碳化硅(SiC)作为第三代半导体的代表材料,具有禁带宽度大、热导率高和临界击穿电场高等特点,所制备的光电器件在高温、强辐射等极端、恶劣条件下有巨大的应用潜力.本文综述了国内外SiC发光性质的研究现状,介绍SiC发光的实际应用,阐述了单晶、纳米晶和薄膜不同形态SiC的制备方法及发光特点,并对SiC发光调控的研究进展进行了探讨与展望.利用新兴技术手段,可实现对SiC发光光谱和发光效率等性质的调控.
As a typical material of the third-generation semiconductor with wide band gap ,high ther-mal conductivity and high critical breakdown electric field ,silicon carbide(SiC) has a huge potential in the applications of photoelectric devices that can work in some extreme conditions ,such as in a high temperature or intense radiation environment . Here ,the research status of luminescence properties and applications of SiC was summarized .The preparation methods and characteristic luminescence of monocrystal ,nanocrystalline and thin film of SiC were presented .Besides ,the progress and prospect of SiC luminescence control was also discussed in this paper .Utilizing the emerging technologies ,we will be able to modify SiC's properties like luminescence spectrum and efficiency .
参考文献
| [1] | Roya Maboudian;Carlo Carraro;Debbie G. Senesky;Christopher S. Roper.Advances in silicon carbide science and technology at the micro-and nanoscales[J].Journal of Vacuum Science & Technology, A. Vacuum, Surfaces, and Films,20135(5):050805-1-050805-18. |
| [2] | Tuominen M.;Yakimova R.;Glass RC.;Tuomi T.;Janzen E.;Prieur E..DEFECT ANALYSIS IN LELY-GROWN 6H SIC[J].Journal of Crystal Growth,19963(3):233-244. |
| [3] | Troffer T.;Frank T.;Itoh H.;Pensl G.;Heindl J.;Strunk HP. Maier M.;Schadt M..DOPING OF SIC BY IMPLANTATION OF BORON AND ALUMINUM[J].Physica Status Solidi, A. Applied Research,19971(1):277-298. |
| [4] | M. D. Eisaman;J. Fan;A. Migdall;S. V. Polyakov.Invited Review Article: Single-photon sources and detectors[J].Review of Scientific Instruments,20117(7):071101-1-071101-25. |
| [5] | Satoshi Kamiyama;Motoaki Iwaya;Tetsuya Takeuchi;Isamu Akasaki;Mikael Syv(a)j(a)rvi;Rositza Yakimova.Fluorescent SiC and its application to white light-emitting diodes*[J].半导体学报,2011(01):24-26. |
| [6] | Satoshi Kamiyama;Motoaki Iwaya;Tetsuya Takeuchi;Isamu Akasaki;Rositza Yakimova;Mikael Syvaejaervi.White light-emitting diode based on fluorescent SiC[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2012:23-25. |
| [7] | 何海平 .单晶碳化硅薄膜制备及二氧化硅基复合体系的光致发光研究[D].中国科学技术大学,2004. |
| [8] | Reboredo FA;Galli G.Theory of alkyl-terminated silicon quantum dots[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,20053(3):1072-1078. |
| [9] | Cui L;Li JJ;Sun J;Du XW.High-density SiC nanocrystals with strong photoluminescence via a nitrogen-loss route[J].Semiconductor Science and Technology,20083(3):35015-1-35015-4-0. |
| [10] | Camassel J;Juillaguet S;Zielinski M;Balloud C.Application of LTPL investigation methods to CVD-grown SiC[J].Chemical vapor deposition: CVD,20068/9(8/9):549-556. |
| [11] | Kamiyama S;Maeda T;Nakamura Y;Iwaya M;Amano H;Akasaki I;Kinoshita H;Furusho T;Yoshimoto M;Kimoto T.Extremely high quantum efficiency of donor-acceptor-pair emission in N-and-B-doped 6H-SiC[J].Journal of Applied Physics,20069(9):93108-1-93108-4-0. |
| [12] | Chaussende D.;Baillet F.;Charpentier L.;Pernot E.;Pons M.;Madar R..Continuous feed physical vapor transport - Toward high purity and long boule growth of SiC[J].Journal of the Electrochemical Society,200310(10):G653-G657. |
| [13] | D. Hofmann;E. Schmitt.Analysis on defect generation during the SiC bulk growth process[J].Materials Science & Engineering, B. Solid-State Materials for Advanced Technology,19990(0):48-53. |
| [14] | F. Schmid;G. Pensl.Comparison of the electrical activation of P~(+) and N~(+) ions co-implanted along with Si~(+) or C~(+) ions into 4H-SiC[J].Applied physics letters,200416(16):3064-3066. |
| [15] | Sun Guo-Sheng;Zeng Yi-Ping;Li Jin-Min;Liu Xing-Fang;Wang Lei;Zhao Wan-Shun;Yang Ting;Wu Hai-Lei;Yan Guo-Guo;Zhao Yong-Mei;Ning Jin.Multi-wafer 3C-SiC heteroepitaxial growth on Si(100)substrates[J].中国物理B(英文版),2010(8):614-618. |
| [16] | Jonathan E. Spanier;Greg T. Dunne;Larry B. Rowland.Vapor-phase epitaxial growth on porous 6H-SiC analyzed by Raman scattering[J].Applied physics letters,200026(26):3879-3881. |
| [17] | Zhe Li;Jun Zhang;Haiyan He;Juncao Bian;Xiwen Zhang;Gaorong Han.Blue–green luminescence and SERSapplications and materials science study of carbon-rich hydrogenated amorphous silicon carbide films with multiphase structure[J].Physica status solidi, A. Applications and materials science ePSS,201011(11):2543-2548. |
| [18] | Yafei Zhang;Mikka Nishitani-Gamo;Changyong Xiao;Toshihiro Ando.Synthesis of 3C-SiC nanowhiskers and emission of visible photoluminescence[J].Journal of Applied Physics,20029(9):6066-6070. |
| [19] | 于威;崔双魁;路万兵;王春生;傅广生.纳米6H-SiC薄膜的等离子体化学气相沉积及其紫外发光[J].半导体学报,2006(10):1767-1770. |
| [20] | J. Y. Fan;H. X. Li;Q. J. Wang;D. J. Dai;P. K. Chu.UV-blue photoluminescence from close-packed SiC nanocrystal film[J].Applied physics letters,20118(8):081913-1-081913-3. |
| [21] | Li ZJ;Zhang JL;Meng A;Guo JZ.Large-area highly-oriented SiC nanowire arrays: Synthesis, Raman, and photoluminescence properties[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,200645(45):22382-22386. |
| [22] | J.Q.Hu;Q.Y.Lu;K.B.Tang;B.Deng;Y.T.Qian;W.C.Yu;G.E.Zhou;X.M.Liu;J.X.Wu.Synthesis and Characterization of SiC Nanowires through a Reduction-Carburization Route[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,200022(22):5251-5254. |
| [23] | Guangcheng Xi;Yiya Peng;Songming Wan;Tanwei Li;Weichao Yu;Yitai Qian.Lithium-Assisted Synthesis and Characterization of Crystalline 3C-SiC Nanobelts[J].The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical,200452(52):20102-20104. |
| [24] | Fabbri, F.;Rossi, F.;Attolini, G.;Salviati, G.;Iannotta, S.;Aversa, L.;Verucchi, R.;Nardi, M.;Fukata, N.;Dierre, B.;Sekiguchi, T..Enhancement of the core near-band-edge emission induced by an amorphous shell in coaxial one-dimensional nanostructure: The case of SiC/SiO_2 core/shell self-organized nanowires[J].Nanotechnology,201034(34):345702-1-345702-7. |
| [25] | J. Botsoa;V. Lysenko;A. Geloen;O. Marty;J. M. Bluet;G. Guillot.Application of 3C-SiC quantum dots for living cell imaging[J].Applied physics letters,200817(17):173902-1-173902-3-0. |
| [26] | Torres-Raya C;Hernandez-Maldonado D;Ramirez-Rico J;Garcia-Ganan C;de Arellano-Lopez AR;Martinez-Fernandez J.Fabrication, chemical etching, and compressive strength of porous biomimetic SiC for medical implants[J].Journal of Materials Research,200812(12):3247-3254. |
| [27] | Jiyang Fan;Hongxia Li;Jing Wang;Min Xiao.Fabrication and photoluminescence of SiC quantum dots stemming from 3C, 6H, and 4H polytypes of bulk SiC[J].Applied physics letters,201213(13):131906-1-131906-5. |
| [28] | Shikuan Yang;Weiping Cai;Haibo Zeng.Ultra-fine β-SiC quantum dots fabricated by laser ablation in reactive liquid at room temperature and their violet emission[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,200938(38):7119-7123. |
| [29] | Massimo Camarda;Andrea Canino;Antonino La Magna;Francesco La Via;G. Feng;T. Kimoto;M. Aoki;H. Kawanowa.Structural and electronic characterization of (2,3_(3)) bar-shaped stacking fault in 4H-SiC epitaxial layers[J].Applied physics letters,20115(5):051915-1-051915-3. |
| [30] | D. Riedel;F. Fuchs;H. Kraus;S. Vath;A. Sperlich;V. Dyakonov;A. A. Soltamova;P.G. Baranov;V. A. Ilyin;G. V. Astakhov.Resonant Addressing and Manipulation of Silicon Vacancy Qubits in Silicon Carbide[J].Physical review letters,201222(22):226402.1-226402.5. |
| [31] | Pavel G. Baranov;Anna P. Bundakova;Alexandra A. Soltamova;Sergei B. Orlinskii;Igor V. Borovykh;Rob Zondervan;Rogier Verberk;Jan Schmidt.Silicon vacancy in SiC as a promising quantum system for single-defect and single-photon spectroscopy[J].Physical review, B. Condensed matter and materials physics,201112(12):125203:1-125203:12. |
| [32] | Wagner M.;Chen WM.;Janzen E.;Sorman E.;Hallin C. Lindstrom JL.;Magnusson B..Electronic structure of the neutral silicon vacancy in 4H and 6H SiC[J].Physical Review.B.Condensed Matter,200024(24):16555-16560. |
| [33] | T. Shiramomo;B. Gao;F. Mercier;S. Nishizawa;S. Nakano;K. Kakimoto.Study of the effect of doped impurities on polytype stability during PVT growth of SiC using 2D nucleation theory[J].Journal of Crystal Growth,2014Jan.1(Jan.1):95-99. |
| [34] | Sung-Sik Chang;Akira Sakai.Luminescence properties of spark-processed SiC[J].Materials Letters,20047/8(7/8):1212-1217. |
| [35] | Botsoa J;Bluet JM;Lysenko V;Marty O;Barbier D;Guillot G.Photoluminescence of 6H-SiC nanostructures fabricated by electrochemical etching[J].Journal of Applied Physics,20078(8):083526-1-083526-5-0. |
| [36] | Ki-Hwan Lee;Seung-Koo Lee;Ki-Seok Jeon.Photoluminescent Properties Of Silicon Carbide And Porous Silicon Carbide After Annealing[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,20098(8):4414-4420. |
| [37] | Yan Wu;Lingfei Ji;Zhenyuan Lin;Yijian Jiang;Tianrui Zhai.Blue photoluminescence enhancement in laser-irradiated 6H-SiC at room temperature[J].Applied physics letters,20144(4):041906-1-041906-4. |
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