Environmental Engineering Reference
In-Depth Information
6. 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
7. 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
8. Morfa AJ (2008) Plasmon-enhanced solar energy conversion in organic bulk heterojunction
photovoltaics. Appl Phys Lett 92(1):013504
9. Kim S (2008) Plasmon enhanced performance of organic solar cells using electrodeposited
Ag nanoparticles. Appl Phys Lett 93(7):073307
10. 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.
11. 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
12. 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
13. 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
14. 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.
15. 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
16. 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
17. Enüstün
BV,
Turkevich
J
(1963)
Coagulation
of
colloidal
gold.
J
Am
Chem
Soc
85(21):3317-3328. doi:
10.1021/ja00904a001
18. 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
19. 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
20. 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
21. Catchpole KR, Polman A (2008) Design principles for particle plasmon enhanced solar cells.
Appl Phys Lett 93(19):191113
22. 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
23. 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
24. 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
Search WWH ::
Custom Search