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conferenceseries

.com

Volume 9

Journalof Nanomedicine&Nanotechnology

Asia Pacific Nano Congress 2018

August 10-11, 2018

August 10-11, 2018 Osaka, Japan

2

nd

World Congress on

Nanoscience and Nanotechnology

ZnMoS

4

nanorods grown on Ni foam for high performance hybrid-supercapacitors

Awais Ali, Ganesh Dhakal and Jae-Jin Shim

Yeungnam University, Republic of Korea

S

upercapacitors, also known as electrochemical capacitors, are a new type of energy storage device which bridges the gap

between rechargeable batteries and conventional dielectric capacitors. Batteries and supercapacitors are currently the primary

choices offering reliable and convenient accessible energy storage. As for energy storage devices, electrochemical supercapacitors

provide a higher power density and modest energy density as compared with batteries. Recently, carbon-based nanomaterial,

such as activated carbon, carbon nanotubes, carbon nanofibers and graphene has been studied for supercapacitor electrodes.

Among them, activated carbons are still attractive because of its low cost and well-established electrochemical properties.

Metal oxides and their composites have become attractive in various applications for new generation nano-electronic devices

including supercapacitors and lithium-ion batteries. Among these, metal sulfides are also known to be electrochemically active

materials for supercapacitor applications. ZnMoS

4

nanorods were successfully synthesized on 3D-Ni-foam (NF) by one step

hydrothermal process. The ZnMoS

4

nanorod grown on NF delivers good specific capacitance. The hybrid-supercapacitor with

splendid electrochemical performance is rationally demonstrated by employing ZnMoS

4

and activated carbon as the positive

and negative electrode respectively. Hybrid-supercapacitor shows good energy density, power density and excellent cycling

stability. These results suggested that the binder free ZnMoS

4

nanorods are a suitable battery type positive electrode for high-

performance hybrid-supercapacitors.

Biography

Awais Ali is a PhD student in the School of Chemical Engineering, Yeungnam University, Republic of Korea. His research focuses on energy storage devices,

especially supercapacitors. His work is on improving the energy storage capacity using different metal sulfides. His research focuses on making materials that can

store more energy and can show long cycling stability (charge-discharge).

engr.awaixali@gmail.com

Awais Ali et al., J Nanomed Nanotechnol 2018, Volume 9

DOI: 10.4172/2157-7439-C6-082