NANO-STRUCTURED MATERIALS IN BANGLADESH: ENERGY, ENVIRONMENT & BIOMEDICINE
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Abstract
Nano-structured materials, small features have big impact nanoscale structure based powerful technologies for energy storage, environmental remediation and health care have led in the era of new nanotechnologies. In Bangladesh, where increasing energy need, continuous water/soil polution and burden over healthcare strains are integrated and so the search for a material with appropriate properties that enhance electrochemical performance, pollutant removal as well as biological safety is highly relevent. The present research provides a quantitative analysis of surface area (m2/g), battery capacity (mAh/g), adsorption efficiency (%), and biocompatibility index in longterm relationship periods from 1995 to February 2024. The results indicate a solid, uniform trend of improvement over time. As surface area 10 m2/g (1995) increased clearly to 1961.53 m2/g (2024). At the same time, the battery capacity increased from 53.45 mAh/g to 391.76 mAh/g, adsorption efficiency increased from 21.04% to 99%, and biocompatibility index also enhanced from 0 to 100 over this period. After surface area reached approximately 1000 m2/g (e.g., 1096.56 m2/g in 2010), adsorbent efficiency and biocompatibility were significantly improved with accelerated speed, to reach 95.52% and >94.67 by the year of 2022, respectively. Overall, the findings nanostructured materials with high accessible surface area can potentially serve a concurrent role in improving performance of energy devices and pollutant capture as well as safety of material-biology interfaces in biomedicine -an important technology development standard in Bangladesh. "
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Publication Details
- Type of Publication:
- Conference Name: International Conference on Physics 2026
- Date of Conference: 04/09/2026 - 04/09/2026
- Venue: University of Dhaka
- Organizer: Bangladesh Physical Society (BPS)