黑硅是一种新型的硅材料,具有优异的光电性质.概括了Eric Mazur以及其他研究者近年来关于黑硅的研究工作,详细介绍了黑硅的制备与产生机理以及黑硅的吸收、发光、场发射与光谱响应等性质,并指出了黑硅在红外探测器、太阳能电池以及平板显示器等领域的重要潜在应用价值.
Black silicon is a new material, and it has many excellent photoelectric properties. Eric Mazur, as well as other researchers' works on black silicon in the recent years are summarized, the experimental methods, formative mechanisms and photoelectric properties of black silicon are described in detail, the potential usability of black silicon in the manufacture of solar cells, infrared detectors and flat displays are also prospected.
参考文献
| [1] | Wu C;Crouch C H;Zhao L et al.Near-unity below-band gap absorption by microstructured silicon[J].Applied Physics Letters,2001,78:1850. |
| [2] | Schnell Matin;Lüdemann Ralf;Schaefer Sebastian.Plasma surface texturization for multicrystalline silicon solar cells[A].Anchorage,2000:367. |
| [3] | Kumaravelu G;Alkaisi M M;Bittar A.Surface texturing for silicon solar cells using reactive ion etching technique[A].New Orleans,2002:258. |
| [4] | Bawolek Edward J;Hirleman E Dan .Surface roughness effects on light scattered by submicron particles on surfaces[J].Integrated Circuit Metrology Inspection and Process Control V,1991,1464:574. |
| [5] | 刘光友,谭兴文,姚金才,王振,熊祖洪.电化学制备薄黑硅抗反射膜[J].物理学报,2008(01):514-518. |
| [6] | Her T H et al.Microstructuring of sili-con with femtosecond laser pulses[J].Applied Physics Letters,1998,73:1673. |
| [7] | Younkin R J;Carey J E;Mazur E et al.Infrared absorption by conical silicon microstructures made in a variety of background gases using femtosecond-laser pulses[J].Journal of Applied Physics,2003,93:2626. |
| [8] | Crouch CH;Carey JE;Shen M;Mazur E;Genin FY .Infrared absorption by sulfur-doped silicon formed by femtosecond laser irradiation[J].Applied physics, A. Materials science & processing,2004(7):1635-1641. |
| [9] | Sheehy, MA;Winston, L;Carey, JE;Friend, CA;Mazur, E .Role of the background gas in the morphology and optical properties of laser-microstructured silicon[J].Chemistry of Materials,2005(14):3582-3586. |
| [10] | C. Wu;C. H. Crouch;L. Zhao;E. Mazur .Visible luminescence from silicon surfaces microstructured in air[J].Applied physics letters,2002(11):1999-2001. |
| [11] | Serpengüzel Ali;Bilici Temel.Temperature dependence of photoluminescence in non-crystalline silicon[A].San Jose,California,U.S.A,2004:565. |
| [12] | Serpenguzel Ali;Kurt Adrian;Inane Ibrahim et al.Luminescence of black silicon[J].Journal of Nanophotonics,2008,2:021770. |
| [13] | Carey J E;Crouch C H;You R.Fabrication of micrometer-sized conical field emitters using femtosecond laserassisted etching of silicon[A].Davis,2001:75. |
| [14] | Carey J E;Zhao L;Wu C.Fieid emission from silicon microstructures formed by femtosecond laser assisted et-ching[A].Baltimore,2001:555. |
| [15] | Schechter Bruce .Dark and stranger[J].New Scientist,2001,13:34. |
| [16] | Sarnet T;Halbwax M;Torre R s.Femtosecond laser for black silicon and photovoltaic cells[A].San Jose,California,U.S.A,2008 |
| [17] | M. Halbwax;T. Sarnet;Ph. Delaporte;M. Sentis;H. Etienne;F. Torregrosa;V. Vervisch;I. Perichaud;S. Martinuzzi .Micro and nano-structuration of silicon by femtosecond laser: Application to silicon photovoltaic cells fabrication[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2008(20):6791-6795. |
| [18] | Moloney Aoife M;Wall Liam.Novel Black Silicon PIN Photodiodes[A].San Jose,California,U.S.A,2006 |
| [19] | 赵明,苏卫锋,赵利.表面微构造的硅材料--一种新型的光电功能材料[J].物理,2003(07):455-457. |
| [20] | 朱京涛,赵明,尹钢,赵利,陈德应.超短激光脉冲对硅表面的微构造[C].中国光学学会2004年学术大会,2004 |
| [21] | 李平,王煜,冯国进,郑春弟,赵利,朱京涛.超短激光脉冲对硅表面微构造的研究[J].中国激光,2006(12):1688-1691. |
| [22] | 刘洋 .飞秒激光微构造硅的光学特性[D].复旦大学,2007. |
| [23] | Liu Shuying;Zhu Jingtao;Liu Yang et al.Laser induced plasma in the formation of surface-microstructured silicon[J].Materials Letters,2008,62:3881. |
| [24] | 门海宁,程光华,孙传东.飞秒激光作用下的硅表面微结构及发光特性[J].强激光与粒子束,2006(07):1081-1084. |
| [25] | 计红梅.黑硅的故事--一种革命性的新材料是如何诞生的[J].科学时报,2008(04):10. |
| [26] | Her T.-H.;Finlay R.J. .Femtosecond laser-induced formation of spikes on silicon[J].Applied physics, A. Materials science & processing,2000(4):383-385. |
| [27] | Tull B R;Carey J E;Sheehy M A et al.Formation of silicon nanoparticles and web-like aggregates by femtosecond laser ablation in a background gas[J].Applied Physics A:Materials Science and Processing,2006,83:341. |
| [28] | Sheehy M;Tull B;Friend C et al.Chalcogen doping of silicon via femtosecond laser irradiation[J].Materials Science and Engineering B,2006,137:289. |
| [29] | Shen MY;Crouch CH;Carey JE;Mazur E .Femtosecond laser-induced formation of submicrometer spikes on silicon in water[J].Applied physics letters,2004(23):5694-5696. |
| [30] | Shen M;Carey JE;Crouch CH;Kandyla M;Stone HA;Mazur E .High-density regular arrays of nanometer-scale rods formed on silicon surfaces via femtosecond laser irradiation in water[J].Nano letters,2008(7):2087-2091. |
| [31] | Formation of regular arrays of silicon microspikes by femtosecond laser irradiation through a mask[J].Applied physics letters,2003(11):1715-1717. |
| [32] | Crouch C H;Carey J E;Warrender J M et al.Comparison of structure and properties of femtosecond and nanosecond laserstructured silicon[J].Applied Physics Letters,2004,84:1850. |
| [33] | Carey J E;Crouch C H;Shen M et al.Visible and near-infrared responsivity of femtosecond-laser microstructured silicon photodiodes[J].Optics Letters,2005,30:1773. |
| [34] | Huang Z;Carey J E;Liu M et al.Microstructured silicon photodetector[J].Applied Physics Letters,2006,89:033506. |
| [35] | Myers R A;Farrell R;Karger A M et al.Enhancing nearinfrared avalanche photodiode performance by femtosecond laser microstructuring[J].Applied Optics,2006,45:8825. |
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