一、个人简介
梁宏圣,河北石家庄辛集人,长安大学讲师,博士毕业于西北工业大学物理科学与技术学院,2025年3月至今就职于长安大学理学院。主要从事电磁波吸收(隐身)材料的理论设计、制备合成、物化表征及其隐身应用;在SCI期刊发表论文30多篇,其中以第一作者身份在Adv. Funct. Mater.、Small、Small Methods、Compos. Part B-Eng.、Compos. Part A-Appl. S.和 Carbon 等国际知名学术期刊发表SCI研究论文8篇,ESI高被引论文10篇,ESI热点论文5篇。论文被美国、德国、日本、英国和韩国等国家的学者正面引用 2100 多次,H 指数 22。主持校级硕博基金2项,参研国家自然科学基金面上项目及华为公司横向等项目5项。获2024年陕西省高等学校科学技术研究优秀成果一等奖;获Cell Press物质科学领域2022年度最受欢迎中国论文奖,入选2024年全球前 2%顶尖科学家。
二、研究方向
具体研究方向(一级/二级学科及代码)
姓名 |
一级学科 |
二级学科 |
具体研究方向 |
梁宏圣 |
材料科学与工程 |
材料物理与化学 |
电磁波吸收材料 |
三、联系方式
通讯地址:西安市南二环路中段长安大学理学院应用物理系,710064
电子邮箱:hongshengliang@chd.edu.cn
四、代表性论文、专著及专利
1、近五年发表论文、专著及专利
[1] H.S. Liang, G. Chen, D. Liu, Z.J. Li, S.C. Hui, J.J. Yun, L.M. Zhang, H.J. Wu, Exploring the Ni 3d Orbital Unpaired Electrons Induced Polarization Loss Based on Ni Single-Atoms Model Absorber, Advanced Functional Materials, 2023, 33, 2212604. IF=19.00 (SCI 1区,期刊内封面文章,ESI高被引论文,ESI热点论文)
[2] H.S. Liang, L.M. Zhang, H.J. Wu, Exploration of Twin-Modified Grain Boundary Engineering in Metallic Copper Predominated Electromagnetic Wave Absorber, Small, 2022, 18, 2203620. IF=13.3 (SCI 1区,ESI高被引论文,ESI热点论文)
[3] H.S. Liang, S.C. Hui, L.M. Zhang, K. Tao, Q. Chen, W. Lu, H.J. Wu, High-Density Dual Atoms Pairs Coupling for Efficient Electromagnetic Wave Absorbers, Small, 2025, 21, 2408396, IF=13.3 (SCI 1区)
[4] H.S. Liang, H. Xing, Z.H. Ma, H.J. Wu, Tailoring high-electroconductivity carbon cloth coated by nickel cobaltate/nickel oxide: A case of transition from microwave shielding to absorption, Carbon, 2021, 183, 138-149. IF=10.9 (SCI 2区)
[5] H.S. Liang, J.L. Liu, Y. Zhang, L. Luo, H.J. Wu, Ultra-thin broccoli-like SCFs@TiO2 one-dimensional electromagnetic wave absorbing material, Composites Part B: Engineering, 2019, 178, 107507. IF=13.1 (SCI 1区,ESI热点论文)
[6] H.S. Liang, H. Xing, M. Qin, H.J. Wu, Bamboo-like short carbon fibers@Fe3O4@phenolic resin and honeycomb-like short carbon fibers@Fe3O4@FeO composites as high-performance electromagnetic wave absorbing materials, Composites Part A: Applied Science and Manufacturing, 2020, 135, 105959. IF=8.7 (SCI 1区)
[7] H.S. Liang, S.C. Hui, G. Chen, H. Shen, J. Yun, L. Zhang, W. Lu, H.J. Wu, Discovery of deactivation phenomenon in NiCo2S4/NiS2 electromagnetic wave absorbent and its reactivation mechanism, Small Methods, 2024, 8, 2301600. IF=12.4 (SCI 2区,ESI高被引论文)
[8] H.S. Liang, G. Chen, H. Xing, L.M. Zhang, H.J. Wu, Correct establishment of structure–activity relationship of flexible electromagnetic wave absorber, Journal of Materials Science: Materials in Electronics, 2022, 33, 12701-12712. IF=2.8 (SCI 4区)
[9] Q. Chang1, H.S. Liang1, B. Shi, X.L. Li, Y.T. Zhang, L.M. Zhang, H.J. Wu, Ethylenediamine-assisted hydrothermal synthesis of NiCo2O4 absorber with controlled morphology and excellent absorbing performance, Journal of Colloid and Interface Science, 2021, 588, 336-345. IF=9.9 (SCI 1区,ESI高被引论文,ESI热点论文,共一)
[10] G. Chen, H.S. Liang, J.J. Yun, L.M. Zhang, H.J. Wu, J.Y. Wang, Ultrasonic field induces better crystallinity and abundant defects at grain boundaries to develop CuS electromagnetic wave absorber, Advanced Materials, 2023, 35, 2305586. IF=29.4 (SCI 1区,二作,ESI高被引论文)
[11] Q. Chang, H.S. Liang, B. Shi, H.J. Wu, Microstructure induced dielectric loss in lightweight Fe3O4 foam for electromagnetic wave absorption, iScience, 2022, 25, 103925. IF=9.9 (SCI 2区,ESI高被引论文,荣获Cell Press物质科学领域2022年度最受欢迎中国论文,二作)
[12] J.L. Liu, H.S. Liang, Y. Zhang, G.L. Wu, H.L. Wu, Facile synthesis of ellipsoid-like MgCo2O4/Co3O4 composites for strong wideband microwave absorption application, Composites Part B: Engineering, 2019, 176, 107240. IF=13.1 (SCI 1区,ESI高被引论文,ESI热点论文,二作)
[13] J.L. Liu, H.S. Liang, H.J. Wu, Hierarchical flower-like Fe3O4/MoS2 composites for selective broadband electromagnetic wave absorption performance, Composites Part A: Applied Science and Manufacturing, 2020, 130, 105760. IF=8.7 (SCI 1区,ESI高被引论文,二作)
[14] M. Qin, H.S. Liang, X.R. Zhao, H.J. Wu, Filter paper templated one-dimensional NiO/NiCo2O4 microrod with wideband electromagnetic wave absorption capacity, Journal of Colloid and Interface Science, 2020, 566, 347-356. IF=9.9 (SCI 1区,二作)
[15] Q. Chang, H.S. Liang, B. Shi, X.L. H.J. Wu, Sodium oxalate-induced hydrothermal synthesis of wood-texture-column-like NiCo2O4 with broad bandwidth electromagnetic wave absorption performance, Journal of Colloid and Interface Science, 2021, 600, 49-57. IF=9.9 (SCI 1区,二作)
[16] M. Qin, H.S. Liang, X.R. Zhao, H.J. Wu, Glycine-assisted solution combustion synthesis of NiCo2O4 electromagnetic wave absorber with wide absorption bandwidth, Ceramics International, 2020, 46, 22313-22320. IF=5.2 (SCI 1区,二作)
[17] J.L. Liu, H.S. Liang, B. Wei, J.J. Yun, L.M. Zhang, H.J. Wu, “Matryoshka Doll” Heterostructures induce electromagnetic parameters fluctuation to tailor electromagnetic wave absorption, Small Structures, 2023, 4, 2200379. IF=15.9 (SCI 2区,二作)
[18] B. Shi, H.S. Liang, Z.J. Xie, Q. Chang, H.J. Wu, Dielectric loss enhancement induced by the microstructure of CoFe2O4 foam to realize broadband electromagnetic wave absorption, International Journal of Minerals, Metallurgy and Materials, 2023, 30, 1388. IF=4.8 (SCI 2区,二作)
[19] H.J. Wu, J.L. Liu, H.S. Liang, D.Y. Zang, Sandwich-like Fe3O4/Fe3S4 composites for electromagnetic wave absorption. Chemical Engineering Journal, 2020, 393, 124743. IF=15.1 (SCI 1区,ESI高被引论文)
[20] Y. Mu, Z.H. Ma, H.S. Liang, L.M. Zhang, H.J. Wu, Ferrite-based composites and morphology-controlled absorbers, Rare Metals, 2022, 41, 2943-2970. IF=8.8 (SCI 1区)
[21] X.M. Liu, H.Q. Liu, H.J. Wu, Q. Zhou, H.S. Liang, G.Q. Liu, W.Y. Duan, Y. Gu, C.Y. Xu, N. Travitzky, P. Colombo, R. Riedel, Structural Electromagnetic Absorber Based on MoS2/PyC‐Al2O3 Ceramic Metamaterials, Small, 2023, 19, 2300664. IF=13.3 (SCI 1区)
[22] L. Cai, H.J. Jiang, F. Pan, H.S. Liang, Y.Y. Shi, X. Wang, J. Cheng, Y. Yang, X. Zhang, Z. Shi, H.J. Wu, W. Lu, Linkage effect induced by hierarchical architecture in magnetic MXene‐based microwave absorber, Small, 2024, 20, 2306698. IF=13.3 (SCI 1区)
[23] M. Qin, D. Lan, J.L. Liu, H.S. Liang, L.M. Zhang, H. Xing, T.T. Xu, H.J. Wu, Synthesis of single-component metal oxides with controllable multi-shelled structure and their morphology-related applications, Chemical Record, 2020, 20, 102-119. IF=6.6 (SCI 2区,ESI高被引论文)
[24] Y. Yang, X. Zheng, F. Pan, H.L. Liang, H.J. Jiang, H.T. Guo, X. Wang, L.X. Li, B. Yuan, W. Lu, Tuning the Multilevel Hierarchical Microarchitecture of MXene/rGO-Based Aerogels Through a Magnetic Field-Guided Strategy Toward Stepwise Enhanced Electromagnetic Wave Dissipation, Advanced Functional Materials, 2024, doi: 10.1002/adfm.202406133.
[25] R.Z. Zhang, B. Yuan, F. Pan, H.L. Liang, H.J. Jiang, H.T. Guo, Y.C. Rao, S.H. Zheng, L.Y. Ruan, C.S. Wu, Y. Yang, W. Lu, Ultratransparent, stretchable, and durable electromagnetic wave absorbers, Matter, 2025, 8, 101956.
[26] K. Yao, F. Pan, H.L. Liang, X. Zhang, L.X. Li, L.X. Song, Y. Yang, B. Yuan, W. Lu, Shifting d-band Center: An Overlooked Factor in Broadening Electromagnetic Wave Absorption Bandwidth, Advanced Functional Materials, 2025, 35, 2413639.
2、其他代表性论文、专著及专利
[1] H.J. Wu, J. Luo, M.Y. Yang, Novel Electromagnetic Wave Absorbing Materials, Wiley-VCH, Weinheim, 2024, doi: 10.1002/9781119699316.ch4. (Chapter 4: H.S. Liang, H.J. Wu, Novel microscopic electromagnetic loss mechanisms.)
[2] H.J. Wu, J. Luo, M.Y. Yang, Novel Electromagnetic Wave Absorbing Materials, Wiley-VCH, Weinheim, 2024, doi: 10.1002/9781119699316.ch6. (Chapter 6: H.S. Liang, H.J. Wu, New dielectric physical models for electromagnetic wave absorption.)
五、参与或主持的科研项目
1、近五年主持的科研项目
[1] 2022-2023年,西北工业大学博士论文创新基金,Ni/Cu单原子电磁波吸收材料电磁损耗机理研究,主持,已结题;
[2] 2020-2021年,西北工业大学研究生创意创新种子基金,基于短碳纤维基底的铁氧体复合吸波材料的相关性研究,主持,已结题;
2、其他主持及主要参与的科研项目(具有代表性的)
[1] 2019-2022年,国家自然科学基金面上项目,基于多层核壳空心球铁氧体的微观电磁损耗机理研究,参与,已结题;
[2] 2024-2026年,广东省自然科学基金-面上项目,隐身-防除冰一体化硅基凝胶的吸波-导热-超疏水耦合机理及匹配设计研究,参与,在研;
[3] 2020-2021年,陕西省自然科学基础研究面上项目,贵金属/氧化物的协同作用与高频电磁性能直接关联性研究,参与,已结题;
[4] 2022-2023年,华为技术有限公司横向科技项目,xxx,参与,已结题;
[5] 2023-2024年,中国人民解放军X部队开放基金,xxx,参与,已结题。
六、获奖情况
[1] 2024年,入选全球前2%顶尖科学家;
[2] 2024年,获陕西高等学校科学技术研究优秀成果一等奖(7/11);
[3] 2025年,西北工业大学优秀毕业生;
[4] 2022-2023年,国家奖学金;
[5] 2022-2023年,西北工业大学“自强之星”;
[6] 2022-2023年,西北工业大学优秀研究生;
[7] 2022-2023年,西北工业大学一等学业奖学金;
[8] 2022-2023年,西北工业大学一等奖学金;
[9] 2020-2021年,国家奖学金。
