My areas of interest are printing, additive manufacturing, supercapacitors, surface modification and flexible/wearable electronics. My aim is to provide reliable, cost-effective and simple solutions to manufacture printed, flexible and wearable electronic devices for healthcare, defense, aerospace and other applications.
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Inkjet-printed electrodes on A4 paper substrates for low-cost, disposable, and flexible asymmetric supercapacitors Sundriyal P., Bhattacharya S. By ACS Applied Materials & Interfaces 9 38507-38521 (2017)
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Scalable Micro-fabrication of Flexible, Solid-State, Inexpensive, and High-Performance Planar Micro-supercapacitors through Inkjet Printing. Sundriyal P., Bhattacharya S. By ACS Applied Energy Materials 2 1876-1890 (2019)
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Textile-based hybrid supercapacitors for flexible and wearable electronics applications Sundriyal P., Bhattacharya S. By Scientific Reports 10 1-15 (2020)
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Long-term surface modification of PEEK polymer using plasma and PEG silane treatment Sundriyal P., Sahu M. , Prakash O. , Bhattacharya S. By Surfaces and Interfaces 25 1-12 (2021)
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Method for Enhanced Bonding of Thermoplastic Composites using Interface Modification Sundriyal P., Sahu M. , Prakash O. , Bhattacharya S. By - (2021)
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Plasma-assisted surface alteration of industrial polymers for improved adhesive bonding Sundriyal P., Pandey M. , Bhattacharya S. By International Journal of Adhesion and Adhesives 101 1-18 (2020)
Principal Investigator
- 3D printing of supercapacitors for flexible and wearable electronics
- Digital Manufacturing of Self-powered Flexible and Wearable Electronics/ Wearable Sensors by Hybridizing Nanogenerators, Solar cells and Supercapacitors.
- Paint Adhesion and Development Activities
Co-Principal Investigator
- M N Faruqui innovation centre projects Arjun Malhotra endowment to IIT Kharagpur
Ph. D. Students
Nobel Karmakar
Area of Research: Direct Metal Laser Sintering for Electronic Applications
Sudhansu Sekhar Nath
Area of Research: Printing, Flexible Electronics
