Nano Trends-A Journal of Nano Technology & Its Applications

The current research work was carried out to synthesis the Molybdenum disulfide. Molybdenum disulfide has been synthesis by liquid exfoliation technique is synthesis with the help of chemical method. After that we have performed various characterizations to study the Molybdenum Disulfide to find its optical, structural & electronic properties by UV – vis, FTIR, Raman, SEM and AFM. MoS2 also coated on a silicon wafer with the help of spin coater machine and thenprepare a device by assembling the electrodes as anode and cathode. MoS₂ thin film on a silicon wafer is used as cathode electrode material due to its n-type semiconducting properties and polyaniline is as anode electrode material due to p-type properties as well as highly conductivity.

Eda G, Fujita T, Yamaguchi H, Voiry D, Chen M, Chhowalla M. Coherent atomic and electronic heterostructures of sin-gle-layer MoS2. ACS Nano. 2012; 6(8): 7311–7317

Nellist PD, Nicolosi V. Two-dimensional nanosheets produced by liquid exfoliation of layered materials. Science. 2011; 331(6017): 568–571.

Joensen P, Frindt RF, Morrison SR. Sin-gle-layer MoS2. Mater. Res. Bull. 1986; 21(4): 457–461.

Wang L, Wang Y, Wong JI, Palacios T, Kong J, Yang HY. Functionalized MoS2 nanosheet-based field effect biosensor for label-free sensitive detection of can-cer marker proteins in solution. Small. 2014; 10(6): 1101–1105.

Jariwala D, Sangwan VK, Lauhon LJ, Marks TJ, Hersam MC. Emerging device applications for semiconducting two-dimensional transition metal dichalco-genides. ACS Nano. 2014; 8(2): 1102–1120.

Conley HJ, Wang B, Ziegler JI, Haglund RF, Pantelides ST, Bolotin KI. Bandgap engineering of strained monolayer and bilayer MoS2. Nano Lett. 2013; 13(8): 3626–3630.

Lei MY, CM Liu, YG Zhou, ZH Yan, SB Han, W Liu, X Xiang, XT Zu. Mi-crostructure and photoluminescence of MoS2 decorated ZnO nanorods. Chi-nese Journal of Physics. 2016; 54(1): 51–59.

Sarkar, D, Liu W, Xie X, Anselmo AC, Mitragotri S, Banerjee K. MoS2 field-effect transistor for next-generation la-bel-free biosensors. ACS Nano. 2014; 8(4): 3992–4003.

Yazyev Oleg V, Andras Kis. MoS2 and semiconductors in the flatland. Materi-als Today. 2015; 18(1): 20–30.

Conley HJ, Wang B, Ziegler JI, Haglund RF, Pantelides ST, Bolotin KI. Bandgap engineering of strained monolayer and bilayer MoS2. Nano Lett. 2013; 13(8): 3626–3630.

Sundaram RS, M Engel, A Lombardo, R Krupke, AC Ferrari, Ph Avouris, M Steiner. Electroluminescence in single layer MoS2. Nano letters. 2013; 13(4): 1416–1421.

Zhou K, Zhu Y, Yang X, Zhou J, Li C. Demonstration of photoluminescence and metal‐enhanced fluorescence of ex-foliated MoS2. Chem Phys Chem. 2012; 13(3): 699–702.

Chhowalla M, Shin HS, Eda G, Li LJ, Loh KP, Zhang H. The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets. Nature chemistry. 2013; 5(4): 263–275.

Pospischil A, Mueller T. Optoelectronic devices based on atomically thin transi-tion metal dichalcogenides. Applied Sci-ences. 2016; 6(3): 78.

Xiao J, Choi D, Cosimbescu L, Koech P, Liu J, Lemmon JP. Exfoliated MoS2 nanocomposite as an anode material for lithium ion batteries. Chemistry of Mate-rials. 2010; 22(16): 4522–4524.

Ye Y, Ye Z, Gharghi M, Yin X, Zhu H, Zhao M, Zhang X. Exciton-related elec-troluminescence from monolayer MoS2. CLEO: Science and Innovations 2014 Jun 8 (pp. STh4B–4). Optical Society of America.

Zaman S, Zainelabdin A, Amin G, Nur O, Willander M. Influence of the poly-mer concentration on the electrolumi-nescence of ZnO nanorod/polymer hy-brid light emitting diodes. Journal of Applied Physics. 2012; 112(6): 064324.