梁擁成教授

梁擁成， 1974年5月出生，力學(xué)學(xué)科教授，博士生導(dǎo)師。主要成果有多功能過渡金屬化合物超硬材料設(shè)計、制備及其應(yīng)用等，在Phys. Rev. Lett.、Nano Lett.與Chem. Mater.等期刊發(fā)表論文80多篇，被引用數(shù)千次。

研究方向：

計算材料物理；微納尺度力學(xué)；超硬材料設(shè)計

榮譽及獲獎情況：

獲得國家海洋工程技術(shù)一等獎、上海市科技進步二等獎、上海市海洋科技發(fā)明二等獎、上海市浦東新區(qū)科技進步三等獎等。

近年來承擔(dān)的主要科研項目：

承擔(dān)國家自然科學(xué)基金、上海市科委與教委重點等科研項目10余項。

近年來發(fā)表的代表性論文：

1、Tribological and wear-resistant behaviors of single-phase (Dy_0.2Ho_0.2Er_0.2Tm_0.2Lu_0.2)B₁₂ high-entropy ceramic，J. Eur. Ceram. Soc. 44, 3664 (2024).

2、Coexistence of superhardness and metal-like electrical conductivity in high-entropy dodecaboride composite with atomic-scale interlocks,Nano Lett. 23, 9319 (2023).

3、Understanding the role of atomic vacancies in the stability and hardening of cubic tungsten and molybdenum nitrides,J. Phys. Chem. C 127, 22984(2023).

4、Synthesis, crystal structures, mechanical properties, and formation mechanisms of cubic tungsten nitrides,Chem. Mater. 34, 9261(2022).  

5、Superhard high-entropy dodecaboride with high electrical conductivity,Scripta Mater. 220, 114938 (2022).

6、Vacancy hardening and ordering in rhenium tungsten carbides, J. Phys. Chem. C126, 15215 (2022).

7、Ultrahigh elasticity and anomalous softening of α-Ag₂S under pressure,Chem. Phys. Lett. 802, 139801(2022).

8、Designing a type of material with a vacancy-independent lattice volume: A case study on Ti_0.19Zr_0.81N_1-x,Chem. Phys. Lett. 803, 139827 (2022).

9、Enhanced Hardness in transition-metal monocarbides via optimal occupancy of bonding orbitals, ACS Appl. Mater. & Interfaces 13, 14365 (2021).

10、Crystal structures and formation mechanisms of boron-rich tungsten borides, Phys. Rev. B 104, 014110 (2021)

11、Isosymmetric phase transitions, ultrahigh ductility, and topological nodal lines in α-Ag₂S, Phys. Rev. B 102, 140101(R) (2021).

12、Pressure-driven switching of magnetism in layered CrCl₃, Nanoscale 12, 22935 (2020).

13、Thermodynamic ground states of multifunctional metal dodecaborides,Chem. Mater. 31, 1075 (2019).

14、The vacancy ordering produces a new cubic monocarbide: ReC, Mater. Today Phys. 7, 54 (2018).

15、The mechanism of anomalous hardening in transition-metal monoborides，Nanoscale9, 9112 (2017).

16、Discovery of elusive structures of multifunctional transition-metal borides，Nanoscale 8, 1055 (2016).

17、Phonon-assisted crossover from nonmagnetic Peierls insulator to magnetic Stoner metal, Phys. Rev. Lett. 113, 176401(2014).

18、An unusual variation of stability and hardness in molybdenum borides, Appl. Phys. Lett. 101, 181908 (2012).

19、Thermodynamic identification of tungsten borides, Phys. Rev. B 83, 220102(R)(2011). 

20、First-principles investigation of technetium carbides and nitrides, Phys. Rev. B 79, 024111 (2009).

21、 Superhardness, stability, and metallicity of diamondlike BC₅: Density functional calculations, Phys. Rev. B 80, 113401 (2009). 

22、Mechanical properties and structural identifications of the cubic TiO₂, Phys. Rev. B 77, 094126 (2008).

23、Mechanical and electronic properties of superhard ReB₂, Phys. Rev. B 76, 132101 (2007).

聯(lián)系電話：67792089-1549                         E-MAIL：ycliang@dhu.edu.cn