Resonance Raman spectroscopy as a probe of the crystallite size of MoS2 nanoparticles

[1] Blanco, E.; Uzio, D.; Berhault, G.; Afanasiev, P. J. Mater. Chem. A, 2 (2014), pp. 3325-3331

[2] Lee, C.; Yan, H.; Brus, L.E.; Heinz, T.F.; Hone, J.; Ryu, S. ACS Nano, 4 (2010), pp. 2695-2700

[3] Zhang, X.; Qiao, X.-F.; Shi, W.; Wu, J.-B.; Jiang, D.-S.; Tan, P.-H. Chem. Soc. Rev., 44 (2015), pp. 2757-2785

[4] Tao, J.; Chai, J.; Lu, X.; Wong, L.M.; Wong, T.I.; Pan, J.; Xiong, Q.; Chi, D.; Wang, S. Nanoscale, 7 (2015), pp. 2497-2503

[5] Chakraborty, B.; Ramakrishna Matte, H.S.S.; Sood, A.K.; Rao, C.;N.R. J. Raman Spectrosc., 44 (2013), pp. 92-96

[6] Liu, H.; Antwi, A.K.K.; Ying, J.; Chua, S.; Chi, D. Nanotechnology, 25 (2014), p. 405702

[7] Su, L.; Zhang, Y.; Yu, Y.; Cao, L. Nanoscale, 6 (2014), pp. 4920-4927

[8] Zhou, K.-G.; Withers, F.; Cao, Y.; Hu, S.; Yu, G.; Casiraghi, C. ACS Nano, 8 (2014), pp. 9914-9924

[9] Gaur, A.P.S.; Sahoo, S.; Ahmadi, M.; Guinel, M.J.-F.; Gupta, S.K.; Pandey, R.; Dey, S.K.; Katiyar, R.S. J. Phys. Chem. C, 117 (2013), pp. 26262-26268

[10] Myers Kelley, A. J. Phys. Chem. A, 112 (2008), pp. 11975-11991

[11] Stair, P.C. Adv. Catal., 51 (2007), pp. 75-98

[12] Fan, J.-H.; Gao, P.; Zhang, A.-M.; Zhu, B.-R.; Zeng, H.-L.; Cui, X.-D.; He, R.; Zhang, Q.-M. J. Appl. Phys., 115 (2014), p. 053527

[13] Frey, G.L.; Tenne, R.; Matthews, M.J.; Dresselhaus, M.S.; Dresselhaus, G. Phys. Rev. B, 60 (1999), pp. 2883-2892

[14] Virsek, M.; Jesih, A.; Milosevic, I.; Damnjanovic, M.; Remskar, M. Surf. Sci., 601 (2007), pp. 2868-2872

[15] Wu, H.; Yang, R.; Song, B.; Han, Q.; Li, J.; Zhang, Y.; Fang, Y.; Tenne, R.; Wang, C. ACS Nano, 5 (2011), pp. 1276-1281

[16] Afanasiev, P. J. Catal., 269 (2010), pp. 269-280

[17] Berhault, G.; Perez De la Rosa, M.; Mehta, A.; Yácaman, M.J.; Chianelli, R.R. Appl. Catal., A, 345 (2008), pp. 80-88

[18] Liang, K.S.; Chianelli, R.R.; Chien, F.Z.; Moss, S.C. J. Non-Cryst. Solids, 79 (1986), pp. 251-273

[19] Deshpande, M.P.; Bhatt, S.V.; Sathe, V.; Soni, B.H.; Garg, N.; Chaki, S.H., Solid State Physics: Proceeding of the 57th Solid State Physics Symposium 2012, Mumbai, India, AIP Conf. Proceedings, vol. 1512, 2013, pp. 808-809

[20] Fairbrother, A.; Izquierdo-Roca, V.; Fontané, X.; Ibáñez, M.; Cabot, A.; Saucedo, E.; Pérez-Rodríguezac, A. CrystEngComm, 16 (2014), pp. 4120-4125

[21] Gołasa, K.; Grzeszczyk, M.; Leszczynski, P.; Faugeras, C.; Nicolet, A.A.L.; Wysmołek, A.; Potemski, M.; Babinski, A. Appl. Phys. Lett., 104 (2014), p. 092106

[22] Chen, J.M.; Wang, C.S. Solid State Commun., 14 (1974), pp. 857-860

[23] Gouadec, G.; Colomban, P. Prog. Cryst. Growth Charact. Mater, 53 (2007), pp. 1-56

[24] Karlin, S.; Colomban, Ph. J. Raman Spectrosc., 28 (1997), pp. 219-228

[25] Sekine, T.; Uchinokura, K.; Nakashizu, T.; Matsuura, E.; Yoshizaki, R. J. Phys. Soc. Jap., 53 (1984), pp. 811-818

[26] Stacy, A.M.; Hodul, D.T. J. Phys. Chem. Solids, 46 (1985), pp. 405-409

[27] Yang, L.; Cui, X.; Zhang, J.; Wang, K.; Shen, M.; Zeng, S.; Dayeh, S.A.; Feng, L.; Xiang, B. Scientific Rep., 4 (2014), p. 5649

[28] Remskar, M.; Mrzel, A.; Virsek, M.; Jesih, A. Adv. Mater., 19 (2007), pp. 4276-4278

[29] Koroteev, V.O.; Bulushev, D.A.; Chuvilin, A.L.; Okotrub, A.V.; Bulusheva, L.G. ACS Catal., 4 (2014), pp. 3950-3956

[30] Legens, C.; Raybaud, P. Catalysis by Transition Metal Sulphides: From Molecular Theory to Industrial Application, Editions Technip (Toulhoat, H.; Raybaud, P., eds.), 2013, pp. 283-284