Project on Fuel Cell
Recent development in the field of renewable energy has pushed the baton for its use and storage. As electric drives finds its rapid application in various field such as automobile, aviation, unmanned vehicle etc. There is an increase in demand for the alternative, efficient, eco-friendly energy storage system. Hydrogen is the fuel of future, which can be produce by electrolysis of pure water and capable of regeneration of electric energy with the hydrogen fuel cell. Hydrogen can be store in gas, liquid and solid state forms. This is clean and non-polluting system.
The aim of this project work is thus to prepare a cost effective and efficient proton exchange membrane (PEM) which can be used as electrolyte in fuel cells.
Team Members:
Dr. Neha Gupta
Prof. R. S. Verma
Ms. Tripti Pareek
Devansh Jani (B.Tech VIII student)
Karan Batliwala (B.Tech VIII student)
Jignesh (B.Tech VIII student)
The aim of this project work is thus to prepare a cost effective and efficient proton exchange membrane (PEM) which can be used as electrolyte in fuel cells.
Team Members:
Dr. Neha Gupta
Prof. R. S. Verma
Ms. Tripti Pareek
Devansh Jani (B.Tech VIII student)
Karan Batliwala (B.Tech VIII student)
Jignesh (B.Tech VIII student)
Project on Nanoparticles
Nanoparticles are one of the greatest scientific interest as they are effectively a bridge between bulk materials and atomic structures. Materials at nano-scale exhibit size dependent properties. Thus, the properties of materials change as their size approaches the nanoscale and thus it also affects the electrical conductivity.
In enhancement of ionic conductivity, these nanoparticles play an important role. Thus the aim of this project is to synthesis of nanoparticles of controlled size and their role in ionic conductivity.
Team Members:
Dr. Neha Gupta
Abdulraof Idriss (M.Sc. IV sem student)
In enhancement of ionic conductivity, these nanoparticles play an important role. Thus the aim of this project is to synthesis of nanoparticles of controlled size and their role in ionic conductivity.
Team Members:
Dr. Neha Gupta
Abdulraof Idriss (M.Sc. IV sem student)
Project on Glasses and Glass-ceramic nanocomposites
Glass ceramic nano composites can be prepared by various methods one of them is annealing of the melt quenched glasses above the their respective crystallization temperatures. These glass-ceramic nanocomposites exhibit better electrical conductivity and they are thermally more stable than those of the glasses. Thus, glass-ceramic nanocomposites are another option as an electrolyte in solid state batteries. Electrical conductivity temperature cycles for these samples are reversible and stable. For this project, we are trying to prepare glass-ceramic nanocomposites with various routes and finally their comparative study will be carried out.
Team Members:
Dr. Neha Gupta
Prayas (M.Sc. II sem student)
Team Members:
Dr. Neha Gupta
Prayas (M.Sc. II sem student)