INSTITUTE OF NANO SCIENCE AND TECHNOLOGY

An Autonomous Institute supported by Department of Science & Technology, Govt. of India
INST Highlights
  • Advertisement for the Post-Doc and Ph.D position for session Aug-2018, INST, Mohali (click here)
  • Recruitment to the post of Scientist-B, INST, Mohali (click here)
  • Open positions @INST(click here)
INST News & Events
  • Congratulations to Dr. Abir De Sarkar on being conferred the Award for Excellence in Nanoresearch for the year 2018 by the CNR Rao Education Foundation
  • INST welcomes Dr. Goutam De as a visiting faculty
  • Article published in the "Hindustan Times" newspaper about INST, Mohali (click here)
  • Dr. Ramendra Sundar Dey and his group have developed high surface area graphene from waste biomass (nutshells) for energy storage devices (click here for news)
  • Prof. Hirendra N. Ghosh has been recognized as one of the most highly prolific authors for The Journal of Physical Chemistry C
Nanotechnology, the manipulation of matter at the atomic and molecular scale to create materials with remarkably varied and new properties, is a rapidly expanding area of research with huge potential to revolutionize our lives and to provide technological solutions to our problems in agriculture, energy, the environment and medicine. In order to fully realize this potential, we need to be able to control the synthesis of nanoparticles, the construction of nano-devices, and the characterization of materials on the nanoscale and to understand the effects of these things on environment and health. INST will bring together chemists, physicists and materials scientists at the forefront of the science of making and characterizing materials at the nanoscale, with biologists and biochemists applying these discoveries in the agricultural, medical, biological sphere. It brings together research-active basic and applied scientists from different backgrounds in an intimate atmosphere to learn about the needs and scientific advances in their respective fields and to build interactions and collaborations.
Nano News
  • Discovery of new transparent thin film material could improve electronics and solar cells

    A team of researchers, led by the University of Minnesota, have discovered a new nano-scale thin film material with the highest-ever conductivity in its class. The new material could lead to smaller, faster, and more powerful electronics, as well as more efficient solar cells. The discovery is being published today in Nature Communications, an open access journal that publishes high-quality research from all areas of the natural sciences. Read more click here.

  • Researchers develop new tumor-shrinking nanoparticle to fight cancer, prevent recurrence

    A Mayo Clinic research team has developed a new type of cancer-fighting nanoparticle aimed at shrinking breast cancer tumors, while also preventing recurrence of the disease. In the study, published today in Nature Nanotechnology, mice that received an injection with the nanoparticle showed a 70 to 80 percent reduction in tumor size. Most significantly, mice treated with these nanoparticles showed resistance to future tumor recurrence, even when exposed to cancer cells a month later. Read more click here.

  • Freezing lithium batteries may make them safer and bendable

    TYuan Yang, assistant professor of materials science and engineering at Columbia Engineering, has developed a new method that could lead to lithium batteries that are safer, have longer battery life, and are bendable, providing new possibilities such as flexible smartphones. His new technique uses ice-templating to control the structure of the solid electrolyte for lithium batteries that are used in portable electronics, electric vehicles, and grid-level energy storage. The study is published online April 24 in Nano Letters. Read more click here.

  • Nanoparticle vaccine shows potential as immunotherapy to fight multiple cancer types

    Researchers from UT Southwestern Medical Center have developed a first-of-its-kind nanoparticle vaccine immunotherapy that targets several different cancer types. The nanovaccine consists of tumor antigens - tumor proteins that can be recognized by the immune system - inside a synthetic polymer nanoparticle. Nanoparticle vaccines deliver minuscule particulates that stimulate the immune system to mount an immune response. The goal is to help people's own bodies fight cancer. Read more click here.

  • Persistent photoconductivity offers new tool for bioelectronics

    Researchers at North Carolina State University have developed a new approach for manipulating the behavior of cells on semiconductor materials, using light to alter the conductivity of the material itself. Read more click here.