, Peihong He, Hao Liang*, Mechanisms and mechanical properties of high-temperature high-pressure sintered vanadium carbide ceramics, Int J Refract. Met. H.  118(2024) 106483.  (二区 Top IF: 3.6)

3. Lei Liu, Xin Zhou, Hao Luo*, Zhi-Guo Li*, Hua-Zhong Guo, Hao Liang*, Lone-pair electron-induced low lattice thermal conductivity and excellent thermoelectric performance in AuX (X=S, Se, Te) monolayers, J. Alloy Compd. 976(2024) 173263. (二区Top IF: 6.2)

4. Lei Liu, Dong-Qin Xie,  Hao Liang*, Zhi-Guo Li, Hua-Zhong Guo; Two-dimensional Li-based ternary chalcogenides LiMTe2 (M=Al, Ga, In): promising mid-temperature thermoelectric materials, Vacuum 222(2024) 113023. (二区 IF: 4.0)

5. Wenjia Liang, Xiaojun Xiang, Qian L, Hao Liang*, Fang Peng*，Stability and melting behavior of boron phosphide under high pressure, Chin. Phys. B 33 (2024) 046201. (三区 IF:1.7)

2023年论文

1. Hao Liang*, Ruiqi He, Weitong Lin, Lei Liu, Xiaojun Xiang, Zhengang Zhang, Shixue Guan, Fang Peng, Leiming Fang*, Strain-induced strengthening in superconducting β-Mo2C through high pressure and high temperature, J. Eur. Ceram. Soc. 43(2023) 88–98.  (一区 Top IF: 6.364 )

2. Hao Liang*, Ruiqi He, Lei Liu*, Wei Zhang, Leiming Fang, Investigating the elastic, mechanical, and thermal properties of polycrystalline Mo2C under high pressure and high temperature,  Ceram. Int.  49(2023) 7341–7349.  (一区 Top IF: 5.532 )

3. Guolong Ma, Jinxin Liu, Hao Liang*, Mengyang Huang, Yi Tian, Junpu Wang, Linpeng Zheng, Qian Li, Ruiqi He, Wenjia Liang, Ruiang Guo, Fang Peng*, A new high pressure and high temperature synthesis idea: Preparation of Micron polycrystalline transparent cubic boron nitride,  Int J Refract. Met. H.  113(2023) 106194.  (一区 Top IF: 4.408)

2022年论文

1. Wei Zhang, Jiawei Zhang, Yingying Zeng, Weitong Lin, Lei Liu, Shixue Guan, Zhengang Zhang, Huazhong Guo, Fang Peng, and Hao Liang*, Pressure-Induced Phase Transition and Compression Properties of HfO2 Nanocrystals, Inorg. Chem. 61(2022), 3498−3507.  (自然指数 IF: 5.165 )

2. Wenqiang Wang, Fang Peng*, Hao Liang*, Shixue Guan, Wenjia Liang, Lu Zhang, Mengyang Huang, Yue Tang, Duanwei He, Synthesis and sintering of tungsten tetraboride and tantalum-bearing tungsten tetraboride under ultra high temperature and high pressure, Int J Refract. Met. H. 102(2022) 105701. (一区 Top IF: 4.408)

3. Shixue Guan, Weitong Lin, Hao Liang*, Wenjia Liang, Yi Tian, Duanwei He, Fang Peng*, The effect of pressure tuning on the structure and mechanical properties of high-entropy carbides, Scripta Mater. 216(2022) 114755. (一区 Top IF: 6.302 )  

4. Ruiqi He, Leiming Fang*, Tiexin Han, Gongzhang Yang, Guolong Ma, Jinxin Liu, Xiping Chen, Lei Xie, Lei Liu, Qingze Li, Yue Tang, Hao Liang*, Yongtao Zou, Fang Peng*, Elasticity, mechanical and thermal properties of polycrystalline hafnium carbide and tantalum carbide at high pressure, J. Eur. Ceram. Soc. 42(2022) 5220–5228. (一区 Top IF: 6.364 )

5. Yan Zeng , Hao Liang*, Shixue Guan, Junpu Wang,Wenjia Liang, Mengyang Huang, and Fang Peng*, Pressure dependence of the thermal stability in LiMn2O4, Chin. Phys. B 31(2022) 016104. (三区 IF: 1.652)

2021年论文

1. Hao Liang, Weitong Lin, Leiming Fang,* Shixue Guan, Qiming Wang, Wenqiang Wang, Zhijian Fan, Lei Liu, Ji-jung Kai, Fang Peng, and Cheng Lu*, Achieving Dislocation Strengthening in Hafnium Carbide through High Pressure and High Temperature, J. Phys. Chem. C  125(2021) 24254−24262. (二区Top IF: 4.126)

2. Jiawei Zhang, Fangming Liu, Shuaiqi Li, Hao Liang, Shixue Guan, Junpu Wang, Yi Tian, Mengxi Zhao, Duanwei He*, Recrystallization behaviour of cubic boron nitride under high pressure, J. Eur. Ceram. Soc. 41(2021) 132–138.  (一区Top IF: 5.302)

3. Hao Liang*,  Leiming Fang*, Shixue Guan, Fang Peng, Zhengang Zhang, Haihua Chen, Wei Zhang, Cheng Lu*, Insights into the Bond Behavior and Mechanical Properties of Hafnium Carbide under High Pressure and High Temperature, Inorg. Chem. 60(2021) 515−524.   (自然指数 IF: 5.165 )

4. Yue Tang, Hao Liang*, Shixue Guan, Mengyang Huang, Wenqiang Wang, Qiming Wang, Duanwei He, Fang Peng*，Elucidating the Phase Transformation and Metallization Behavior of Zinc Phosphide under High Pressur, Inorg. Chem. 60(2021) 10315−10322.  (自然指数 IF: 5.165 )

5. Shixue Guan, Hao Liang*, Qiming Wang, Lijie Tan, Fang Peng*, Synthesis and Phase Stability of the High-Entropy Carbide (Ti0.2Zr0.2Nb0.2Ta0.2Mo0.2)C under Extreme Conditions, Inorg. Chem. 60(2021) 3807−3813. (自然指数 IF: 5.165 )

1. Hao Liang, Weitong Lin, Qiming Wang*, Wei Zhang, Shixue Guan, Jiawei Zhang, Yan Zeng, Ji-Jung Kai, Fang Peng*，Ultrahard and stable nanostructured cubic boron nitride from hexagonal boron nitride, Ceram. Int. 46(2020) 12788–12794. (一区Top IF: 4.527)

2. Weiguo Sun, Xiaoyu Kuang, Hao Liang, Xinxin Xia, Zhengang Zhang, Cheng Lu, Andreas Hermann, Mechanical properties of tantalum carbide from high-pressure/high temperature synthesis and first-principles calculations, Phys.Chem.Chem.Phys. 22(2020) 5018 -5023.  (二区 IF: 3.676)

3. Zhengang Zhang, Hao Liang, Haihua Chen*, Juwei Wang, Fang Peng, Cheng Lu*，Exploring Physical Properties of Tantalum Carbide at High Pressure and Temperature，Inorg. Chem. 59(2020) 1848-1852.  (自然指数 IF: 5.165 )

4. Hujie Chen,  Hao Liang, Wei Dai*, Kewei Ding, Jie Bi, Benchao Zhu*, MgScH15: A highly stable cluster for hydrogen storage, Int. J. Hydrogen Energ. 53(2020) 32260-32268.   (二区Top IF: 5.816)

5. Shixue Guan, Hao Liang, Yang Liu, Weitong Lin, Duanwei He, Fang Peng*, Production of Silicon Carbide Reinforced Molybdenum Disilicide Composites  using High-Pressure Sintering, Ceram. Int. 46(2020) 23643-23650. (共同一作，一区Top IF: 4.527) 

2020年以前论文

1. Hao Liang,  Fang Peng^*, Shixue Guan, Lijie Tan, Haihua Chen, Lei Li, Duanwei He, Chen Lu*, Compression Behavior, Abnormal physical behaviors of hafnium diboride under high pressure，Appl. Phys. Lett. 115(2019) 231903. (自然指数 IF: 3.791)

2. Hao Liang , Weiguo Sun, Xin Li, Haihua Chen, Shixue Guan, Pingping Liu, Qiming Wang, Xiaodong Li, Duanwei He, Fang Peng*, Study of the compression behavior and elastic properties of HfB₂ ceramics using experimental method and first-principles calculations, J. Alloy. Compd. 808(2019) 151764. (一区Top IF: 5.316)

3. Hao Liang, Shixue Guan, Xin Li, Akun Liang, Yan Zeng, Chuanqi Liu, Haihua Chen, Weitong Lin, Duanwei He, Liping Wang*, Fang Peng*, Microstructure evolution, densification behavior and mechanical properties of nano-HfB2 sintered under high pressure, Ceram. Int. 45(2019) 7885–7893. (一区Top IF: 4.527)

4. Haihua Chen, Hao Liang, Fang Peng*, Huishan Li, Bin Wang, Xinxin Xia, Xiaodong Li, Pei Wang, Liping Wang* , Structural and Physical Properties of ZrSi₂ under High Pressure: Experimental Study and First-Principles, Inorg. Chem. 58(2019) 405−410. (自然指数 IF: 5.165 )

5. Hong Yu, Fang Peng*, Hao Liang, Shixue Guan, Lijie Tan, Zhengbi Xiong, Xiaojun Xiang, Qingze Li, Li Lei, Duanwei He, Pressure-induced Structural Phase Transformation and Yield Strength of AlN, J Phys. Chem. C 123(2019) 28437−28442.  (二区 Top IF: 4.126)

6. Hao Liang, Fang Peng*, Haihua Chen, Lijie Tan, Qiang Zhang, Cong Fan, Shixue Guan, Xiaolin Ni, Akun Liang, Xiaozhi Yan, Qiwei Hu, High-pressure sintering of bulk MoSi2: Microstructural, physical properties and mechanical behavior, Mat. Sci. Eng. A 711(2018) 389–396. (一区Top IF: 5.234 )

7. Hao Liang, Haihua Chen*, Fang Peng*, Lingxiao Liu, Xin Li, Kui Liu, Chuangqi Liu, Xiaodong Li, High-pressure strength and compressibility of titanium diboride (TiB2) studied under non-hydrostatic compression, J. Phys. Chem. Solids 121(2018) 256–260. (三区 IF:4.383）

8. Haihua Chen*, Hao Liang, Lingxiao Liu, Huishan Li, Kui Liu, Fang Peng, Hardness measurements for high-pressure prepared TaB and nano-TaC ceramics. Results Phys. 7(2017) 3859–3862.  (二区 IF: 4.565)

9. Hao Liang, Fang Peng*, Cong Fan, Qiang Zhang, Jing Liu, Shi-Xue Guan, Structural stability of ultra-high temperature refractory material MoSi2 and Mo5Si3 under high pressure, Chin. Phys. B  26(2017) 053101. (三区 IF: 1.494 )

.......

详细论文参见个人科研主页：https://www.researchgate.net/profile/Hao-Liang-28

                                            https://orcid.org/0000-0002-4965-4705

1. 管诗雪,　彭放,　梁浩，一种单相结构多组元高熵过渡金属碳化物陶瓷的制备方法，发明专利公开（公告）号：202010012913.0

2. 彭放，向晓君，梁浩，一种常规超导体材料磷化钨（WP）的高温高压制备，发明专利公开（公告）号：201910798991.5

3. 梁浩，彭放，管诗雪，一种过渡金属二硼化物高熵陶瓷及其制备方法，发明专利公开（公告）号：201910096356.2

4. 梁浩，彭放，一种高韧性高温结构材料MoSi2-Mo5Si3复合陶瓷的制备，发明专利公开（公告）号：201810914762.0

5. 彭放，梁浩，一种制备高致密度二硼化铪陶瓷的方法，发明专利 公开（公告）号： 201810412834.1

担任本科生公共课大学物理教学工作，研究生极端条件物理部分章节内容教学。

根据学生的意愿，可推送到北京高压科学研究中心、四川大学、南方科技大学、深圳大学和九院等顶级科研单位联合培养！研一在西南科技大学完成硕士课程，研二和研三在相应联合培养单位从事科学研究。

研究生：2022届硕： 蒲洁茹（四川大学联合培养）

研究生（四川大学）：2021届硕 陈杰，2021届博 梁文嘉

指导学生参加2022年第六届西南地区大学生物理学术竞赛（SWUPT）获三等奖。

指导学生参加2023年第七届西南地区大学生物理学术竞赛（SWUPT）获三等奖。