個人簡介
男,1980年生,博士學位,江蘇省高郵市人。2004年獲得江蘇師範大學物理學專業學士學位,2010年獲得華中科技大學材料物理與化學專業博士學位。伟徳国际官网登录入口副教授,擔任物理系專業任課教師,主講《信息論基礎》、《模拟電路》、《數字電路》、《計算物理》等課程。
主要從事納米及分子器件機理及應用等方面的研究,具備密度泛函理論研究基礎和分子器件設計經驗。在分子器件負微分電阻效應研究方面獲得業内廣泛關注,得到了國際同行認可。先後主持完成了理論物理專項(國家級)/2017年江蘇省“雙創計劃”科技副總項目(省級),先後參與完成了多項國家自然科學基金青年基金項目。以第一作者或通訊作者發表SCI收錄論文近20篇;其它合作發表論文10餘篇。
學術成果
<主持科研項目>
項目名稱:寄生量子尺寸效應對納米及分子器件影響研究,項目類型:理論物理專項,執行期限:2014年01月- 2014年12月
項目名稱:磁力耦合器導體盤磁性納米塗層設計,項目類型:江蘇省“雙創計劃”科技副總,執行期限:2017年01月- 2018年12月
<發表論文>
Y. Min*, G. C. Zhuang*, K. L. Yao, “Ab initio calculation of transport properties in 1,3-diphenylpropynylidene based molecular device” Mol. Phys. 118, e1728408 (2020).
Y. Min*, G. C. Zhuang, K. L. Yao, “Multiple negative differential resistance in nitro-based two-probe molecular junction” Phys. Lett. A 384, 126720 (2020).
[3] Y. Min*, C.G. Zhong, P.P. Yang, K.L. Yao, “Low bias negative differential resistance in tour wirespredicted by first-principles study”J. Phys. Chem. Solids 119, 238 (2018).
[4] Y. Min*, C.G. Zhong, K.L. Yao, “Spin-polarized transport properties of 1,3-dimethylpropyny- lidene-based molecular devices” Physic E 94, 92 (2017).
[5] Y. Min*,C.G. Zhong, Z.C. Dong, Z.Y. Zhao, P.X. Zhou, K.L. Yao, “A new method to induce molecular low bias negative differential resistance with multi-peaks” J. Chem. Phys. 144, 064308 (2016).
[6] Y. Min*,C.G. Zhong, Z.C. Dong, Z.Y. Zhao, P.X. Zhou, K.L. Yao, “Strong n-type molecule as low bias negative differential resistance device predicted by first-principles study”Physica E84, 263 (2016).
[7] Y. Min*, J.H. Fang, C.G. Zhong, Z.C. Dong, Z.Y. Zhao, P.X. Zhou, K.L. Yao, “Bias changing molecule–lead couple and inducing low bias negative differential resistance for electrons acceptor predicted by first-principles study” Phys. Lett. A 379, 2637 (2015).
[8] Y. Min*, J.H. Fang, C.G. Zhong, Z.C. Dong, J.F. Li, T.L. Xue, K.L. Yao, L.P. Zhou, “Contact transparency inducing low bias negative differential resistance in two capped carbon nanotubessandwiching σ barrier” Appl. Phys. A118, 367 (2015).
[9] Y. Min*, J.H. Fang, C.G. Zhong, Z.C. Dong, C.N. Wang, T.L. Xue, K.L. Yao, “Contact transparency inducing negative differential resistance in nanotube-molecule-nanotube predicted by first-principles study” Phys. Lett. A 378, 1170 (2014).
[10] Y. Min*, J.H. Fang, C.G. Zhong, Z.C. Dong, C.P. Chen, K.L. Yao, “Disconnect armchair carbon nanotube as rectifier predicted by first-principles study” Comput. Mater. Sci. 81, 418 (2014).
[11] Y. Min*, J.H. Fang, C.G. Zhong, Z.C. Dong, C.P. Chen, K.L. Yao, “Disconnected zigzag carbon nanotube as spin valve and spin filter predicted by first-principles study” Physica B 430, 40 (2013).
[12] Y. Min*, J.H. Fang, C.G. Zhong, Z.C. Dong, C.P. Chen, K.L. Yao, “Localization of the energy states of lead inducing the effect of rectification and negative differential resistance predicted by first-principles study” Int. J. Mod. Phys. B 27, 1350081 (2013).
[13] Y. Min*, J.H. Fang, C.G. Zhong, K.L. Yao, “Rectification effect about vacuum separating carbon nanotube bundle predicted by first-principles study” Phys. Lett. A 376, 1845 (2012).
[14] Y. Min*, K.L. Yao, H.H. Fu, Z.L. Liu, Q. Li, “First-principles study of strong rectification and negative differential resistance induced by charge distribution.” J. Chem. Phys.132, 214703(2010).(selected in Virtual Journal of Nanoscale Science & Technology. June 14, 2010 issue)
[15] Y. Min*, K.L. Yao, Z.L. Liu, G.Y. Gao, H.G. Cheng, S.C. Zhu, “First-principles calculations: half-metallic Au–V(Cr) quantum wires as spin filters”, Nanotechnology 20, 095201 (2009).
[16] Y. Min*, K.L. Yao, Z.L. Liu, H.G. Cheng, S.C. Zhu, G.Y. Gao, “CrAs(0 0 1)/AlAs(0 0 1) heterogeneous junction as a spin current diode predicted by first-principles calculations”, J. Magn. Magn. Mater. 321, 312 (2009).
[17] K.L. Yao, Y. Min*, Z.L. Liu, H.G. Cheng, S.C. Zhu, G.Y. Gao, “First-principles study of transport of V doped boron nitride nanotube”, Phys. Lett. A 372, 5609 (2008).
[18] K.L. Yao, Y. Min*, Z.L. Liu, “First-principles studies: Thiolated Au2Cr and Au6Cr clusters”, Physica E 40, 3193 (2008).
