'
New Concept of Quaternary Semiconductor Graphene Composites and Their Application' 의 주제별 논문영향력
논문영향력 요약
주제
Quaternary material
Semiconductor
counter electrode
dye-sensitizedsolar-cells
graphene
동일주제 총논문수
논문피인용 총횟수
주제별 논문영향력의 평균
605
0
0.0%
주제별 논문영향력
논문영향력
주제
주제별 논문수
주제별 피인용횟수
주제별 논문영향력
주제어
Quaternary material
1
0
0.0%
Semiconductor
108
0
0.0%
counter electrode
13
0
0.0%
dye-sensitizedsolar-cells
18
0
0.0%
graphene
465
0
0.0%
계
605
0
0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수
0
'
New Concept of Quaternary Semiconductor Graphene Composites and Their Application' 의 참고문헌
[99.] T. Marinado, M. Hahlin, X. Jiang, M. Quintana, E. M. J. Johansson, E. Gabrielsson, S. Plogmaker, D. Hagberg, G. Boschloo, S. M. Zakeeruddin, M. Grätzel, H. Siegbahn, L. Sun, A. Hagfeldt, H. Rensmo, The Journal of PhysicalChemistryC 114 (2010) 11903–11910.
114 ([2010]
[98.] M. Hahlin, E. M. J. Johansson, S. Plogmaker, M. Odelius, D. P. Hagberg, L. Sun, H. Siegbahn, H. Rensmo, Phys. Chem. Chem. Phys. 12 (2010) 1507– 1517.
[81.] M. Law, L.E. Greene, J. Johnson, R. Saykally, P. Yang , Nat Mater, 4 (2005) 455–459.
4 ([2005]
[80.] L.Huang, L. Jiang, M. Wei, Electrochem.Comm. 12 (2010) 319–22.
12 ([2010]
[79.] E. Ramasamy, J. Lee, J. PhysChem.C 114 (2010) 22032–220327.
C 114 ([2010]
[78.] K Keis, E. Magnusson, H. Lindstrom, S.E. Lindquist, A. Hagfeldt, Sol. Energy Mater. Sol.Cells 73 (2002) 51–58.
73 ([2002]
[77.] M. D. McGehee , Science 334 (2001) 607-608.
[76.] Y.Chen, Z. Zeng,C. Li, W. Wang, X.Wang, B. Zhang, New J.Chem. 29 (2005) 773-776.
29 ([2005]
[74.] R. Argazzi , N-Y-M.Iha, H. Zabri,F.Odobel, C. A. Bignozzi, Coordination Chem Rev. 248 (2004) 1299–1316.
[72.] F.Gao,Y. Wang, D.Shi, J. Zhang, M. Wang, X. Jing , R. Humphry-Baker, P. Wang, S.M. Zakeeruddin, M. Gràtzel. J. Am.Chem. Soc. 130 (2008) 10720– 10728.
130 ([2008]
[71.] E. Ghadiri,N. Taghavinia, S.M. Zakeeruddin, M. Gràtzel, J-E.Moser, Nano Lett. 10 (2010) 1632–1638.
10 ([2010]
[70.] D.Chen, F .Huang, Y-B.Cheng, R. A.Caruso, Adv. Mater .21 (2009) 2206– 2210.
2206– 2210[2009]
[7.] F. Dong, J. Li, Y. Wang, X. Zhang, S. Zhang, and S. Zhang, Sci. Total Environ., 685 (2019) 631–658.
685 ([2019]
[68.] X. Yu, P. Joshi, S.B. Darling, Q.Chen, T. Zhang, D. Galipeau, Q. Qiao, J. Phys.Chem.C 114 (2010) 17880–17888.
C 114 ([2010]
[67.] T. Yuan, H. Lu, B. Dong, L. Zhao, L. Wan, S. Wang, J. Mater. Sci. Mater. El. 26 (2015) 1332–1337.
[62.] S. Rajkumar, M. Nirmal Kumar, K. Suguna, S. Muthulakshmi, R. Ashok Kumar, Optik International Journal for Light and Electron Optics 178 (2019) 224–230.
178 ([2019]
[61.] D. Zhao,C.Chen,C. Wang, M.M. Junda, Z. Song,C.R. Grice, Y. Yu,C. Li, B. Subedi, N.J. Podraza, X. Zhao, G. Fang, R.-G. Xiong, K. Zhu, Y. Yan, Nat. Energy 3 (2018) 1093–1100.
3 ([2018]
[6.] W. Zhang, K. Li, D. Zhou, W. Zhang, and H. Gao, Energy Policy, 92 (2016) 369–381.
92 ([2016]
[59.] R. Schmager, I.M. Hossain, F. Schackmar, B.S. Richards, G. Gomard, and U.W. Paetzold, Sol. Energy Mater. Sol.Cells 201 (2019) 110080.
201 ([2019]
[58.] J. Yang, J. Lee, J. Lee, and W. Yi, J. Power Sources, 421 (2019) 124–131.
421 ([2019]
[56.] A. Mutlu, M. Can, and C. Tozlu, Thin Solid Films 685 (2019) 88–96.
[55.] S.H. Mousavi, T.S. Müller a, P.W. de Oliveira, J.Colloid Interface Sci. 382 (2012) 48–52.
382 ([2012]
[54.] S. Exarhos, E. Palmes, and L. Mangolini, Thin Solid Films 684 (2019) 21–30.
[53.] A. Bornheim,C. Pena, M. Spiropulu, S. Xie, and Z. Zhang, Nuclear Inst. and Methods in Physics Research, A 867 (2017) 32–39.
A 867 (32–39[2017]
[52.] A. Bornheim, A. Mangu, J. Mao,C. Pena, M. Spiropulu, S. Xie, Z. Zhang, Nuclear Inst. and Methods in Physics Research, A 912 (2018) 300–302.
A 912 (300–302[2018]
[51.] P.-L. Debarsy and G. Terwagne, Nuclear Inst. and Methods in Physics Research B 442 (2019) 47–52.
[50.]Cao Yu, JingChai, Shuwei Han, Zi Liu, Xiaobo Li, and Jianxi Yao, Energy Reports 5 (2019) 525–528.
5 ([2019]
[5.] D.Cui, Z. Deng, and Z. Liu, Appl. Energy, 254 (2019) 113537.
254 ([2019]
[49.] L.L. Yan,C. Han, B. Shi, Y. Zhao, and X.D. Zhang, Materials Today Nano 7 (2019) 100045.
7 ([2019]
[48.] A. Ingenito, O. Isabella, S. Solntsev, and M. Zeman, Sol. Energy Mater. Sol. Cells 123 (2014) 17–29.
[47.] D. Atsu, E.O. Agyemang, and S.A.K. Tsike, Renewable Sustainable Energy Rev. 53 (2016) 792–800.
53 ([2016]
[46.] A. Sow, M. Mehrtash, D. R. Rousse, and D. Haillot, Sustainable Energy Technologies and Assessments 33 (2019) 83–94.
[45.] S. Freitas and M.C. Brito, Renewable Sustainable Energy Rev. 109 (2019) 271–283.
109 ([2019]
[44.] J. Kirshner, L. Baker, A. Smith, and H. Bulkeley, Geoforum 103 (2019) 114– 125.
[43.] M. Gambini and M. Vellini, Energy Convers. Manage. 195 (2019) 682–689.
[147.] S. Park, S. Kim, G.J. Sun, J. AlloysCompd. 658 (2016) 459-464.
658 ([2016]
[146.] R. Hu, R. Ding, J.Chen, J. Hu, Y. Zhang,Catal.Commun. 21 (2012) 38–41.
21 ([2012]
[145.] A. Jena, S.P. Mohanty, P. Kumar, J. Naduvath, V. Gondane, P. Lekha, J. Das, H.K. Narula, S. Mallick, P. Bhargava, T. IndianCeram. Soc. 71 (2012) 1–16.
71 ([2012]
[144.] G. Yue, J. Wu, Y. Xiao, M. Huang, J. Lin, J.-Y. Lin, J. Mater.Chem. A 1 (2013) 1495.
A 1 ([2013]
[143.] J.-M. Kim, S.-W. Rhee, Electrochim. Acta 83 (2012) 264–270.
83 ([2012]
[142.] G. Veerappan, K. Bojan, S.-W. Rhee, ACS Appl. Mater. Interfaces 3 (2011) 857–862.
3 ([2011]
[141.] B. Fang, S.-Q. Fan, J.H. Kim, M.-S. Kim, M. Kim, N.K.Chaudhari, J. Ko, J.S. Yu, Langmuir 26 (2010) 11238–11243.
[130.] D. Sebastian, V. Baglio, M. Girolamo, R. Moliner, M.J. Lazaro, A.S. Arico, J. Power Sources 250 (2014) 242–249.
250 (242–249 .[2014]
[13.] Y.-H. Ahn, D. Lim, J. Min, J. Kim, B. Lee, J. W. Lee, and K. Shin,Chem. Eng. J., 359 (2019) 1629–1634.
359 ([2019]
[129.] J. Luo, M. Xu, R. Li, K.-W. Huang,C. Jiang, Q. Qi, W. Zeng, J. Zhang,C.Chi, P. Wang, J. Wu, J. Am.Chem. Soc. 136 (2014) 265–272.
136 ([2014]
[128.] X. Liu, Z.Cao, H. Huang, X. Liu, Y. Tan, H.Chen, Y. Pei, S. Tan, J. Power Sources 248 (2014) 400–406.
Power Sources 248 (400–406[2014]
[125.] P. Salvatori, G. Marotta, A.Cinti, E. Mosconi, M. Panigrahi, L. Giribabu, M.K. Nazeeruddin, F. De Angelis, InorganicaChimica Acta 406 (2013) 106–112.
406 ([2013]
[124.] F. Gong, X. Xu, Z. Li, G. Zhou, Z-S. Wang,Chem.Commun., 49 (2013) 14371439.
49 ([2013]
[123.] B. J. Sanghavia, S. M. Mobina, P. Mathurb, G.K. Lahirib, A. K. Srivastava, Biosens. Bioelectron. 39 (2013) 124–132.
[122.] S- H. DuVall , R. L. McCreery , Anal. Chem. 71 (1999) 4594–4602.
[120.] M. Wu,. X. Lin, Y. Wang, L. Wang, W. Guo, D.Qi, X. Peng, A. Hagfeldt, M. Gratzel, T. Ma, J. Am.Chem. Soc. 134 (2012) 3419-3428.
134 ([2012]
[12.] M. Z. Sogut, O. Seçgin, and S. Ozkaynak, Energy 181 (2019) 1114-1120.
[110.] M. Hahlin, E. M. J. Johansson, S. Plogmaker, M. Odelius, D. P. Hagberg, L. Sun, H. Siegbahn, H. Rensmo, Phys. Chem. Chem. Phys. 12 (2010) 1507– 1517.
[11.] A.-R. Kim and Y.-J. Seo, Marine Policy, 100 (2019) 98–106.
100 ([2019]
[109.] A. Fujishima, K. Kohayakawa, K. Honda, J. Electrochem. Soc. 122(11) (1975) 1487–1489.
122 ( 11 ) ([1975]
[106.] X. Jiang, T. Marinado, E. Gabrielsson, D. P. Hagberg, L. Sun, A. Hagfeldt, The Journal of PhysicalChemistryC, 114(6) (2010) 2799–2805.
114 ( 6 ) ([2010]
[105.] N. Bergman, D. Shevchenko, J. Bergquist, Anal. Bioanal. Chem. 406 (2014) 49–61.
[104.] Z. S. Wang, Y.Cui, Y. Dan oh,C. Kasada, A. Shinpo, K. Hara, The J. Phys.Chem.C 111 (2007) 7224–7230.
C 111 ([2007]
[103.] N. Bergman, D. Shevchenko, and J. Bergquist, Anal. Bioanal. Chem. 406 (2014) 49–61.
[102.] F. Fabregat-Santiago, J. Bisquert, G. Garcia-Belmonte, G. Boschloo, A. Hagfeldt, Sol. Energy Mater. Sol.Cells 87 (2005) 117–131.
87 ([2005]
[101.]C. Shi, S. Dai, K. Wang, X. Pan, F. Kong, L. Hu, Vib. Spectrosc. 39 (2005) 99–105.
39 ([2005]
[10.] W. Fan, Y. Li, Q. Guo,C.Chen, and Y. Wang, Energy 125 (2017) 417-426.
125 ([2017]
[1.] M. Bourdeau, X.Q. Zhai, E. Nefzaoui, X. Guo, and P. Chatellier, Sustainable Cities and Society, 48 (2019) 101533.
Vibrational Spectroscopy
39 ([2005]
V. Dhas , A.Yengantiwar , S. B. Ogale
4 ([2011]
U. H. Bhatti , Y.-J.Baik , and B. Lee
195 ([2019]
T. Privalov
11 ([2010]
S.Cazzanti , R. Argazzi ,C. Bignozzi
2 ([2009]
S. M. Zakeeruddin , M. Grátzel
111 ([2007]
S. Bouadila , M. Balghouthi , A. Farhat , A. Guizani
273-283[2016]
R. Wenisch , R. Schlatmann , I. Lauermann
8 ([2018]
R. Vittal and K.-C. Ho
6 ([2012]
R. Prabhakar , N. Mathews , YM Lam and S. G. Mhaisalkar
13 ([2011]
R. A.Caruso
21 , ([2009]
P. Blum and L. Eisenlohr
145 ([2020]
Optik - International Journal for Light and Electron Optics 194
[2019]
M. Tathavadekar , U. Bansode , S. Agarkar and S.B . Ogale
4 ([2014]
M. Grätzel
18 ([2006]
K. Officer , S. Sunahara , L. Mori , Spiccia
2 ([2009]
F.J. Sanz-Larruga , and L. Gimeno ,
109 ([2019]
Energy Inst.
92 ([2019]
D. Stockdale and G. C. Bazan
23 ([2011]
C. E. Romero , and C. R.Maya , J. CO2 Util
23 ([2018]
'
New Concept of Quaternary Semiconductor Graphene Composites and Their Application'
의 유사주제(
) 논문