International Journal of Nano Dimension

International Journal of Nano Dimension (IJND)

International Journal of Nano Dimension (Abbreviation: Int J Nano Dimens) is an international, open access, online and print scholarly publication issued four times a year by the Tonekabon branch of the Islamic Azad University. IJND aims to provide an academic medium to present and disseminate scientific discoveries and technological advances related to the materials with at least one dimension sized in the range of 1 to 100 nano-meters. IJND is a forum for scientific exchange and communication of materials scientists and engineers as well as other researchers working in different fields that nanoscience can be applied to such as biology, chemistry, electronics, energy engineering, environmental science and medical sciences. IJND is fully open access and full texts of published articles are available to the public through the journal’s website for free. Moreover, manuscript submission and publication processing of accepted manuscripts are free of charge.

International Journal of Nano Dimension has been indexed in
Web of Science - ESCI

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International Journal of Nano Dimension (IJND)

Reasearch Paper

Plant-mediated synthesis of Silver nanoparticles by two species of Cynanchum L. (Apocynaceae): A comparative approach on its physical characteristics

Viscoelastic behavior of Silica nanoparticle/polyimide nanocomposites using finite element approach

The use of Gold nanorods conjugated with Herceptin in breast cancer treatment by photothermal therapy method in mouse model

First principle study of structural and electronic transport properties for electrically doped zigzag single wall GaAs nanotubes

CuO nano structures as an ecofriendly nano photo catalyst and antimicrobial agent for environmental remediation

Route of administration induced in vivo effects and toxicity responses of Zinc Oxide nanorods at molecular and genetic levels

Ni2As2O7 pyrochlore nanomaterial: Solid state synthesis, crystal structure determination, crystal phase growth study and physical properties

Structural, magnetic and electrical properties of pure and Dy-doped Fe2O3 nanostructures synthesized using chemical thermal decomposition technique

High temperature acidic oxidation of multiwalled Carbon nanotubes and synthesis of Graphene quantum dots

Comparative account of antifungal activity of green and chemically synthesized Zinc Oxide nanoparticles in combination with agricultural fungicides