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87. Garbarino S, Ponrouch A, Pronovost S, Gaudet J, Guay D (2009) Electrochem Commun
11(10):1924-1927
88. Reece SY, Hamel JA, Sung K, Jarvi TD, Esswein AJ, Pijpers JJH, Nocera DG (2011)
Science 334(6056):645-648
89. Kudo A, Miseki Y (2009) Chem Soc Rev 38(1):253-278
90. Youngblood WJ, Lee SHA, Maeda K, Mallouk TE (2009) Acc Chem Res 42(12):1966-1973
91. Li Y, Zhang JZ (2010) Laser Photonics Rev 4(4):517-528
92. Maeda K, Domen K (2010) J Phys Chem Lett 1(18):2655-2661
93. Kruk M, Jaroniec M (2001) Chem Mater 13(10):3169-3183
94. Adams BD, Wu GS, Nigrio S, Chen AC (2009) J Am Chem Soc 131(20):6930-6931
95. Yeager E (1984) Electrochim Acta 29(11):1527-1537
96. Stamenkovic V, Mun BS, Mayrhofer KJJ, Ross PN, Markovic NM, Rossmeisl J, Greeley J,
Norskov JK (2006) Angew Chem Int Edit 45(18):2897-2901
97. Koenigsmann C, Santulli AC, Gong KP, Vukmirovic MB, Zhou WP, Sutter E, Wong SS,
Adzic RR (2011) J Am Chem Soc 133(25):9783-9795
98. Sarkar A, Murugan AV, Manthiram A (2008) J Phys Chem C 112(31):12037-12043
99. Liu HS, Song CJ, Zhang L, Zhang JJ, Wang HJ, Wilkinson DP (2006) J Power Sources
155(2):95-110
100. Jin MS, Liu HY, Zhang H, Xie ZX, Liu JY, Xia YN (2011) Nano Res 4(1):83-91
101. Lee YW, Ko AR, Han SB, Kim HS, Kim DY, Kim SJ, Park KW (2010) Chem Commun
46(48):9241-9243
102. Wu HX, Li HJ, Zhai YJ, Xu XL, Jin YD (2012) Adv Mater 24(12):1594-1597
103. Sun SH, Zhang GX, Geng DS, Chen YG, Li RY, Cai M, Sun XL (2011) Angew Chem Int
Edit 50(2):422-426
104. Guo SJ, Zhang S, Sun XL, Sun SH (2011) J Am Chem Soc 133(39):15354-15357
105. Xu CW, Cheng LQ, Shen PK, Liu YL (2007) Electrochem Commun 9(5):997-1001
106. Roudgar A, Gross A (2004) Surf Sci 559(2-3):L180-L186
107. Capon A, Parsons R (1973) J Electroanal Chem 45(2):205-231
108. Neurock M, Janik M, Wieckowski A (2008) Faraday Discuss 140:363-378
109. Samjeske G, Miki A, Ye S, Osawa M (2006) J Phys Chem B 110(33):16559-16566
110. Kang YJ, Qi L, Li M, Diaz RE, Su D, Adzic RR, Stach E, Li J, Murray CB (2012) ACS
Nano 6(3):2818-2825
111. Miyake
H,
Okada
T,
Samjeske
G,
Osawa
M
(2008)
Phys
Chem
Chem
Phys
10(25):3662-3669
112. McKeown NB, Budd PM (2006) Chem Soc Rev 35(8):675-683
113. Rosi NL, Eckert J, Eddaoudi M, Vodak DT, Kim J, O'Keeffe M, Yaghi OM (2003) Science
300(5622):1127-1129
114. Zhao XB, Xiao B, Fletcher AJ, Thomas KM, Bradshaw D, Rosseinsky MJ (2004) Science
306(5698):1012-1015
115. Nakamori Y, Li HW, Matsuo M, Miwa K, Towata S, Orimo S (2008) J Phys Chem Solids
69(9):2292-2296
116. Bardhan R, Ruminski AM, Brand A, Urban JJ (2011) Energy Environ Sci 4(12):4882-4895
117. Pumera M (2011) Energy Environ Sci 4(3):668-674
118. Stephens FH, Baker RT, Matus MH, Grant DJ, Dixon DA (2007) Angew Chem Int Edit
46(5):746-749
119. Sun YG, Tao ZL, Chen J, Herricks T, Xia YN (2004) J Am Chem Soc 126(19):5940-5941
120. Kobayashi H, Yamauchi M, Kitagawa H, Kubota Y, Kato K, Takata M (2008) J Am Chem
Soc 130(6):1818-1819
121. Kobayashi H, Yamauchi M, Kitagawa H, Kubota Y, Kato K, Takata M (2010) J Am Chem
Soc 132(16):5576-5577
122. Weiss A, Ramaprabhu S, Rajalakshmi N (1997) Z Phys Chem 199:165-212
123. Uemiya S, Matsuda T, Kikuchi E (1991) J Membr Sci 56(3):315-325
124. Barlag H, Opara L, Zuchner H (2002) J Alloys Compd 330:434-437
125. Lu YZ, Jin RT, Chen W (2011) Nanoscale 3(6):2476-2480
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