基本介紹
- 中文名:易文才
- 學位/學歷:博士
- 職業:教師
- 專業方向:新型低維材料結構搜尋算法的深度開發
- 任職院校:曲阜師範大學
個人經歷,主講課程,研究方向,學術成果,榮譽獎項,
個人經歷
教育背景
2013.09-2018.06 吉林大學理論化學研究所 理學博士
2016.12-2017.12 California State University 訪問學者
2009.09-2013.07 天津師範大學化學院 理學學士
工作經歷
2018年07月-至今 曲阜師範大學物理工程學院 講師
主講課程
主要承擔理工科本科生大學物理和大學物理實驗教學工作。
研究方向
採用第一性原理計算和結構搜尋算法,探究低維材料微觀晶體結構和電子結構性質。通過結構搜尋,挖掘材料微觀結構與巨觀性質之間的關係,並基於此設計新型低維多功能材料。
研究興趣包含:
1. 新型低維材料結構搜尋算法的深度開發;
2. 新型低維亞穩材料微觀結構及穩定性的理論探究;
3. 低維功能材料催化性能及催化反應微觀機理的理論研究;
4. 含能材料微觀晶體結構探究。
學術成果
目前已在J. Mater. Chem. A, J. Phys. Chem. Lett, J. Mater. Chem. C,Nanoscale等國際著名期刊發表論文29篇。
科研項目
[1]國家自然科學青年科學基金項目 《五唑陰離子金屬高能化合物常壓晶體結構及穩定性的第一性原理研究》 2020年01月—2022年12月 項目編號:21905159主持;
[2] 山東省自然科學博士基金《基於摻雜提高磷烯結構穩定性及氣敏性質的理論研究》 2019年07月—2022年06月 項目編號:ZR2019BA010主持;
[3] 國家自然科學基金面上項目《石墨烯等雙層轉角系統中莫爾勢對電子結構和電子關聯效應調製的理論》 2020年01月—2023年12月項目編號:11974207參與;
[4] 山東省自然科學基金面上項目 《利用高溫高壓技術對金剛石內 NV 中心的可控制備及調控機制研究》2019年07月—2022年06月項目編號:ZR2019MA054參與;
[1] VASP快速使用輔助軟體(簡稱qvasp,原始取得)2018年12月19日 登記號:2019SR0363124(商用請聯繫授權)
科研論文
2019-Now (Qufu Normal University)
1.Yi, W. C.*, Chen, X., Wang, Z. X., ... Yang, B. C. andLiu, X. B.* A novel two-dimensional δ-InP 3 monolayer with high stability, tunable bandgap, high carrier mobility, and gas sensing of NO 2.J. Mater. Chem. C.2019,7, 7352-7359.
2.Yi, W. C.*, Zhao K, Wang Z, et al. Stabilization of the High-Energy-Density CuN5 Salts under Ambient Conditions by a Ligand Effect.ACS Omega, 2020.
3.Ye Y,Yi, W. C., (共一)Liu W.,Zhou Y., Xi G. C. et al. Remarkable Surface-Enhanced Raman Scattering of Highly Crystalline Monolayer Ti3C2 Nanosheets.Science China Materials, 2020.
4.Li, Y., Bai, H., Zhai, J.,Yi, W. C.,Li, J., Yang, H.andXi, G. C. Alternative to Noble Metal Substrates: Metallic and Plasmonic Ti3O5 Hierarchical Microspheres for Surface Enhanced Raman Spectroscopy.Anal. Chem., 2019, 91(7), 4496-4503.
5.Duan, S., Cui, Y., Chen, X.,Yi, W. C.,Liu, Y. X. andLiu, X.B. Ultrahigh Thermoelectric Performance Realized in Black Phosphorus System by Favorable Band Engineering through Group VA Doping.Adv. Funct. Mater., 2019, 1904346.
6.Yang, M., Zhu, H.,Yi, W. C., Li, S., Hu, M., Hu, Q. andSu, T. C. Electrical transport and thermoelectric properties of Te–Se solid solutions.Phys. Lett. A, 2019, 383(22), 2615-2620.
7.Hu, L.,Yi, W. C., Tang, J., Rao, T., Ma, Z., Hu, C.andLi, T. Planar graphitic ZnS, buckling ZnS monolayers and rolled-up nanotubes as nonlinear optical materials: first-principles simulation.RSC Adv., 2019, 9(44), 25336-25344.
8. Tian, Z., Bai, H., Chen, C., Ye, Y., Kong, Q., Li, Y.,Yi, W. C., Xi, G. C. Quasi-metal for highly sensitive and stable surface enhanced Raman scattering.iScience,2019.
9. Guo X. X.,Yi, W. C.Qu F. L., Lu L. M.. New insights into mechanisms on electrochemical N2 reduction reaction driven by efficient zero-valence Cu nanoparticles.J. Power Sources, 2020, 448: 227417.
10.Zhao L., Liu W.,Yi W. C.,Mao S. M., et al. Nano-makisu: highly anisotropic two-dimensional carbon allotropes made by weaving together nanotubes.Nanoscale, 2020, 12(1): 347-355.
11. Zhao B, Zhang S, Duan S, ...Yi W. C.,Liu X. B., et al. Enhanced strength of nano-polycrystalline diamond by introducing boron carbide interlayers at the grain boundaries.Nanoscale Advances, 2020.
12. Ye Y, Chen C, Bai H,...Yi, W. C., Xi G. C.et al. Quasi-metallic Tungsten Oxide Nanodendrites with High Stability for Surface-Enhanced Raman Scattering.Cell Reports Physical Science, 2020: 100031.
2013-2019(Jilin University)
1.Yi, W. C.; Liu, W.; Botana, J.; Liu, J. Y.; Miao, M. S., Microporosity as a new property control factor in graphene-like 2D allotropes.J. Mater. Chem. A2018, 6(22), 10348-10353.
2.Yi, W. C.; Liu, W.; Botana, J.; Zhao, L.; Liu, Z.; Liu, J. Y.; Miao, M. S., Honeycomb Boron Allotropes with Dirac Cones: A True Analogue to Graphene.J. Phys. Chem. Lett.2017,8(12), 2647-2653.
3.Yi, W. C.; Hu, T.; Su, T.; Islam, R.; Liu, J. Y.; Miao, M. S., CNH monolayer: a direct gap 2D semiconductor with anisotropic electronic and optical properties.J. Mater. Chem. C2017, 5 (33), 8498-8503
4.Yi, W. C.; Liu, W.; Zhao, L.; Islam, R.; Miao, M. S.; Liu, J. Y., Asymmetric passivation of edges: a route to make magnetic graphene nanoribbons.RSC Adv.2017,7(45), 27932-27937.
5. Zhao L.,Yi, W. C.;(共一)Botana J.; Gu F. L.; Miao M. S., Nitrophosphorene: A 2D Semiconductor with Both Large Direct Gap and Superior Mobility.J. Phys. Chem. C.2017, 121(21), 28520–28526
6. Bai, H.;Yi, W. C.; Li, J.; Xi, G. C.; Li, Y.; Yang, H.; Liu, J. Y., Direct growth of defect-rich MoO3-xultrathin nanobelts for efficiently catalyzed conversion of isopropyl alcohol to propylene under visible light.J. Mater. Chem.A2016,4(5), 1566-1571. (內封面)
7. Bai, H.;Yi, W. C.; Liu, J. Y.; Lv, Q.; Zhang, Q.; Ma, Q.; Yang, H.; Xi, G. C., Large-scale synthesis of ultrathin tungsten oxide nanowire networks: an efficient catalyst for aerobic oxidation of toluene to benzaldehyde under visible light.Nanoscale2016,8(28), 13545-51.
8. He C. Y.; Bai. H.;Yi, W. C.; Liu J. Y.; Li X. S.; Li X., Xi G. C. Highly sensitive and stable SERS substrate using hybrid tungsten dioxide/carbon ultrathin nanowire beams.J. Mater. Chem. C2018.
9. Zhang, Q.; Li, X.; Ma, Q.; Zhang, Q.; Bai, H.;Yi, W.C.; Liu, J. Y.; Han, J.; Xi, G. C., A metallic molybdenum dioxide with high stability for surface enhanced Raman spectroscopy.Nat. Commun.2017,8, 14903.
10. Bai, H., Liu, W.,Yi, W. C., Li, X., Zhai, J., Li, J., ... & Xi, G. Metallic carbide nanoparticles as stable and reusable substrates for sensitive surface-enhanced Raman spectroscopy.Chem. Commun., 2018. 54(77), 10843-10846.
11. Zhang, Q., Li, X.,Yi, W. C.,Li, W., Bai, H., Liu, J., & Xi, G. (2017). Plasmonic MoO2 nanospheres as a highly sensitive and stable non-noble metal substrate for multicomponent surface-enhanced Raman analysis.Anal. Chem., 89(21), 11765-11771.
12. Li, J. F.; Bai, H.;Yi, W. C.; Liu, J. Y.; Li, Y. H.; Zhang, Q.; Yang, H. F.; Xi, G. C., Synthesis and facet-dependent photocatalytic activity of strontium titanate polyhedron nanocrystals.Nano Res.2016,9(5), 1523-1531.
13. Huai, L. Y.; He, C. Z.; Wang, H.; Wen, H.;Yi, W. C.; Liu, J. Y., NO dissociation and reduction by H2on Pd(111): A first-principles study.J. Catal.2015,322, 73-83.
14. Huai, L. Y.; Wang, H.; He, C. Z.; Wen, H.;Yi, W. C.; Liu, J.Y., Effect of Subsurface Oxygen on Selective Catalytic Reduction of NO by H2on Pt(100): A First-Principles Study.J. Phys. Chem. C2015, 119 (44), 24819-24826.
15. Liu, J. J.; Fang, S.; Wang, Z. X.;Yi, W. C.; Tao, F. M.; Liu, J. Y., Hydrolysis of Sulfur Dioxide in Small Clusters of Sulfuric Acid: Mechanistic and Kinetic Study.Environ. Sci. Technol.2015, 49 (22), 13112-13120.
16. Jin X.;Huai L. Y.; Wen H.;Yi, W. C.; Liu J. Y. Reduction of NO by CO on the Co3O4(110)-B and CoO(110) surfaces: A First-principles Study.J. Phys. Chem. C2018,123(3): 1770-1778.
17. Bing Q. M.; Liu W.;Yi, W. C.; Liu J. Y. Ni anchored C2N monolayers as low-cost and efficient catalysts for hydrogen production from formic acid.J. Power Sources2019, 413, 399-407.
2018年吉林大學優秀博士學位論文; 2018年第三十二屆研究生“精英杯”學術成果大獎賽一等獎; 2018年吉林大學優秀畢業生稱號; 2017年吉林大學研究生學術業績獎學金; 2017年度研究生國家獎學金; 2017年度唐敖慶化學獎學金; 2017年吉林大學優秀研究生幹部; 2017年吉林大學第十屆博士研究生學術論壇二等獎; 2017年吉林大學優秀研究生二等獎學金; 2016年第30屆中國化學學術年會優秀牆報獎; 2015年吉林大學優秀研究生稱號; 2015年吉林大學優秀研究生二等獎學金; 2014年吉林大學優秀研究生一等獎學金; 2014年吉林大學優秀研究生稱號
