Nano Trends-A Journal of Nano Technology & Its Applications

In this article, authors have discussed about how nanomaterials can be analyzed using different approaches. In the present article, an attempt was made to focus on what are nanomaterials, how it is generated and what importance may it have. Nanomaterials are defined as engineered materials with at least one dimension in the range of 1–100 nm. This paper determines the contribution of nanotechnology in the field of electronics and optoelectronics and also defines their distinct chemical properties by using different nanomaterials.

Dedulkar S, Yo HJ, Huang JK. TEM Based Investigations on CVD Assisted Growth of ZnO Nanowires Inside Nanochannels of Anodised. INJ. 2010; 9(3): 225–35p.

Ravikrishnan A. Engineering Chemistry. 10th Edn. Chennai: Sri Krishna Hi-Tech Publishing Company; 2009.

Arivalagan K, Karthikeyan R. Engineering Chemistry. Chennai: Shiv Publication; 2007.

Bandyopadhyay AK. Nano Materials. 2nd Edn. New Delhi: New Age International Publishers; 2010.

Flynn CE, Mao C, Hayhurst A, et al. Synthesis and Organization of Nanoscale II–VI Semiconductor Materials Using Evolved Peptide Specificity and Viral Capsid Assembly. JM Chem. 2003; 13: 2414–21p.

Tripathy SK, Pattanaik A. Optical and Electronic Properties of Some Binary Semiconductors from Energy Gaps. Opt Mater. 2016; 53: 123–33p.

Sinha A, Sharma AK, Barui R, et al. The Einstein Relation for the Diffusivity-Mobility Ratio is Nonlinear Optical, Optoelectronic and the Related Materials. Elsevier. 2007; 391(1): 141–56p.

Ghatak KP, Bhattacharya S, De D. The Einstein Relation in Bulk Specimens of Compound Semiconductors. Berlin: Springer; 2009.

Jie J, Bello I, Zhang W, et al. One-Dimensional II-VI Nanostructures: Synthesis, Properties and Optoelectronic Applications. Nanotoday. 2010; 5(4): 313–36p.

Roy SS. A Simple Theoretical Analysis of the Einstein Relation for the DMR (Diffusivity-Mobility Ratio) in Nono Compounds on the Basis of k.p Formalism. SPIE. 2011; 8093: 22p.

Sugunan A. Photochemical and Photoelectric Applications of II-VI Semiconductor Nanomaterials. [PhD Thesis]. Royal Institute of Technology (KTH), Stockholm:School of Information and Communication Technology; 2010. [cited 2016 Apr 28]. Available from: Functional Material Division (Online Thesis).