Environmental Engineering Reference
In-Depth Information
6. Wu JB, Agrawal M, Becerril HA, Bao Z, Liu ZF, Chen Y, Peumans P (2010) Organic light-
emitting diodes on solution-processed graphene transparent electrodes. ACS Nano 4:43-48
7. Matyba P, Yamaguchi H, Eda G, Chhowalla M, Edman L, Robinson ND (2010) Graphene
and mobile ions: the key to all-plastic, solution-processed light-emitting devices. ACS Nano
4:637-642
8. Di CA, Wei DC, Yu G, Liu YQ, Guo YL, Zhu DB (2008) Patterned graphene as source/drain
electrodes for bottom-contact organic field-effect transistors. Adv Mater 20:3289-3293
9. Pang SP, Tsao HN, Feng XL, Müllen K (2009) Patterned graphene electrodes from solution-
processed graphite oxide films for organic field-effect transistors. Adv Mater 21:3488-3491
10. Rao CNR, Sood AK, Subrahmanyam KS, Govindaraj A (2009) Graphene: the new two-
dimensional nanomaterial. Angew Chem Int Ed 48:7752-7777
11. Allen MJ, Tung VC, Kaner RB (2010) Honeycomb carbon: a review of graphene. Chem Rev
110:132-145
12. Huang X, Yin ZY, Wu SX, Qi XY, He QY, Zhang QC, Yan QY, Boey F, Zhang H (2011)
Graphene-based materials: synthesis, characterization, properties and applications. Small
7:1876-1902
13. Hu YH, Wang H, Hu B (2010) Thinnest two-dimensional nanomaterial-graphene for solar
energy. ChemSusChem 3:782-796
14. Liang MH, Luo B, Zhi LJ (2009) Application of graphene and graphene-based materials in
clean energy-related devices. Int J Energy Res 33:1161-1170
15. Sun YQ, Wu QO, Shi GQ (2011) Graphene based new energy materials. Energy Environ Sci
4:1113-1132
16. Wassei JK, Kaner RB (2010) Graphene, a promising transparent conductor. Mater Today
13:52-59
17. Pang S, Hernandez Y, Feng X, Müllen K (2011) Graphene as transparent electrode material
for organic electronics. Adv Mater 23:2779-2795
18. Novoselov KS, Geim AK, Morozov SV, Jiang D, Zhang Y, Dubonos SV, Grigorieva IV,
Firsov AA (2004) Electric field effect in atomically thin carbon films. Science 306:666-669
19. Forbeaux I, Themlin JM, Debever JM (1998) Heteroepitaxial graphite on 6H-SiC(0001):
interface formation through conduction-band electronic structure. Phys Rev B 58:16396-16406
20. Kim KS, Zhao Y, Jang H, Lee SY, Kim JM, Kim KS, Ahn JH, Kim P, Choi JY, Hong BH
(2009) Large-scale pattern growth of graphene films for stretchable transparent electrodes.
Nature 457:706-710
21. Dikin DA, Stankovich S, Zimney EJ, Piner RD, Dommett GH, Evmenenko G, Nguyen ST,
Ruoff
RS
(2007)
Preparation
and
characterization
of
graphene
oxide
paper.
Nature
448:457-460
22. Eda G, Chhowalla M (2010) Chemically derived graphene oxide: towards large-area thin-
film electronics and optoelectronics. Adv Mater 2:2392-2415
23. Park S, Ruoff RS (2009) Chemical methods for the production of graphenes. Nat Nanotech
4:217-224
24. Becerril HA, Mao J, Liu Z, Stoltenberg RM, Bao Z, Chen Y (2008) Evaluation of solution-
processed reduced graphene oxide films as transparent conductors. ACS Nano 2:463-470
25. Xu Y, Long G, Huang L, Huang Y, Wan X, Ma Y, Chen Y (2010) Polymer photovoltaic devices
with transparent graphene electrodes produced by spin-casting. Carbon 48:3308-3311
26. Wu J, Becerril HA, Bao Z, Liu Z, Chen Y, Peumans P (2008) Organic solar cells with
solution-processed graphene transparent electrodes. Appl Phys Lett 92:263302
27. Eda G, Lin YY, Miller S, Chen CW, Su WF, Chhowalla M (2008) Transparent and
conducting electrodes for organic electronics from reduced graphene oxide. Appl Phys Lett
92:23305
28. Yin ZY, Sun SY, Salim T, Wu SX, Huang XA, He QY, Lam YM, Zhang H (2010) Organic
photovoltaic devices using highly flexible reduced graphene oxide films as transparent
electrodes. ACS Nano 4:5263-5268
29. Geng JX, Liu LJ, Yang SB, Youn SC, Kim DW, Lee JS, Choi JK, Jung HT (2010) A simple
approach for preparing transparent conductive graphene films using the controlled chemical
Search WWH ::




Custom Search