研究生: |
周俊賢 |
---|---|
論文名稱: |
有機半導體駢苯衍生物(PTCDI)之光電性質研究 Electro-optical properties of Organic Semiconductor-Perylene Diimide Derivative (PTCDI) |
指導教授: | 陸健榮 |
學位類別: |
碩士 Master |
系所名稱: |
物理學系 Department of Physics |
論文出版年: | 2008 |
畢業學年度: | 96 |
語文別: | 中文 |
論文頁數: | 126 |
中文關鍵詞: | 有機半導體 、駢苯衍生物 、電場調制光譜 、光激螢光 、熱活化非輻射複合 |
英文關鍵詞: | PTCDI, HOMO-LUMO |
論文種類: | 學術論文 |
相關次數: | 點閱:167 下載:4 |
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本論文以電場調制吸收光譜(ER),電流-電壓曲線(I-V),以及光激螢光實驗(PL)來探討N型有機半導體-PTCDI鏈結不同烷基鍵(PTCDI-
CxH2x+1 , x=2,3,4,5,6,7,8 )的光電特性。
量測I-V曲線以得知樣品內部電場分佈。無光照情況下,樣品內部電場為類蕭特基二極體分佈(Schottky-diode-like distribution);而在照光情況下,樣品產生光電流,內部電場成空間電荷侷限分佈(Space
-charge-limited distribution),在施加調制電壓範圍內I-V為線性。
在電場調制吸收光譜實驗中,對樣品施加電場產生史塔克效應(Stark effect)後,得到的譜形結構主要以高斯一次及二次微分譜形組成。比較吸收光譜及電場調制光譜所得各躍遷能量,與文獻對照後得知各樣品的HOMO-LUMO躍遷應為2.2 eV左右。另外,調制光譜強度與施加的交流調制電壓成正比關係。
由光激螢光實驗得到,樣品螢光躍遷能量皆低於HOMO-LUMO躍遷能量,且螢光強度與溫度的變化關係可以用熱活化非輻射複合模型(thermally activated non-radiative recombination)來解釋。
In this thesis, we used Electroabsorption Spectroscopy(ER), I-V Curve and Photoluminscence(PL) to investigate the electro-optical properties of Perylene Diimide Derivative-PTCDI with various Alkyl (PTCDI-CxH2x+1, x = 2,3,4,5,6,7,8).
We can understand the internal electric field distribution by I-V Curve measurement. Without illumination, the electric field is Schottky diode like distribution in the organic layer; nevertheless, with the lighting, it is Space charge limited electric field distribution. Between the range of the applied voltage(+1.4 ~ -1.4 Vac), the I-V Curve is linear behavior.
In ER measurements, a AC voltage as external electric field is applied to the sample, and it will cause the Stark effect. The structures of the spectrum are formed with the first and second order differential of Gauss functions. Compare with absorption measurement and the reference, the structure in 2.2 eV should be the HOMO-LUMO transition. Further, the strength of ER is direct proportion to the applied AC voltage.
In PL measurement, the transitions all below the HOMO-LUMO transition. The relation between the strength of PL and temperature can explain by the thermal activated non-radiative recombination model.
[1] A. J. Heeger, A. G. MacDiarnia, and Hideki Shirakawa, “ Electrical Conductivity in Doped Polyacetylene ”, Phys. Rev. Lett., 39, 1098, 1997
[2] G.M. Loudon, “ Organic Chemistry ”, OXFORD, New York, 2001
[3] C. M. Fischer, M. Burghard, S. Roth, K. v. Klitzing, “ Organic Quantum Wells: Molecular Rectification and Single-Electron Tunnelling”, Europhys Letters, 28, p129-134, 1994
[4] Charles Kittel, “ Introduction to Solid State Physics ”, 7th Edition, Wiley, 1996
[5] Wenge Guo, “ Electroabsoption Spectroscopy of Quasi-one-
dimensional Organic Molecular Crystals ”, Dresden, 2003
[6] M. Pope, C. Swenberg, “ Electronic process in organic crystals and polymers ”, 2nd Edition, Oxford Science Publications, New York, 1999
[7] R. E. Merrifield, “ Ionized states in one-dimensional molecular crystal ”, J. Chem. Phys., 34, 1835, 1961
[8] P. Petelenz, “ Electroabsorption spectra of degenerate charge transfer states ”, Chem. Phys., 171, p397, 1993
[9] P. Petelenz, “ Theoretical calculation of the electroabsorption spectra of polyacene crystals ”, J. Chem. Phys., 105, 4427, 1996
[10] Gerold U. Bubltz, Steven G. Boxer, “ Stark Spectroscopy: Applications in Chemistry, Biology, and Materials Science ”, Annu. Rev. Phys. Chem., 48, p213-242, 1997
[11] Singh, Jasprit, “ Electronic and Optoelectronic properites of semiconductor structures ”, Cambridge, New York, p345, 2003
[12] J. J. Sakurai, “ Modern Quantum Mechanics ”, Addison Wesley, p332, 1994
[13] Robert Nitsche, “ Optical properties of organic semiconductors: From (sub-)monolayers to crystalline films ”, Dresden, 2005
[14] John David Jackson, “ Classical Electrodynamics ”, 3rd edition, Wiley, 1998
[15] B. O. Seraphin, “ The effect of Electric Field on Reflectivity Hulin ”, Academic, Duuod, Paris, 1964
[16] 沈學礎, “ 半導體光學性質 ”, 科學出版社, 1992
[17] D. E. Aspnes, “ Third-derivative Modulation Spectroscopy With Low-field Electroreflectance ”, Surface Science, 37, p418-442, 1973
[18] S. C. Abbi and D. M. Hanson, “ Detection and characterization of charge transfer excitons in molecular crystals ”, J. Chem. Phys., 60, 319, 1974
[19] L. Sebastian and G. Weiser, “ Electroreflectance studies on the exciton states in PTS ans DCHD single crystals ”, Chem. Phys., 62, 447, 1981
[20] L. Sebastian and G. Weiser, “ Charge-transfer transitions in crystalline anthracene and their role in photoconductivity ”, Chem. Phys., 75, 103, 1983
[21] L. Sebastian and G. Weiser, “ One dimensional wide energy bands in a polydiacetylene revealed by electroreflectance ”, Phys. Rev. Lett., 46, 1156, 1981
[22] L. Sebastian and G. Weiser, “ Charge-transfer transitions in solid tetracene and pentacene studied by electroabsorption ”, Chem. Phys., 61, 125, 1981
[23] M. Harrison, “ Electroabsorption Spectroscopy ”, Optoelectronics Organic Lecture Course of Univ. Cambridge, 1999
[24] A. Horvath, G. Weiser, C. Lapersonne-Meyer, M. Schott, and S. Spagnoli, “ Wannier excitons and Franz-Keldysh effect of polydiacetylene chains diluted in their single crystal monomer matrix ”, Phys. Rev. B, 53, 13507, 1996
[25] M. Chattoraj, B. A. King, G. U. Bublitz, and S. G. Boxer, “ Ultra-fast excited state dynamics in green fluorescent protein: Multiple states and proton transfer ”, Proc. Natl. Acad. Sci. USA, 93, 1583, 1996
[26] I. H. Campbell, T. W. Hagler, D. L. Smith, and J. P. Ferraris, “ Direct measurement of conjugated polymer electronic excitation energies using metal/polymer/metal structures ”, Phys. Rev. Lett., 76, 1900, 1996
[27] I. H. Campbell, M. D. Joswick, and I. D. Parker, “ Direct measurement of internal electric field distribution in a multilayer organic light-emitting diode ”, Appl. Phys. Lett., 67, 3171, 1995
[28] M. Liess, C. Giebeler, P. A. Lane, D. D. C. Bradly, P. L. Burn, G. Webster, G. Ruani, R. Michel, and C. Taliani, “ Charge injection into OLEDs during operation studied by electroabsorption screening ”, Synth. Met., 102, 1075, 1999
[29] P. A. Lane, J. Rostalski, C. Gibebeler, S. J. Martin, D. D. C. Bradley, and D. Meissner, “ Electroabsorption studies of phthalocyanine
/perylene solar cells ”, Solar Energy Materials & Solar Cells, 63, 3, 2000
[30] M. Leone, A. Paoletti, and N. Robotti, “ A Simultaneous Discovery: The Case of Johannes Stark and Antonino Lo Surdo ”, Physics in Perspective, vol. 6, p271-294, 2004
[31] P. S. Epstein, “ The Stark Effect from the Point of View of Schrodinger's Quantum Theory ”, Physical Review, vol. 28, p695-710, 1926
[32] David J. Griffths, “ Introduction to electrodynamics ”, 3rd Edition, Prentice Hall International Editions, 1999
[33] Matthieu Petit, Ryoma Hayakawa, Yutaka Wakayama, and Toyohiro Chikyow, “ Early Stage of Growth of a Perylene Diimide Derivative Thin Film Growth on Various Si(001) Substrates ”, J. Phys. Chem., 111, 12747-12751, 2007
[34] H. Bässler, “ Charge transport in disordered organic photoconductors
”, phys. Stat. sol. b, 175, 15, 1993
[35] Donald A. Neamen, “ Semiconductor Physics and Devices:Basic Principle ”, 3rd ed., McGraw-Hill, 2003
[36] 城戶淳二, “ 圖解有機EL ”, 世茂出版社, 2004
[37] M. Cardona, “ Solid State Physics Supplement 11: Modulation Spectroscopy ”, Academic Press, New York, 1969
[38] W. Böhm, “ Untersuchung des Leitungscerhaltens sublimierter organischer Farbstoffschichten ”, Ph. D thesis, TU Dresden, 1995
[39] S. Hiller, “ Elektrische Charakterisierung von reinen und dotierten Dünnfilmen organischer Halbleiter im Hochvakuum ”, Ph. D thesis, Univ. Bremen, 1998
[40] S. M. Sze, “ Physics of semiconductor devices ”, 2nd edition, Wiley-
Interscience Publication, 1981
[41] Sam-Shajing Sun, and Niyazi Serdar Sariciftci, “ Organic Photo-
voltaics ”, Taylor & Francis, 2005
[42] G. Horowitz, F. Kouki, P. Spearman, D. Fichou, C. Nogues, X. Pan, and F. Garnier, “ Evidence for n-type conduction in a perylene tetracarboxylic diimide derivative ”, Adv. Mater., Vol.8, No.3, 242, 1996
[43] S. Tatemichi, M. Ichikawa, T. Koyama, and Y. Taniguchi, “ High mobility n-type thin-film transistors based on N,N-ditridecyl perylene diimide with thermal treatments ”, Appl. Phys. Lett., 89, 112108, 2006
[44] P. R. L. Malenfant, C. D. Dimitrakopoulos, J. D. Gelorme, L. L. Kosbar, and T. O. Graham, “ N-type organic thin-film transistor with high field-effect mobility based on a N,N'-dialkyl- 3,4,9,10-perylene tetracarboxylic diimide derivative ”, Appl. Phys. Lett., 80, 2517, 2002
[45] R. J. Chesterfield, J. C. McKeen, C. R. Newman, P. C. Ewbank, D. A. da Silva Filho, J. L. Bredas, L. L. Miller, K. R. Mann, and C. D. Frisbie, “ Organic thin film transistors based on N-alkyl perylene diimides: charge transport kinetics as a function of gate voltage and temperature ”, Journal of Physical Chemistry B, vol. 108, pp. 19281, 2004
[46] Gianina Nicoleta Gavrila, “ Electronic Properties and Chemistry of Metal / Organic Semiconductor/ S-GaAs(100) Heterostructures ”, Fakultät für Naturwissenschaften der Technischen Universität Chemnitz, 2005
[47] Marta E. Cañas-Ventura, Wende Xiao, Daniel Wasserfallen, Klaus Müllen, Harald Brune, Johannes V. Barth, and Roman Fasel, “ Self-Assembly of Periodic Bicomponent Wires and Ribbons ”, Angew. Chem. Int., Ed. 46, 1814-1818, 2007
[48] D. Gamota, J. Zhang, P. Brazis, K. Kalyanasundaram, “ Printed organic and molecular electronics ”, Kluwer Academic Publishers, 2004
[49] 黃銘湧, “ 具不同烷基駢苯衍生物之有機薄膜電晶體特性研究 ”, 國立成功大學碩士論文, 2007
[50] R. Newman, C. D. Frisbie, D. A. da Silva Filho, Jean-Luc Bre´das, P. C. Ewbank and K. R. Mann, “ Introduction to Organic Thin Film Transistors and Design of n-channel Organic Semiconductors ”, Chem. Mater. 16, 4436, 2004
[51] Walter J. Doherty, Adam G. Simmonds, Sergio B. Mendes, Neal R. Armstrong, and S. Scott Saavedra, “ Molecular Ordering in Mono-
layers of an Alkyl-Substituted Perlene-Bisimide Dye by Attenuated Total Reflectance Ultraviolet-Visible Spectroscopy ”, Applied Spectroscopy, 59, 1248-1256, 2005
[52] Kaushik Balakrishnan, Aniket Datar, Randy Oitker, Hao Chen, Jianmin Zuo, and Ling Zang, “ Nanobelt Self-Assembly from an Organic n-type Semiconductor: Propoxyethy-PTCDI ”, J. AM. CHEM. SOC., 127, 10496-10497, 2005
[53] Frank Würthner, Zhijian Chen, Volker Dehm, and Vladimir Stepanenko, “ One-dimensional luminescent nanoaggregates of perlene bisimides ”, Chem. Commun., 1188-1190, 2006
[54] Jung Yong Kim, Allen J. Bard, “ Organic donor/acceptor hetero-
junction photovoltaic devices based on zinc phthalocyanine and a liquid crystalline perlene diimide ”, Chemical Physics Letters, 383, 11-15, 2004
[55] David Cheyns, “ Short visit to Würzburg: Using different PTCDI molecules as n-type organic materials in diode configuration ”, 2007
[56] J. P. Meyer, D. Schlettwein, D. Wöhrle, N. I. Jaeger, “ Charge transport in thin films of molecular semiconductors as investigated by measurements of thermolelectric power and electrical conductivity ”, Thin Solid Films, 258, 317-324, 1995
[57] H. R. Kerp, E. E. van Faassen, “ Effects of oxygen on exciton transport in zinc phthalocyanine layers ”, Chemical Physics Letters, 332, 5-12, 2000
[58] E. van Faassen, H. Kerp, “ Explanation of the low oxygen sensitivity of thin film phthalocyanine gas sensors ”, Sensors and Actuators B, 88, 329-333, 2003
[59] Takao Someya, Yusaku Kato, “ Integration of Organic FETs With Organic Photodiodes for a Large Area, Flexible, and Lightweight Sheet Image Scanners ”, IEEE, 2005
[60] T. Oekermann, D. Schlettwein, D. Wöhrle, “ Characterization of N,N’-dimethyl-3,4,9,10-perylenetetracarboxylic acid diimide and phthalocyaninatozinc(Ⅱ) in electrochemical photovoltaic cells ”, Journal of Applied Electrochemistry, 27, 1172-1178, 1997
[61] R. J. Chesterfield, J. C. McKeen, C. R.Newman, C. D. Frisbile, P. C. Ewbank, K. R. Mann, and L. L. Miller, “ Variable temperature film and contact resistance measurements on operating n-channel organic thin film transistors ”, Journal of Applied Physics, Vol. 95, 2004
[62] P. Peumans, Aharon Yakimov, and S. R. Forrest, “ Small molecular weight organic thin-film photodetectors and solar cells ”, Journal of Applied Physics, Vol. 93, 2003
[63] Eisberg, “ Quantum Physics ”, Edition 2nd, Wiley, 2005
[64] Ajay K. Pandey, and Jean-Michal Nunzi, “ Up-conversion injection in Rubrene/Perylene-diimide-heterostructure electroluminescent diodes ”, Departments of Chemistry and Physics at Queen’s University, Canada
[65] 吳文中, 游洋雁, “ Effect of silica size and chain length on the optical properties of PPV derivative/silica composite films ”, 台灣大學化工系
[66] 黃佑沂, “ 不同退火溫度之有機駢苯衍生物薄膜電晶體特性研究 ”, 國立成功大學碩士論文, 2005
[67] Chien-Rong Lu, Fu-Kwan Hwang, and James Robert Anderson, “ Resonant Tunneling Enhanced Electroluminescence in GaAs/(Al,Ga)As Asymmetric Coupled Double Quantum Well ”, J. Appl. Phys., Vol. 39, 351-352, 2000
[68] V. Ramamurthy, and Kirk S. Schanze, “ Organic Molecular Photochemistry ”, Vol. 3, Marcel Dekker, 1999
[69] Sam-Shajing Sun, and Niyazi Serdar Sariciftci, “ Organic Photovoltaics : Mechanisms, Materials, and Devices ”, Taylor & Francis Group, 2005
[70] Manijeh Razeghi, “ Fundamentals of Solid State Engineering ”, Kluwer Academic Publisher, 2002
[71] G. Saint-Girons, A. Lemaître, V. Navarro-Paredes, G. Patriarche, E. V. K. Rao, I. Sagnes, and B. Theys, “ Photoluminescence probing of non-radiative channels in hydrogenated In(Ga)As/GaAs quantum dots ”, Journal of Crystal Growth, 334-338, 2004
[72] Yi-hong Wu, and Kenta Arai, “ Temperature dependence of the photoluminescence of ZnSe/ZnS quantum-dot structures ”, Physical Review B, Vol. 53, 1996
[73] 卓昌正, “ 氮化銦鎵量子井與藍紫光雷射二極體結構之成長與分析 ”, 中央大學電機工程研究所博士論文, 2002
[74] G. Saint-Girons, A. Lemaître, V. Navarro-Paredes, G. Patriarche, E. V. K. Rao, I. Sagnes, and B. Theys, “ Photoluminescence probing of non-radiative channels in hydrogenated In(Ga)As/GaAs quantum dots ”, Journal of Crystal Growth, 264, p334-338, 2004
[75] Jean-Michel Nunzi, Florent Monestier, Ajay K. Pandey, Jean-Jacques Simon, Philippe Torchio, and Ludovic Escoubas, “ Optical modeling of the ultimate efficency of pentacene:N, N’-ditridecylperylene-3,4,9,10-tetracarboxylic diimide-blend solar cells ”, Journal of Applied Physics, 102, 2007
[76] Constance Rost, Siegfried Karg, Walter Riess, Maria Antoniett Loi, Mauro Murgia, and Michele Muccini, “ Light-emitting ambipolar organic heterostructure field-effect transistor ”, Synthetic Metals, 146, 237-241, 2004
[77] Dieter Wöhrle, Lutz Kreienhoop, Günter Schnurpfeil, Jörg Elbe, Bernd Tennigkeit, Stefan Hiller, and Derck Schlettwein, “ Investigations of n/p-Junction Photovoltaic Cells of Perylene-
tetracarboxylic Acid Diimides and Phthalocyanines ”, J. Mater. Chem., 5, 1819-1829, 1995
[78] M. Jung, U. Baston, T. Porwol, H. J. Freund, and E. Umbach, “ The XPS peak structure of condensed aromatic anhydrides and imides ”, Physikalisches Institut Universität Stuttgart, Germany
[79] A. J. Ferguson, and T. S. Jones, “ Photophysics of PTCDA and Me-PTCDI Thin Films: Effect of Growth Temperature ”, J. Phys. Chem. B, 110, 6891-6898, 2006
[80] Jung Yong Kim, In Jae Chung, Young Chul Kim, and Jae-Woong Yu, “ Mobility of electrons and holes in a liquid crystalline perylene diimide thin film with time of flight technique ”, Chemical Physics Letters, 398, 367-371, 2004
[81] 施仁智, “ 並五苯(Pentacene)薄膜系統縱向電場調制光譜研究 ”, 台灣師範大學碩士論文, 2007
[82] 徐匯凱, “ 並五苯/駢苯衍生物(Pentacene/PTCDI-C13H27)太陽能電池的電場調制光譜研究 ”, 台灣師範大學碩士論文, 2008
[83] Douglas Davis, “ ORGANIC PHOTOVOLTAIC CELLS ”, 2005
[84] G. N. Gavrila, H. U. Kampen, and D. R. T. Zahn, “ Energy band dispersion in well ordered N,N’-dimethyl-3,4,9,10-perylene-
tetracarboxylic diimide films ”, Applied Physics Letters, Vol.85, 2004
[85] T. U. Kampen, “ Electronic structure of organic interfaces-a case study on perylene derivations ”, Appl. Phys. A, 82, 457-470, 2006
[86] Dietrich R. T. Zahn, Gianina N. Gavrila, Mihaela Gorgoi, “ The transport gap of organic semiconductors studied using the combination of direct and inverse photoemission ”, Chemical Physics, 325, 99-112, 2006
[87] Andrei Yu. Kobitski, “ Time-resolved Photoluminscence and Theoretical Study of Excitons in PTCDA ”, Von der Fakultät für Naturwissenschaften der Technischen Universität Chemnitz
genehmigte Dissertation zur Erlangung des akademischen Grades
[88] E. M. Daly, and T. J. Glynn, “ Behavior of In0.48Ga0.52P/
(Al0.2Ga0.8)0.52In0.48P quantum-well lumunscence as a function of temperature ”, Physical Review B, Vol. 52, 1995