利用基于密度泛函理论的第一性原理,对不同直径和浓度Au掺杂Si纳米线的态密度和磁性进行了计算.结果表明:杂质Au的形成能随Si纳米线直径的增大和掺杂浓度的降低而下降,这说明直径越小的Si纳米线掺杂越困难,杂质浓度越高的Si纳米线越不稳定.其磁性是由于Au d轨道和Si p轨道的p-d耦合而产生的;改变Au的掺杂浓度可改变Si纳米线的带隙,也改变了其磁矩的大小.
参考文献
| [1] | Frederick C. K. Au;K. W. Wong;Y. H. Tang .Electron field emission from silicon nanowires[J].Applied physics letters,1999(12):1700-1702. |
| [2] | Sung-Wook Chung;Jae-Young Yu;James R. Heath .Silicon nanowire devices[J].Applied physics letters,2000(15):2068-2070. |
| [3] | Cui Y;Wei Q Q;Park H et al.Nanowire Nanosensors for Highly Sensitive and Selective Detection of Biological and Chemical Species[J].Science,2001,293:1289-1292. |
| [4] | Landman U.;Scherbakov AG.;Avouris P.;Barnett RN. .Metal-semiconductor nanocontacts: Silicon nanowires[J].Physical review letters,2000(9):1958-1961. |
| [5] | Cui Y;Duan X F;Hu J T et al.Doping and Electrical Transport in Silicon Nanowires[J].Journal of Physical Chemistry B,2000,104(22):5213-5216. |
| [6] | Cui Y;Lieber C M .Functional Nanoscale Electronic Device Assembled Using Silicon Nanowire Building Blocks[J].Science,2001,291:851-853. |
| [7] | Dilts S M;Mohmmad A M;Lew K K.Fabrication and Electrical Characterization of Arrays[A].Boston,Massn Chusetts USA,2004:9-10. |
| [8] | Huang C T;Hsin C L;Huang K W et al.Er-doped Silicon Nanowires with 1.54 μm Light-emitting and Enhanced Electrical Field Emission Properties[J].Applied Physics Letters,2007,91:093133-093133. |
| [9] | Fernandez-Serra MV;Adessi C;Blase X .Surface segregation and backscattering in doped silicon nanowires[J].Physical review letters,2006(16):6805-1-6805-4-0. |
| [10] | Singh AK;Kumar V;Note R;Kawazoe Y .Effects of morphology and doping on the electronic and structural properties of hydrogenated silicon nanowires[J].Nano letters,2006(5):920-925. |
| [11] | Peelaers H;Partoens B;Peeters FM .Formation and segregation energies of B and P doped and BP codoped silicon nanowires[J].Nano letters,2006(12):2781-2784. |
| [12] | Durgun E;Akman N;Ataca C et al.Atomic and Electronic Structures of Doped Silicon Nanowires:A First-principle Study[J].Physical Review B:Condensed Matter,2007,76:245323-245328. |
| [13] | Lee W F;Lee C Y;Ho M L et al.Nd-doped Silicon Nanowire with Room Temperature Ferromagnetism and Infrared Photoemission[J].Applied Physics Letters,2009,94:263117-263113. |
| [14] | Wu HW;Tsai CJ;Chen LJ .Room temperature ferromagnetism in Mn+-implanted Si nanowires[J].Applied physics letters,2007(4):43121-1-43121-3-0. |
| [15] | Giorgi G;Cartoixa X;Sgamellotti A et al.Mn-doped Silicon Nanowires:First-principle Calculations[J].Physical Review B:Condensed Matter,2008,78:115327-115325. |
| [16] | Durgun E;Akman N;Ciraci S .Functionalization of Silicon Nanowires with Transition Metal Atoms[J].Physical Review B:Condensed Matter,2008,78:195116-195112. |
| [17] | Berkdemir C;Gülseren O .First-principles Investigation of Pentagonal and Hexagonal Core-shell Silicon Nanowires with Various Core Compositions[J].Physical Review B:Condensed Matter,2009,80:115334-115339. |
| [18] | Xu Q;Li J B;Li S S et al.The Formation and Electronic Structures of 3d Transition-metal Atoms Doped in Silicon Nanowires[J].Journal of Applied Physics,2008,104:084307-084306. |
| [19] | 梁伟华,丁学成,褚立志,邓泽超,郭建新,吴转花,王英龙.镍掺杂硅纳米线电子结构和光学性质的第一性原理研究[J].物理学报,2010(11):8071-8077. |
| [20] | 梁伟华,王秀丽,丁学成,褚立志,邓泽超,傅广生,王英龙.Au掺杂硅纳米线的稳定性和电子结构[J].物理化学学报,2011(07):1615-1620. |
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