Dipak Maity
Materials Science · Indiana University
Publications
115
Citations
3,867
Est. group size
—
Recurring co-author estimate
Active years
21
Publishing since 2006
Dipak Maity works in materials science with a focus on nanoparticles for medical and environmental uses. The research spans drug delivery systems, magnetic nanoparticles for cancer treatment and imaging, and sensors (biosensors) made from bio-derived carbon materials. Recent work also touches on nanomaterials for agriculture and diagnostic devices.
Publication activity has grown substantially, rising from around 3-5 papers per year before 2021 to roughly 20 per year in 2024-2025.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Green synthesis of zinc oxide nanoparticles using waste Allium cepa (onion) peel extract and their ROS-mediated cytotoxic activity against A549 lung cancer cells
Frontiers in Chemistry · 2026
- Image-Guided Therapeutic Applications of Theranostic Nanomaterials
Nanotheranostics · 2025
- Biological evaluation of medical devices
Elsevier eBooks · 2025
- Experimental and Computational Assessment of Adsorbates in Ultraclean 2D MoS <sub> 2(1– <i>x</i> ) </sub> Se <sub> 2 <i>x</i> </sub> Nanosheets Treated by Ethanol for Enhanced Photodetector Applications
ACS Applied Nano Materials · 2025
- Introduction to Nanotechnology in Biomedical Diagnostics
2025
- Biosensors for Environmental Monitoring and Pollution Detection
2025
- Evaluating the Molecular Basis of Nanocalcium-Induced Health Regulation in Zebra Fish (Danio rerio)
Bioengineering · 2025
- Biomass-derived carbonaceous materials for environmental applications
Elsevier eBooks · 2025
- Bio-derived smart nanostructures for application as sensors
Elsevier eBooks · 2025
- Non-enzymatic electrochemical determination of hormones using biowaste derived carbon nanomaterials
Elsevier eBooks · 2025
- Analysis of Clinical Samples by Carbon Sensor
2025
- Nanofertilizers for Nutrient Enhancement in Plants and Sustainable Agriculture
ACS symposium series · 2025
- Unlocking Superior MFH Performance Below Hergt’s Biological Safety Limit: SPION-Based Magnetic Nanoplatforms Deliver High Heating Efficiency at Low AMF
Bioengineering · 2025
- Bio-derived carbon quantum dots for fluorescence sensing applications
Elsevier eBooks · 2025
- Biosensors for the Identification of Radioactive Substances and Heavy Metals in Soil and Matter
2025
- Elsevier eBooks×8
- Advanced Materials Letters×6
- Journal of Molecular Liquids×4
- Bioengineering×4
- Preprints.org×4
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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