SYNTHESIS OF MoS2/GRAPHENE NANOCOMPOSITE BY FACILE ULTRASONIC-ASSISTED HYDROTHERMALMETHOD

Long Le Ngoc, Kien Pham Trung, Khai Tran Van

Abstract


In this report, thin layers of MoS2 were in-situ incorporated into graphene oxide (GO) to form MoS2/graphene nanocomposite by a facile ultrasonic-assisted hydrothermal method. X-ray Diffraction (XRD) and Raman analysis revealed that the as-synthesized MoS2 nanosheets crystalized in hexagonal phase 2H-MoS2 while High Resolution Transmission Electron Microscopy (HRTEM) images confirmed that MoS2 layers with average thickness of ~5–6 nm (6–8 layers) attached on the edges and surfaces of graphene sheets with high density and uniform shape restacking in three-dimensional (3D) architectures. The Scanning Transmission Electron Microscopy – Energy Dispersive X-ray spectrum (STEM-EDX) investigation further confirmed the low impurity of MoS2/graphene composite, and the well repairing of defects in GO surfaces during the hydrothermal process. Our approach is promising for a scalable, inexpensive, and accurate strategy to fabricate state-of-the-art materials with a certain structure for various practical applications such as electrode material for Lithium battery or supercapacitor.


Keywords


MoS2/graphene, 2D materials, graphene, hydrothermal method

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Wang Q. H., Kalantar-Zadeh K., Kis A., Coleman J. N. and Strano M. S. – Electronics and optoelectronics of two-dimensional transition metal dichalcogenides, Nat. Nanotechnol. 7 (2012) 699–712.

Novoselov K. S., Jiang D., Schedin F., Booth T. J., Khotkevich V. V., Morozov S. V. and Geim A. K. – Two-dimensional atomic crystals, Proc. Natl. Acad. Sci. U.S.A. 102 (2005) 10451–10453.

Geim A. K. – Nobel Lecture: Random walk to graphene, Rev. Mod. Phys. 83 (3) (2011) 851–862.

Novoselov K. S., Geim A. K., Morozov S. V., Jiang D., Zhang Y., Dubonos S. V., Grigorieva I. V. and Firsov A. A. – Electric field effect in atomically thin carbon films, Science 306 (2004) 666–669.

Castro Neto A. H., Guinea F., Peres N. M. R., Novoselov K. S. and Geim A. K. – The electronic properties of graphene, Rev. Mod. Phys. 81 (2009) 109–162.

Abergel D. S. L., Apalkov V., Berashevich J., Ziegler K., Chakraborty T. – Properties of graphene: a theoretical perspective, Advances in Physics 59 (2010) 261–482.

Radisavljevic B., Radenovic A., Brivio J., Giacometti V., Kis A. – Single-layer MoS2 transistors, Nat. Nanotechnol. 6 (2011) 147–150.

Mak K. F., Lee C., Hone J., Shan J. and Heinz T. F. – Atomically thin MoS2: A new direct-gap semiconductor, Phys. Rev. Lett. 105 (2010) 136805–136808.

Kuc A. – Low-dimensional transition-metal dichalcogenides, in SPR Chemical modelling: volume 11, M. Springborg, and J. Joswig, ed. London, UK: The Royal Society of Chemistry (2015) 1–29.

Xiang Q., Yu J. and Jaroniec M. – Synergetic effect of MoS2 and graphene as cocatalysts for enhanced photocatalytic H2 production activity of TiO2 nanoparticles, J. Am. Chem. Soc. 134 (2012) 6575–6578.

David L., Bhandavat R. and Singh G. – MoS2/graphene composite paper for sodium-ion battery electrodes, ACS Nano 8 (2014) 1759–1770.

Perkins F. K., Friedman A. L., Cobas E., Campbell P. M., Jernigan G. G. and Jonker B. T. – Chemical vapor sensing with monolayer MoS2, Nano Lett. 13 (2) (2013) 668–673.

Bernardi M., Palummo M. and Grossman J. C. – Extraordinary sunlight absorption and one nanometer thick photovoltaics using two-dimensional monolayer materials, Nano Lett. 13 (2013) 3664–3670.

Hu Y., Li X., Lushington A. P., Cai M. R., Geng D.-S., Banis M. N., Li R. and Sun X. A. – Fabrication of MoS2-graphene nanocomposites by layer-by-layer manipulation for high-performance lithium ion battery anodes, ECS J. Solid State Sci. Technol. 2 (2013) M3034–M3039.

Coleman J. N., Lotya M., O'Neill A., Bergin S. D., King P. J., Khan U., Young K., Gaucher A., De S., Smith R. J., Shvets I. V., Arora S. K., Stanton G., Kim H. Y., Lee K., Kim G. T., Duesberg G. S., Hallam T., Boland J. J., Wang J. J., Donegan J. F., Grunlan J. C., Moriarty G., Shmeliov A., Nicholls R. J., Perkins J. M., Grieveson E. M., Theuwissen K., McComb D. W., Nellist P. D. and Nicolosi V. – Two-dimensional nanosheets produced by liquid exfoliation of layered materials, Science 331 (2011) 568–571.

Ma L., Huang G., Chen W., Wang Z., Ye J., Haiyang L., Chen D. N. S. and Lee J. Y. – Cationic surfactant-assisted hydrothermal synthesis of few-layer molybdenum disulfide/graphene composites: Microstructure and electrochemical lithium storage, J. Power Sources 264 (2014) 262–271.

Hu H., Zhao Z., Wan W., Gogotsi Y. and Qiu J. – Ultralight and highly compressible graphene aerogels, Adv. Mater. 25 (2013) 2219–2223.

Guo J., Chen X., Jin S., Zhang M. and Liang C. – Synthesis of graphene-like MoS2 nanowall/graphene nanosheet hybrid materials with high lithium storage performance, Catalysis Today 246 (2015) 165–171.

Song H., Tang A., Xu G., Liu L., Yin M., and Pan Y. – One-step Convenient Hydrothermal Synthesis of MoS2/RGO as a High-performance Anode for Sodium-ion Batteries, Int. J. Electrochem. Sci. 13 (2018) 4720–4730.

Bing Z., Wang Z., Gao Y., Chen L., Lu M., Jiao Z., Jianga Y., Ding Y.-Zh. and Cheng L. – Hydrothermal synthesis of layer-controlled MoS2/graphene composite aerogels for lithium-ion battery anode materials, Appl. Surf. Sci. 390 (2016) 209–215.

Thangappan R., Kalaiselvam S., Elayaperumal A., Jayavel R., Rivanandhan M., Karthikeyane R. and Hayakawa Y. – Graphene decorated with MoS2 nanosheets: Synergetic Energy Storage composite electrode for Supercapacitor Applications, Dalton Trans. 45 (2016) 2637–2646.

Zhou W., Zhou K., Hou D., Liu X., Li G., Sang Y., Liu H., Li L. and Chen S. – Three-Dimensional Hierarchical Frameworks Based on MoS2 Nanosheets Self-Assembled on Graphene Oxide for Efficient Electrocatalytic Hydrogen Evolution, ACS Appl. Mater. Interfaces 6 (2104) 21534–21540.

Hu L., Ren Y., Yang H. and Xu Q. – Fabrication of 3D Hierarchical MoS2/Polyaniline and MoS2/C Architectures for Lithium-Ion Battery Applications, ACS Appl. Mater. Interfaces 6 (2014) 14644–14652.

Zhang F., Tang Y., Liu H., Ji H., Jiang C., Zhang J., Zhang X. and Lee C.-S. – Uniform Incorporation of Flocculent Molybdenum Disulfide Nanostructure into Three-Dimensional Porous Graphene as an Anode for High-Performance Lithium Ion Batteries and Hybrid Supercapacitors, ACS Appl. Mater. Interfaces 8 (2016) 4691–4699.

Chang K. and Chen W. – In situ synthesis of MoS2/graphene nanosheets composites with extraordinarily high electrochemical performance for lithium ion batteries, Chem. Commun. 47 (2011) 4252–4254.

Zheng X., Xu J., Yan K., Wang H., Wang Z. and Yang S. – Space-Confined Growth of MoS2 Nanosheets within Graphite: The Layered Hybrid of MoS2 and Graphene as an Active Catalyst for Hydrogen Evolution Reaction, Chemistry of Materials 26 (2014) 2344–2353.

Huang G., Chen T., Chen W., Wang Z., Chang K., Ma L., Huang F., Chen D. and Lee J. Y. – Graphene-like MoS2/graphene composites: Cationic surfactant-assisted hydrothermal synthesis and electrochemical reversible storage of lithium, Small 9 (2013) 3693–3703.

Khai T. V., Na H. G., Kwak D. S., Kwon Y. J., Ham H., Shim K. B. and Kim H. W. – Influence of N-doping on the structural and photoluminescence properties of graphene oxide films, Carbon 50 (2012) 3799–3806.

Khai T. V., Na H. G., Kwak D. S., Kwon Y. J., Ham H., Shim K. B. and Kim H. W. – Significant enhancement of blue emission and electrical conductivity of N-doped graphene, J. Mater. Chem. 22 (2012) 17992–18003.

Chang K., Mei Z., Wang T., Kang Q., Ouyang S. and Ye J. – MoS2/graphene cocatalyst for efficient photocatalytic H2 evolution under visible light irradiation, ACS Nano 8 (2014) 7078–7087.

Cui Y. R., He J. S., Li X. M., Zhao J. X., Chen A. L. and Yang J. – Preparation and characterization of MoS2 microsphere by hydrothermal method, Adv. Mater. Res. 631 (2013) 306–309.

Geng X., Sun W., Wu W., Chen B., Al-Hilo A., Benamara M., Zhu H., Watanabe F., Cui J. and Chen T. P. – Pure and stable metallic phase molybdenum disulfide nanosheets for hydrogen evolution reaction, Nat. Commun. 7 (2016) 10672–10677.

Kudin K. N., Ozbas B., Schniepp H. C., Prud'homme R. K., Aksay I. A. and Car R. – Raman spectra of graphite oxide and functionalized graphene sheets, Nano Lett. 8 (2008) 36–41.

Ferrari A. C., Meyer J. C., Scardaci V., Casiraghi C., Lazzeri M., Mauri F., Piscanec S., Jiang D., Novoselov K. S., Roth S. and Geim A. K. – Raman spectrum of graphene and graphene layers, Phys. Rev. Lett. 97 (2006) 187401(1)–187401(4).

Bosch-Navarro C., Coronado E., Martí-Gastaldo C., Sánchez-Royo J. F. and Gómez M. – Influence of the pH on the synthesis of reduced graphene oxide under hydrothermal conditions, Nanoscale 4 (2012) 3977–3982.

Kibsgaard J., Chen Z., Reinecke B. N. and Jaramillo T. F. – Engineering the surface structure of MoS2 to preferentially expose active edge sites for electrocatalysis, Nat. Mat. 11 (2012) 963–969.

Guo Y., Sun D., Ouyang B., Raja A., Song J., Heinz T. F. and Brus L. E. – Probing the Dynamics of the Metallic-to-Semiconducting Structural Phase Transformation in MoS2 Crystals, Nano Lett. 15 (2015) 5081−5088.

Fan H., Wu R., Liu H., Yang X., Sun Y. and Chen C. – Synthesis of metal-phase-assisted 1T@2H-MoS2 nanosheet-coated black TiO2 spheres with visible light photocatalytic activities, J. Mat. Sci. 53 10302–10312.

Fan X., Xu P., Zhou D., Sun Y., Li Y. C., Nguyen M. A. T., Terrones M. and Mallouk T. E. – Fast and Efficient Preparation of Exfoliated 2H-MoS2 Nanosheets by Sonication-Assisted Lithium Intercalation and Infrared Laser-Induced 1T to 2H Phase Reversion, Nano Lett. 15 (2015) 5956–5960.




DOI: https://doi.org/10.15625/2525-2518/57/6/13955 Display counter: Abstract : 35 views. PDF : 4 views.

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