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Journal of Materials Chemistry A
Page 9 of 11
Journal Name
DOI: 10.1039/C6TA08529F
ARTICLE
8
D. Liu, W. Li, X. L. Feng and Y. Zhang, Galvanic replacement 22 X. Wang, M. Vara, M. Luo, H. Huang, A. Ruditskiy, J. Park, S. X.
synthesis of AgxAu1-x@CeO2 (0≤x ≤1) core@shell nanospheres
with greatly enhanced catalytic performance. Chem. Sci., 2015,
6, 7015−7019.
Bao, J. Y. Liu, J. Howe, M. F. Chi, Z. X. Xie and Y. N. Xia, Pd@Pt
Core–Shell concave decahedra: a class of catalysts for the
oxygen reduction reaction with enhanced activity and
durability. J. Am. Chem. Soc., 2015, 137, 15036−15042.
9
Z. B. Tian, Q. Y. Li, J. Y. Hou, L. Pei, Y. Li and S. Y. Ai, Platinum
nanocrystals supported on CoAl mixed metal oxide nanosheets 23 F. M. Ren, H. Y. Lu, H. T. Liu, Z. Wang, Y. Wu and Y. D. Li, Surface
derived from layered double hydroxides as catalysts for
selective hydrogenation of cinnamaldehyde. J. Catal., 2015,
331, 193−202.
ligand-mediated isolated growth of Pt on Pd nanocubes for
enhanced hydrogen evolution activity. J. Mater. Chem. A., 2015,
3, 23660−23663.
10 S. T. Marshall, M. O’Brien, B. Oetter, B. Oetter, A. Corpuz, R. M. 24 S. Gao, Y. Lin, X. C. Jiao, Y. F. Sun, Q. Q. Luo, W. H. Zhang, D. Q. Li,
Richards, D. K. Schwartz and J. W. Medlin, Controlled selectivity
for palladium catalysts using self-assembled monolayers.
Nature Mater., 2010, 9, 853−858.
J. L. Yang, Y. Xie, Partially oxidized atomic cobalt layers for
carbon dioxide electroreduction to liquid fuel. Nature, 2016,
529, 68−71.
11 N. Tian, Z. Y. Zhou, S. G. Sun, Y. Ding and Z. L. Wang, Synthesis 25 H. L. Tang, J. K. Wei, F. Liu, B. T. Qiao, X. L. Pan, L. Li, J. Y. Liu, J. H.
of tetrahexahedral platinum nanocrystals with high-index
facets and high electro-oxidation activity. Science, 2007, 316,
732−735.
Wang and T. Zhang, Strong metal–support interactions
between gold nanoparticles and nonoxides. J. Am. Chem. Soc.,
2016, 138, 56−59.
12 C. Chen, Y. J. Kang, Z. Y. Huo, Z. W. Zhu, W. Y. Huang, H. L. Xin, J. 26 H. L. Lin, Z. P. Shi, S. He, X. Yu, S. N. Wang, Q. S. Gao and Y. Tang,
D. S. Snyder, D. G. Li, J. A. Herron, M. Mavrikakis, M. F. Chi, K. L.
More, Y. D. Li, N. M. Markovic, G. A. Somorjai, P. D. Yang and V.
R. Stamenkovic, Highly crystalline multimetallic nanoframes
with three-dimensional electrocatalytic surfaces. Science, 2014,
343, 1339−1343.
Heteronanowires of MoC–Mo2C as efficient electrocatalysts for
hydrogen evolution reaction. Chem. Sci., 2016, 7, 3399−3405.
27 Y. S.Chen, H. Choi and P. V. Kamat, Metal-cluster-sensitized
solar cells. A new class of thiolated gold sensitizers delivering
efficiency greater than 2%. J. Am. Chem. Soc., 2013, 135,
8822−8825.
13 Y. Pei, P. J. Guo, M. H. Qiao, H. X. Li, S. Q. Wei, H.Y. He and K. N.
Fan, The modification effect of Fe on amorphous CoB alloy
catalyst for chemoselective hydrogenation of crotonaldehyde. J.
Catal., 2007, 248, 303−310.
28 S. Yusuf and F. Jiao, Effect of the support on the photocatalytic
water oxidation activity of cobalt oxide nanoclusters. ACS Catal.,
2012, 2, 2753−2760.
14 H. J. Kim, D. H. K. Jackson, J. Lee, Y. X. Guan, T. F. Kuech and G.
W. Huber, Enhanced activity and stability of TiO2−coated
cobalt/carbon catalysts for electrochemical water oxidation.
ACS Catal., 2015, 5, 3463−3469.
29 X. L. Zhou, H. J. Sun, W. Guo, Z. Y. Liu and S. C. Liu, Selective
hydrogenation of benzene to cyclohexene on Ru-based
catalysts promoted with Mn and Zn. J. Nat. Gas Chem., 2011,
20, 53−59.
15 N. P. Dasgupta, C. Liu, S. Andrews, F. B. Prinz and P. D. Yang,
Atomic layer deposition of platinum catalysts on nanowire
surfaces for photoelectrochemical water reduction. J. Am.
Chem. Soc., 2013, 135, 12932−12935.
30 C. Fan, Y. A. Zhu, X. G. Zhou and Z. P. Liu, Catalytic
hydrogenation of benzene to cyclohexene on Ru(0001) from
density functional theory investigations. Catal Today., 2011,
160, 234−241.
16 J. L. Lu, B. S. Fu, M. C. Kung, G. M. Xiao, J. W. Elam, H. H. Kung
and P. C. Stair, Coking- and sintering-resistant palladium
catalysts achieved through atomic layer deposition. Science,
2012, 335, 1205−1208.
31 W. T. Wang, H. Z. Liu, T. B. Wu, P. Zhang, G. D. Ding and S. G.
Liang, Ru catalyst supported on bentonite for partial
hydrogenation of benzene to cyclohexene. J. Mol. Catal. A-
Chem., 2012, 355, 174−179.
17 S. Sharma, Metal dependent catalytic hydrogenation of
nitroarenes over water-soluble glutathione capped metal
nanoparticles. J. Colloid Interface Sci., 2015, 441, 25−29.
32 R. S. Suppino, R. Landers and A. J. G. Cobo, Partial
hydrogenation of benzene on Ru catalysts: Effects of additives
in the reaction medium. Appl. Catal. A-Gen., 2013, 452, 9−16.
18 J. J. Tan, J. L. Cui, G. Q. Ding, T. S. Deng, Y. L. Zhu and Y. W. Li,
Efficient aqueous hydrogenation of levulinic acid to γ-
valerolactone over a highly active and stable ruthenium
catalyst. Catal. Sci. Technol., 2016, 6, 1469−1475.
33 Y. Q. Wen, X. Y. Wang, H. J. Wei, B. J. Li, P. Jin and L. M. Li, A
large-scale continuous-flow process for the production of
adipic acid via catalytic oxidation of cyclohexene with H2O2.
Green Chem., 2012, 14, 2868–2875.
19 R. F. Nie, H. Z. Jiang, X. H. Lu, D. Zhou and Q. H. Xia, Highly
active electron-deficient Pd clusters on N-doped active carbon
for aromatic ring hydrogenation. Catal. Sci. Technol., 2016, 6,
1913−1920.
34 L. Foppa and J. Dupont, Benzene partial hydrogenation:
advances and perspectives. Chem. Soc. Rev., 2015, 44,
1886−1897.
35 F. Schwab, , M. Lucas and P. Claus, Ruthenium-catalyzed
selective hydrogenation of benzene to cyclohexene in the
presence of an ionic liquid. Angew. Chem. Int. Ed., 2011, 50,
10453−10456.
20 S. R. Zhang, R. B. Jiang, Y. M. Xie, Q. F. Ruan, B. C. Yang, J. F.
Wang and H. Q. Lin, Colloidal moderate-refractive-index Cu2O
nanospheres
as
visible-region
nanoantennas
with
electromagnetic resonance and directional light-scattering
properties. Adv. Mater., 2015, 27, 7432−7439.
36 P. Zhang, T. B. Wu, T. Jiang, W. T. Wang, H. Z. Liu, H. L. Fan, Z. F.
Zhang and B. X. Han, Ru–Zn supported on hydroxyapatite as an
effective catalyst for partial hydrogenation of benzene. Green
Chem., 2013, 15, 152−159.
21 Y. P. Xie, Z. B. Yu, G. Liu, X. L. Ma and H. M. Cheng, CdS–
mesoporous ZnS core–shell particles for efficient and stable
photocatalytic hydrogen evolution under visible light. Energy
Environ. Sci., 2014, 7, 1895−7439.
37 W. T. Wang, H. Z. Liu, G. D. Ding, P. Zhang, T. B. Wu, T. Jiang and
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