Research specialist, V-Trion textile research GmBH, Austria
Mr. Mohammad Ashaduzzamankhan is a Materials Scientist at V-Trion Textile Research GmbH, Austria, specializing in nanomaterials for batteries, supercapacitors, and biosensors. With a Ph.D. in solid-state lithium-ion batteries (Technical University of Freiberg), he has a Master’s in Advanced Materials from the Technical University of Darmstadt and University of Bordeaux. His work includes developing flexible supercapacitors, modifying nanomaterials, and fabricating textile-based electrodes. His research has been presented at the Smart Materials 2022 conference. Skilled in IR, XRD, and SEM, he is fluent in English and proficient in German and French. πβ‘π§ͺπ§βπ¬
Publication Profile
Google Scholar
Work Experience
Since May 2021, Mr. Mohammad Ashaduzzamankhan has been working as a Research Specialist (Materials Engineer) at V-Trion Textile Research GmbH in Austria. He focuses on the development and fabrication of solid-state batteries, including the synthesis of cathode and anode materials, preparing slurries, and fabricating textile-based electrodes. Additionally, he works on flexible supercapacitors, modifying nanomaterials like reduced graphene oxide and manganese dioxide. His role also includes designing flexible biosensors, preparing sensitive nanomaterials, and utilizing advanced characterization techniques such as IR, XRD, SEM, and XPS. πβ‘π§ͺ
Education
Mr. Mohammad Ashaduzzamankhan is currently pursuing a Ph.D. in Solid State Lithium-Ion Batteries at the Technical University of Freiberg (Germany), starting in September 2024. He completed his M.Sc. in Advanced Materials Innovative Recycling (AMIR) from the Technical University of Darmstadt (Germany) and University of Bordeaux (France) in 2020, with a thesis on graphene-PMMA composites for gas sensors. Earlier, he earned an M.Sc. in Physical Chemistry and a B.Sc. in Chemistry from the University of Rajshahi (Bangladesh). πππ§ͺ
Research Focus
Mr. Mohammad Ashaduzzamankhan’s research primarily revolves around smart textiles, energy storage systems, and biosensors. His work explores nanocomposites for wearable electronics, including smart-textile sensors for human health monitoring, energy harvesting, and vital sign detection. He focuses on developing piezoelectric and triboelectric textiles for self-powered devices and supercapacitors for wearable energy storage. Additionally, his research includes advanced nanomaterials for sensors and high-rate supercapacitors. His contributions are pivotal in flexible electronics and healthcare technology applications. π§΅ππ±π‘
Publication Top Notes
- “Modified graphene-based nanocomposite material for smart textile biosensor to detect lactate from human sweat” β Cited by 46, 2021 ππ¬
- “Smart-textile strain sensor for human joint monitoring” β Cited by 34, 2022 π¦΅π
- “A review on advanced nanocomposites materials based smart textile biosensor for healthcare monitoring from human sweat” β Cited by 29, 2023 π©Ίπ§΅
- “A piezoelectric smart textile for energy harvesting and wearable self-powered sensors” β Cited by 27, 2022 β‘π§€
- “Wearable socks with single electrode triboelectric textile sensors for monitoring footsteps” β Cited by 21, 2021 π£π§¦
- “Smart-textile supercapacitor for wearable energy storage system” β Cited by 18, 2023 ππ§΅
- “Roll to roll triboelectric fiber manufacturing for smart-textile self-powered sensor and harvester” β Cited by 17, 2023 πβοΈ
- “Autonomous Triboelectric Smart Textile Sensor for Vital Sign Monitoring” β Cited by 6, 2024 ππ
- “Industrially Scalable Piezoresistive Smart-Textile Sensor for Flexible Electronics Application” β Cited by 5, 2023 π§βπ¬π‘
- “Textile geometry associated with advanced nanomaterials for high rate supercapacitors” β Cited by 5, 2023 π π