Research

Material Sciences

Title :	Experimental and Theoretical studies on the synthesis and characterization of nanostructured materials for optoelectronic, chemical sensing and biological applications
Area of research :	Material Sciences
Focus area :	Nanomaterials and Their Applications
Principal Investigator :	Dr. Bincy John, St. Joseph's College For Women, Alappuzha, Kerala (688001)Dr. Bincy John, St. Joseph's College For Women, Alappuzha, Kerala (688001)
Timeline Start Year :	2024
Timeline End Year :	2027
Contact info :	bincyjohnfdcc@gmail.com,bhagyasjcw@gmail.com,julinjoseph.joseph@gmail.com s.nishabijoy@gmail.com,sheejamol@stjosephscollegeforwomen.ac.in
Equipments :	1. Bench top Freeze dryer 2. Chemical Bath 3. Deep Freezer 4. DSO 5. Fume Hood 6. Laminar Flow 7. Light weight Honeycomb Breadboard 8. Low power lasers (Diode laser) : Semiconductor Diode Laser 9. Low power lasers (He-Ne laser) 10. Magnetic Stirrer with Hotplate 11. Metrohm make water purification system 12. Analytical Balance 13. Dip Coater : Silver Coating System 14. Spin Coater 15. Ultrasonic Bath sonicator ( Rs.3700000.00 ) , 1. Bench top Freeze dryer 2. Chemical Bath 3. Deep Freezer 4. DSO 5. Fume Hood 6. Laminar Flow 7. Light weight Honeycomb Breadboard 8. Low power lasers (Diode laser) : Semiconductor Diode Laser 9. Low power lasers (He-Ne laser) 10. Magnetic Stirrer with Hotplate 11. Metrohm make water purification system 12. Analytical Balance 13. Dip Coater : Silver Coating System 14. Spin Coater 15. Ultrasonic Bath sonicator ( Rs.0.00 ) , 1. Bench top Freeze dryer 2. Chemical Bath 3. Deep Freezer 4. DSO 5. Fume Hood 6. Laminar Flow 7. Light weight Honeycomb Breadboard 8. Low power lasers (Diode laser) : Semiconductor Diode Laser 9. Low power lasers (He-Ne laser) 10. Magnetic Stirrer with Hotplate 11. Metrohm make water purification system 12. Analytical Balance 13. Dip Coater : Silver Coating System 14. Spin Coater 15. Ultrasonic Bath sonicator ( Rs.0.00 )

Details

Executive Summary :

Nanomaterials are crucial in research due to their optical, electrical, and chemical properties. Synthesis strategies can be top-down or bottom-up, with nanostructured materials produced using various methods. They have various industrial applications in energy, electronics, cosmetics, sensors, medicine, water treatment, and food industry. Sustainable goals include improving renewable energy efficiency, such as solar cells. Photovoltaic research is focusing on thin film and nanomaterials-based solar cells, with ternary materials like CuZnS, CuSnS, and CuSbS being promising candidates. Fluorescent nanomaterials are also being explored for light-emitting applications.

This project aims to develop chemical sensors using fluorescent nanomaterials like metal oxide nanoparticles, quantum dots, and polymers to detect contaminants in water. The project also focuses on improving nutrition and synthesis of functional materials from abundant agro waste resources. The goal is to synthesize novel nanomaterials for LED and solar cell applications, detect poisonous chemicals, determine nonlinear efficiency of nano materials, perform DFT-based simulations, fabricate devices using synthesized nanostructured materials, and evaluate the antimicrobial, antioxidant, and food additive properties of nanocellulose. The project aims to achieve sustainable development goals and reduce environmental impact.

Co-PI:

Dr. Bhagya D, St. Joseph's College For Women, Alappuzha, Kerala (688001), Dr. Julin Joseph, St, Josephs College For Women, Alappuzha, Kerala (688001), Dr. Kumari Nisha S, St.joseph's College For Women, Alappuzha, Kerala (688001), Dr. Sheeja Mol G P, St. Joseph's College For Women, Alappuzha, Kerala (688001)