연구동향 분석
박사

Local field enhancement for improving power conversion efficiency of organic solar cells using monolayer of metal nanoparticles

이관용 2015년

논문상세정보
인용/피인용
' Local field enhancement for improving power conversion efficiency of organic solar cells using monolayer of metal nanoparticles' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • finite difference time domain (fdtd)
  • light trapping structure
  • locallized surface plasmon resonance (lspr)
  • metallic nano particles
  • organic solar cells
  • 광집속 구조
  • 금속 나노 입자
  • 내부 양자 효율 향상
  • 유기 태양전지
  • 전자기장 강화 구조
  • 표면 플라즈몬 공명
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
91 0

0.0%

' Local field enhancement for improving power conversion efficiency of organic solar cells using monolayer of metal nanoparticles' 의 참고문헌

  • Zhokhavets U, Erb T, Hoppe H, Gobsch G, Serdar Sariciftci N (2006) Effect of annealing of poly(3-hexylthiophene)/fullerene bulk heterojunction composites on structural and optical properties. Thin Solid Films 496(2):679?682. doi:10.1016/j.tsf.2005.09.093
  • Zheng T, Choy WCH, Sun Y (2009) Hybrid nanoparticle/organic devices with strong resonant tunneling behaviors. Adv Funct Mater 19(16):2648?2653. doi:10.1002/adfm.200900308
  • Zhao DW (2009) An inverted organic solar cell with an ultrathin Ca electron-transporting layer and MoO3 hole-transporting layer. Appl Phys Lett 95(15):153304
  • Yu G, Gao J, Hummelen JC, Wudl F, Heeger AJ (1995) Polymer photovoltaic cells: enhanced efficiencies via a network of internal donor-acceptor heterojunctions. Science 270(5243):1789?1791
  • Yao Y, Hou J, Xu Z, Li G, Yang Y (2008) Effects of solvent mixtures on the nanoscale phase separation in polymer solar cells. Adv Funct Mater 18(12):1783?1789
  • Xie F (2011) Improving the efficiency of polymer solar cells by incorporating gold nanoparticles into all polymer layers. Appl Phys Lett 99(15):153304
  • Wu J-L, Chen F-C, Hsiao Y-S, Chien F-C, Chen P, Kuo C-H, Huang MH, Hsu C-S (2011) Surface plasmonic effects of metallic nanoparticles on the performance of polymer bulk heterojunction solar cells. ACS Nano 5(2):959?967. doi:10.1021/nn102295p
  • Wang DH, Kim DY, Choi KW, Seo JH, Im SH, Park JH, Park OO, Heeger AJ (2011) Enhancement of donor?acceptor polymer bulk Heterojunction solar cell power conversion efficiencies by addition of Au nanoparticles. Angew Chem Int Ed 50(24):5519?5523. doi:10.1002/anie.201101021
  • Wang CCD, Choy WCH, Duan C, Fung DDS, Sha WEI, Xie F-X, Huang F, Cao Y (2012) Optical and electrical effects of gold nanoparticles in the active layer of polymer solar cells. J Mater Chem 22(3):1206?1211
  • Waldauf C (2006) Highly efficient inverted organic photovoltaics using solution based titanium oxide as electron selective contact. Appl Phys Lett 89(23):233517
  • Vanlaeke P, Swinnen A, Haeldermans I, Vanhoyland G, Aernouts T, Cheyns D, Deibel C, D’Haen J, Heremans P, Poortmans J, Manca JV (2006) P3HT/PCBM bulk heterojunction solar cells: relation between morphology and electro-optical characteristics. Sol Energy Mater Sol Cells 90(14):2150?2158
  • Topp K, Borchert H, Johnen F, Tunc AV, Knipper M, von Hauff E, Parisi J, Al-Shamery K (2009) Impact of the incorporation of Au nanoparticles into polymer/fullerene solar cells. J Phys Chem A 114(11):3981?3989. doi:10.1021/jp910227x
  • Tao C (2008) Performance improvement of inverted polymer solar cells with different top electrodes by introducing a MoO3 buffer layer. Appl Phys Lett 93(19):193307
  • Tang C (1987) Organic electroluminescent diodes. Appl Phys Lett 51(12):913
  • Tang C (1986) Two-layer organic photovoltaic cell. Appl Phys Lett 48(2):183
  • Sundar VC, Zaumseil J, Podzorov V, Menard E, Willett RL, Someya T, Gershenson ME, Rogers JA (2004) Elastomeric transistor stamps: reversible probing of charge transport in organic crystals. Science 303(5664):1644?1646
  • Stockman MI (2004) Nanofocusing of optical energy in tapered plasmonic waveguides. Phys Rev Lett 93(13):137404
  • Sista S, Hong Z, Park M-H, Xu Z, Yang Y (2010) High-efficiency polymer tandem solar cells with three-terminal structure. Adv Mater 22(8):E77?E80
  • Shrotriya V, Li G, Yao Y, Moriarty T, Emery K, Yang Y (2006) Accurate measurement and characterization of organic solar cells. Adv Funct Mater 16(15):2016?2023
  • Shrotriya V (2006) Effect of self-organization in polymer/fullerene bulk heterojunctions on solar cell performance. Appl Phys Lett 89(6):063505
  • Shen H, Bienstman P, Maes B (2009) Plasmonic absorption enhancement in organic solar cells with thin active layers. J Appl Phys 106(7):073109
  • Shalaev VM (2007) Optical negative-index metamaterials. Nat Photon 1(1):41?48
  • Sha WEI, Choy WCH, Liu YG, Cho Chew W (2011) Near-field multiple scattering effects of plasmonic nanospheres embedded into thin-film organic solar cells. Appl Phys Lett 99(11):113304
  • Schmidt H (2009) Efficient semitransparent inverted organic solar cells with indium tin oxide top electrode. Appl Phys Lett 94(24):243302
  • Schilinsky P (2002) Recombination and loss analysis in polythiophene based bulk heterojunction photodetectors. Appl Phys Lett 81(20):3885
  • Scharber MC, M hlbacher D, Koppe M, Denk P, Waldauf C, Heeger AJ, Brabec CJ (2006) Design rules for donors in bulk-heterojunction solar cells?towards 10% energy-conversion efficiency. Adv Mater 18(6):789?794
  • Savenije TJ, Kroeze JE, Yang X, Loos J (2005) The Effect of thermal treatment on the morphology and charge carrier dynamics in a polythiophene?fullerene bulk heterojunction. Adv Funct Mater 15(8):1260?1266
  • Qian J, Jiang L, Cai F, Wang D, He S (2011) Fluorescence-surface enhanced Raman scattering co-functionalized gold nanorods as near-infrared probes for purely optical in vivo imaging. Biomaterials 32(6):1601?1610. doi:10.1016/j.biomaterials.2010.10.058
  • Peumans P, Bulovic V, Forrest SR (2000) Efficient photon harvesting at high optical intensities in ultrathin organic double-heterostructure photovoltaic diodes. Appl Phys Lett 76(19):2650?2652
  • Peumans P (2003) Small molecular weight organic thin-film photodetectors and solar cells. J Appl Phys 93(7):3693
  • Peng B (2011) Performance improvement of polymer solar cells by using a solvent-treated poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) buffer layer. Appl Phys Lett 98(24):243308
  • Parker I (1994) Carrier tunneling and device characteristics in polymer light-emitting diodes. J Appl Phys 75(3):1656
  • Park SH, Roy A, Beaupre S, Cho S, Coates N, Moon JS, Moses D, Leclerc M, Lee K, Heeger AJ (2009) Bulk heterojunction solar cells with internal quantum efficiency approaching 100%. Nat Photon 3(5):297?302
  • Padinger F, Rittberger RS, Sariciftci NS (2003) Effects of postproduction treatment on plastic solar cells. Adv Funct Mater 13(1):85?88
  • Naidu BVK, Park JS, Kim SC, Park S-M, Lee E-J, Yoon K-J, Joon Lee S, Wook Lee J, Gal Y-S, Jin S-H (2008) Novel hybrid polymer photovoltaics made by generating silver nanoparticles in polymer: fullerene bulk-heterojunction structures. Sol Energy Mater Sol Cells 92(4):397?401. doi:10.1016/j.solmat.2007.09.017
  • Morfa AJ (2008) Plasmon-enhanced solar energy conversion in organic bulk heterojunction photovoltaics. Appl Phys Lett 92(1):013504
  • Min C (2010) Enhancement of optical absorption in thin-film organic solar cells through the excitation of plasmonic modes in metallic gratings. Appl Phys Lett 96(13):133302
  • Mihailetchi VD, van Duren JKJ, Blom PWM, Hummelen JC, Janssen RAJ, Kroon JM, Rispens MT, Verhees WJH, Wienk MM (2003) Electron transport in a methanofullerene. Adv Funct Mater 13(1):43?46. doi:10.1002/adfm.200390004
  • Mihailetchi VD, Wildeman J, Blom PWM (2005) Space-charge limited photocurrent. Phys Rev Lett 94(12):126602
  • Mihailetchi V (2003) Cathode dependence of the open-circuit voltage of polymer: fullerene bulk heterojunction solar cells. J Appl Phys 94(10):6849
  • McCulloch I, Heeney M, Bailey C, Genevicius K, MacDonald I, Shkunov M, Sparrowe D, Tierney S, Wagner R, Zhang W, Chabinyc ML, Kline RJ, McGehee MD, Toney MF (2006) Liquid-crystalline semiconducting polymers with high charge-carrier mobility. Nat Mater 5(4):328?333
  • Mayer AC, Scully SR, Hardin BE, Rowell MW, McGehee MD (2007) Polymer-based solar cells. Mater Today 10:28?33
  • Markov DE, Blom PWM (2005) Migration-assisted energy transfer at conjugated polymer/metal interfaces. Phys Rev B 72(16):161401
  • Mandoc MM (2007) Optimum charge carrier mobility in organic solar cells. Appl Phys Lett 90(13):133504
  • Li G, Yao Y, Yang H, Shrotriya V, Yang G, Yang Y (2007) Solvent annealing effect in polymer solar cells based on poly(3-hexylthiophene) and methanofullerenes. Adv Funct Mater 17(10):1636?1644
  • Li G, Shrotriya V, Yao Y, Yang Y (2005) Investigation of annealing effects and film thickness dependence of polymer solar cells based on poly(3-hexylthiophene). J Appl Phys 98(4):043704
  • Li G, Shrotriya V, Yao Y, Huang J, Yang Y (2007) Manipulating regioregular poly(3-hexylthiophene): [6]-phenyl-C61-butyric acid methyl ester blends-route towards high efficiency polymer solar cells. J Mater Chem 17(30):3126?3140
  • Li G, Shrotriya V, Huang J, Yao Y, Moriarty T, Emery K, Yang Y (2005) High-efficiency solution processable polymer photovoltaic cells by self-organization of polymer blends. Nat Mater 4(11):864?868
  • Lenes M (2006) Thickness dependence of the efficiency of polymer: fullerene bulk heterojunction solar cells. Appl Phys Lett 88(24):243502
  • Lee JH, Kim DW, Jang H, Choi JK, Geng J, Jung JW, Yoon SC, Jung H-T (2009) Enhanced solar-cell efficiency in bulk-heterojunction polymer systems obtained by nanoimprinting with commercially available AAO membrane filters. Small 5(19):2139?2143
  • Lee J-Y, Peumans P (2010) The origin of enhanced optical absorption in solar cells with metal nanoparticles embedded in the active layer. Opt Express 18(10):10078?10087
  • Kymissis I (2009) The physics of organic semiconductors. In: Organic Field Effect Transistors. Integrated Circuits and Systems, Springer, US, pp 1-12
  • Kyaw AK (2008) An inverted organic solar cell employing a sol-gel derived ZnO electron selective layer and thermal evaporatedMoO3 hole selective layer.Appl Phys Lett 93(22):221107
  • Kuwabara T, Nakayama T, Uozumi K, Yamaguchi T, Takahashi K (2008) Highly durable inverted-type organic solar cell using amorphous titanium oxide as electron collection electrode inserted between ITO and organic layer. Sol Energy Mater Sol Cells 92(11):1476?1482
  • Koster LJA, Smits ECP, Mihailetchi VD, Blom PWM (2005) Device model for the operation of polymer/fullerene bulk heterojunction solar cells. Phys Rev B 72(8):085205
  • Koster LJ (2006) Ultimate efficiency of polymer/fullerene bulk heterojunction solar cells. Appl Phys Lett 88(9):093511
  • Koster LJ (2005) Origin of the light intensity dependence of the short-circuit current of polymer/fullerene solar cells. Appl Phys Lett 87(20):203502
  • Kim Y, Cook S, Tuladhar SM, Choulis SA, Nelson J, Durrant JR, Bradley DDC, Giles M, McCulloch I, Ha C-S, Ree M (2006) A strong regioregularity effect in self-organizing conjugated polymer films and high-efficiency polythiophene: fullerene solar cells. Nat Mater 5(3):197?203
  • Kim S (2008) Plasmon enhanced performance of organic solar cells using electrodeposited Ag nanoparticles. Appl Phys Lett 93(7):073307
  • Kim K, Carroll DL (2005) Roles of Au and Ag nanoparticles in efficiency enhancement of poly(3-octylthiophene)/C [sub 60] bulk heterojunction photovoltaic devices. Appl Phys Lett 87(20):203113
  • Kim JY, Lee K, Coates NE, Moses D, Nguyen T-Q, Dante M, Heeger AJ (2007) Efficient tandem polymer solar cells fabricated by all-solution processing. Science 317(5835):222?225
  • Kim H, So W-W, Moon S-J (2007) The importance of post-annealing process in the device performance of poly(3-hexylthiophene): Methanofullerene polymer solar cell. Sol Energy Mater Sol Cells 91(7):581?587. doi:10.1016/j.solmat.2006.11.010
  • Kim C-H, Cha S-H, Kim SC, Song M, Lee J, Shin WS, Moon S-J, Bahng JH, Kotov NA, Jin S-H (2011) Silver nanowire embedded in P3HT:PCBM for high-efficiency hybrid photovoltaic device applications. ACS Nano 5(4):3319?3325. doi:10.1021/nn200469d
  • Kietzke T (2007) Recent Advances in Organic Solar Cells. Advances in Opto Electronics 2007. doi: 10.1155/2007/40285
  • Keis K, Magnusson E, Lindstr m H, Lindquist S-E, Hagfeldt A (2002) A 5% efficient photoelectrochemical solar cell based on nanostructured ZnO electrodes. Sol Energy Mater Sol Cells 73(1):51?58
  • Kang M-G, Xu T, Park HJ, Luo X, Guo LJ (2010) Efficiency enhancement of organic solar cells using transparent plasmonic Ag nanowire electrodes. Adv Mater 22(39):4378?4383. doi:10.1002/adma.201001395
  • Jiang CY, Sun XW, Zhao DW, Kyaw AKK, Li YN (2010) Low work function metalmodified ITO as cathode for inverted polymer solar cells. Sol Energy Mater Sol Cells 94(10):1618?1621
  • Jiang CY, Sun XW, Zhao DW, Kyaw AKK, Li YN (2010) Low work function metal modified ITO as cathode for inverted polymer solar cells. Sol Energy Mater Sol Cells 94(10):1618?1621. doi:10.1016/j.solmat.2010.04.082
  • Jean-Michel N (2002) Organic photovoltaic materials and devices. CR Phys 3(4):523?542
  • Janssen AG (2007) Highly efficient organic tandem solar cells using an improved connecting architecture. Appl Phys Lett 91(7):073519
  • Hu D, Yu J, Padmanaban G, Ramakrishnan S, Barbara PF (2002) Spatial confinement of exciton transfer and the role of conformational order in organic nanoparticles. Nano Lett 2(10):1121?1124
  • Hsu M-H, Yu P, Huang J-H, Chang C-H, Wu C-W, Cheng Y-C, Chu C-W (2011) Balanced carrier transport in organic solar cells employing embedded indium-tin-oxide nanoelectrodes. Appl Phys Lett 98(7):073308
  • Hoppe H, Sariciftci NS (2006) Morphology of polymer/fullerene bulk heterojunction solar cells. J Mater Chem 16(1):45?61
  • Hoppe H, Sariciftci NS (2004) Organic solar cells: an overview. J Mater Res 19(07):1924?1945
  • Hayakawa A (2007) High performance polythiophene/fullerene bulk-heterojunction solar cell with a TiOx hole blocking layer. Appl Phys Lett 90(16):163517
  • Han S, Shin WS, Seo M, Gupta D, Moon S-J, Yoo S (2009) Improving performance of organic solar cells using amorphous tungsten oxides as an interfacial buffer layer on transparent anodes. Org Electron 10(5):791?797
  • Gundlach DJ (2005) High mobility n-channel organic thin-film transistors and complementary inverters. J Appl Phys 98(6):064502
  • Gregg B (2003) Comparing organic to inorganic photovoltaic cells: theory, experiment, and simulation. J Appl Phys 93(6):3605
  • Gilot J (2007) Double and triple junction polymer solar cells processed from solution. Appl Phys Lett 90(14):143512
  • G nes S, Neugebauer H, Sariciftci NS (2007) Conjugated polymer-based organic solar cells. Chem Rev 107(4):1324?1338
  • Fung DDS, Qiao L, Choy WCH, Wang C, Sha WEI, Xie F, He S (2011) Optical and electrical properties of efficiency enhanced polymer solar cells with Au nanoparticles in a PEDOT-PSS layer. J Mater Chem 21(41):16349?16356
  • En st n BV, Turkevich J (1963) Coagulation of colloidal gold. J Am Chem Soc 85(21):3317?3328. doi:10.1021/ja00904a001
  • Duan CH, Wang CD, Liu SJ, Huang F, Choy CHW, Cao Y (2011) Two-dimensional like conjugated copolymers for high efficiency bulk-heterojunction solar cell application: band gap and energy level engineering. Sci China Chem 54(4):685?694
  • Drees M, Hoppe H, Winder C, Neugebauer H, Sariciftci NS, Schwinger W, Schaffler F, Topf C, Scharber MC, Zhu Z, Gaudiana R (2005) Stabilization of the nanomorphology of polymerfullerene ‘‘bulk heterojunction’’ blends using a novel polymerizable fullerene derivative. J Mater Chem 15(48):5158?5163
  • Dennler G (2006) Enhanced spectral coverage in tandem organic solar cells. Appl Phys Lett 89(7):073502
  • Coakley KM, McGehee MD (2004) Conjugated polymer photovoltaic cells. Chem Mater 16(23):4533?4542
  • Chen L-M, Xu Z, Hong Z, Yang Y (2010) Interface investigation and engineering achieving high performance polymer photovoltaic devices. J Mater Chem 20(13):2575?2598
  • Chen L, Tang Y, Fan X, Zhang C, Chu Z, Wang D, Zou D (2009) Improvement of the efficiency of CuPc/C60-based photovoltaic cells using a multistepped structure. Org Electron 10(4):724?728
  • Chen H-Y, Hou J, Zhang S, Liang Y, Yang G, Yang Y, Yu L, Wu Y, Li G (2009) Polymer solar cells with enhanced open-circuit voltage and efficiency. Nat Photon 3(11):649?653
  • Chen F-C, Wu J-L, Lee C-L, Hong Y, Kuo C-H, Huang MH (2009) Plasmonic-enhanced polymer photovoltaic devices incorporating solution-processable metal nanoparticles. Appl Phys Lett 95(1):013305
  • Chang DE, Sorensen AS, Demler EA, Lukin MD (2007) A single-photon transistor using nanoscale surface plasmons. Nat Phys 3(11):807?812
  • Catchpole KR, Polman A (2008) Design principles for particle plasmon enhanced solar cells. Appl Phys Lett 93(19):191113
  • Bredas JL, Calbert JP, da Silva Filho DA, Cornil J (2002) Organic semiconductors: a theoretical characterization of the basic parameters governing charge transport. Proc Nat Acad Sci 99(9):5804?5809
  • Brabec CJ, Zerza G, Cerullo G, De Silvestri S, Luzzati S, Hummelen JC, Sariciftci S (2001) Tracing photoinduced electron transfer process in conjugated polymer/fullerene bulk heterojunctions in real time. Chem Phys Lett 340(3?4):232?236
  • Brabec CJ, Cravino A, Meissner D, Sariciftci NS, Fromherz T, Rispens MT, Sanchez L, Hummelen JC (2001) Origin of the open circuit voltage of plastic solar cells. Adv Funct Mater 11(5):374?380
  • Brabec C (2002) Effect of LiF/metal electrodes on the performance of plastic solar cells. Appl Phys Lett 80(7):1288
  • Br tting W (2006) Introduction to the physics of organic semiconductors. In: Physics of organic semiconductors. Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, pp 1?14
  • Bouyer F, Robben A, Yu WL, Borkovec M (2001) Aggregation of colloidal particles in the presence of oppositely charged polyelectrolytes: effect of surface charge heterogeneities. Langmuir 17(17):5225?5231. doi:10.1021/la010548z
  • Becker H, Burns SE, Friend RH (1997) Effect of metal films on the photoluminescence and electroluminescence of conjugated polymers. Phys Rev B 56(4):1893
  • Atwater HA, Polman A (2010) Plasmonics for improved photovoltaic devices. Nat Mater 9(3):205?213
  • Anthopoulos TD (2006) High performance n-channel organic field-effect transistors and ring oscillators based on C60 fullerene films. Appl Phys Lett 89(21):213504
  • Anker JN, Hall WP, Lyandres O, Shah NC, Zhao J, Van Duyne RP (2008) Biosensing with plasmonic nanosensors. Nat Mater 7(6):442?453
  • Andersson V (2008) Optical modeling of a folded organic solar cell. J Appl Phys 103(9):094520
  • ?[1] Akamatu H, Inokuchi H, Matsunaga Y (1954) Electrical conductivity of the perylene bromine complex. Nature 173(4395):168?169