Environmental Engineering Reference
In-Depth Information
106. Jiang, B., C. Tian, W. Zhou, J. Wang, Y. Xie, Q. Pan, Z. Ren, Y. Dong, D. Fu, J. Han, and H. Fu.
In situ growth of TiO
2
in interlayers of expanded graphite for the fabrication of TiO
2
-graphene
with enhanced photocatalytic activity.
Chem. Eur. J.
, 17:8379-8387, 2011.
107. Li, B., and H. Cao. ZnO@graphene composite with enhanced performance for the removal of
dye from water.
J. Mater. Chem.
, 21:3346-3349, 2011.
108. Lv, T., L. Pan, X. Liu, and Z. Sun. Enhanced photocatalytic degradation of methylene blue by
ZnO-reduced graphene oxide-carbon nanotube composites synthesized
via
microwave-assisted
reaction.
Catal. Sci. Technol.
, 2:2297-2301, 2012.
109. Yu, X., G. Zhang, H. Cao, X. An, Y. Wang, Z. Shu, X. An, and F. Hua. ZnO@ZnS hollow
dumbbells-graphene composites as high-performance photocatalysts and alcohol sensors.
New
J. Chem.
, 36:2593-2598, 2012.
110. Bai, X., L. Wang, and Y. Zhu. Visible photocatalytic activity enhancement of ZnWO
4
by gra-
phene hybridization.
ACS Catal.
, 2769-2778, 2012.
111. Liu, F., X. Shao, J. Wang, S. Yang, H. Li, X. Meng, X. Liu, and M. Wang. Solvothermal synthe-
sis of graphene-CdS nanocomposites for highly eficient visible-light photocatalyst.
J. Alloy.
Compd.
, 551:327-332, 2013.
112. Ye, A., W. Fan, Q. Zhang, W. Deng, and Y. Wang. CdS-graphene and CdS-CNT nanocomposites
as visible-light photocatalysts for hydrogen evolution and organic dye degradation.
Catal. Sci.
Technol.
, 2:969-978, 2012.
113. Khan, Z., T.R. Chetia, A.K. Vardhaman, D. Barpuzary, C.V. Sastri, and M. Qureshi. Visible light
assisted photocatalytic hydrogen generation and organic dye degradation by CdS-metal oxide
hybrids in presence of graphene oxide.
RSC Adv.
, 2:12122-12128, 2012.
114. An, X., J.C. Yu, Y. Wang, Y. Hu, X. Yu, and G. Zhang. WO
3
nanorods/graphene nanocompos-
ites for high-eficiency visible-light-driven photocatalysis and NO
2
gas sensing.
J. Mater. Chem.
,
22:8525-8531, 2012.
115. Sun, Y., B. Qu, Q. Liu, S. Gao, Z. Yan, W. Yan, B. Pan, S. Wei, and Y. Xie. Highly eficient visible-
light-driven photocatalytic activities in synthetic ordered monoclinic BiVO
4
quantum tubes-
graphene nanocomposites.
Nanoscale
, 4:3761-3767, 2012.
116. Song, S., W. Gao, X. Wang, X. Li, D. Liu, Y. Xing, and H. Zhang. Microwave-assisted synthesis
of BiOBr/graphene nanocomposites and their enhanced photocatalytic activity.
Dalton Trans.
,
41:10472-10476, 2012.
117. Tu, X., S. Luo, G. Chen, and J. Li. One-pot synthesis, characterization, and enhanced photocata-
lytic activity of a BiOBr-graphene composite.
Chem. Eur. J.
, 18:14359-14366, 2012.
118. Madhusudan, P., J. Yu, W. Wang, B. Cheng, and G. Liu. Facile synthesis of novel hierarchical
graphene-Bi
2
O
2
CO
3
composites with enhanced photocatalytic performance under visible light.
Dalton Trans.
, 41:14345-14353, 2012.
119. Li, Z., Y. Shen, C. Yang, Y. Lei, Y. Guan, Y. Lin, D. Liu, and C.W. Nan. Signiicant enhancement
in the visible light photocatalytic properties of BiFeO
3
-graphene nanohybrids.
J. Mater. Chem. A
,
1:823-829, 2013.
120. Dong, Y., J. Li, L. Shi, J. Xu, X. Wang, Z. Guo, and W. Liu. Graphene oxide-iron complex: Synthe-
sis, characterization and visible-light-driven photocatalysis.
J. Mater. Chem. A
, 1:644-650, 2013.
121. Fu, Y., H. Chen, X. Sun, and X. Wang. Graphene-supported nickel ferrite: A magnetically sepa-
rable photocatalyst with high activity under visible light.
AIChE J.
, 58:3298-3305, 2012.
122. Liang, Q., Y. Shi, W. Ma, Z. Li, and X. Yang. Enhanced photocatalytic activity and structural
stability by hybridizing Ag
3
PO
4
nanospheres with graphene oxide sheets.
Phys. Chem. Chem.
Phys.
, 14:15657-15665, 2012.
123. Hou, Y., F. Zuo, Q. Ma, C. Wang, L. Bartels, and P. Feng. Ag
3
PO
4
oxygen evolution photocatalyst
employing synergistic action of Ag/AgBr nanoparticles and graphene sheets.
J. Phys. Chem. C.
,
116:20132-20139, 2012.
124. Zhu, M., P. Chen, and M. Liu. Ag/AgBr/Graphene oxide nanocomposite synthesized
via
oil/
water and water/oil microemulsions: A comparison of sunlight energized plasmonic photo-
catalytic activity.
Langmuir
, 28:3385-3390, 2012.
