Anirban Mitra
Biochemistry, Genetics and Molecular Biology · Indiana University
Publications
220
Citations
5,188
Est. group size
—
Recurring co-author estimate
Active years
40
Publishing since 1986
The publications listed under this name span two distinct areas: cancer biology (particularly ovarian cancer metastasis, microRNA regulation, and the role of cancer-associated fibroblasts) and materials/device physics (thin films, photodetectors, and plasmon-enhanced solar cells made via pulsed laser deposition). The cancer work examines how tumor cells spread and how the surrounding tissue environment drives relapse and metastasis, while the physics work focuses on fabricating and modeling optical and electronic materials. Note that these likely reflect more than one researcher sharing a name.
Publication output was steady at roughly 8-13 per year for most of the decade, with an unusual spike to 45 in 2023 before returning to about 8 per year in 2024-2025.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Strategy to improve the electrical and optical properties of NiO thin films by reactive pulsed laser ablation of Ni under oxygen ambient
Vacuum · 2025
- Plasmon-enhanced hot electron collection in Au–Ag alloy-based zero-bias silicon NIR photodetectors fabricated via pulsed laser deposition
Journal of Materials Science Materials in Electronics · 2025
- Enhanced multifaceted model for plasmon-driven Schottky solar cells with integrated thermal effects
Scientific Reports · 2025
- Impact of ambient oxygen pressure on the structural and optical properties of NiO thin films deposited using pulsed laser deposition and the performance of self-driven p-NiO/n-Si as UV–Visible-NIR photodetectors
Thin Solid Films · 2025
- Advanced Computational Model for Plasmon-Enhanced Schottky Solar Cells Incorporating Thermal Dynamics
2025
- Strategic Interaction Between Queueing System and Impatient User-Base
Lecture notes in computer science · 2025
- DHV-MNet: An Efficient Transformer for Single-Image Dehazing in Surveillance Applications
SSRN Electronic Journal · 2025
- Metastatic niche mediated activation of metastasis initiating cells in ovarian cancer through miR-193b-3p downregulation via the ERK/EZH2/DNMT1 axis
bioRxiv (Cold Spring Harbor Laboratory) · 2025
- Electrically Reconfigurable Phase Change Material-Based Metamaterial Absorber for Broadband Molecular Fingerprint Retrieval
ACS Photonics · 2024
- Ni/n-Si Schottky junction: Self-biased infrared photodetection via hot carrier photoemission
Optik · 2024
- Metastasis and cancer associated fibroblasts: taking it up a NOTCH
Frontiers in Cell and Developmental Biology · 2024
- AI‐Enabled Inverse Design and Molecular Identification Using Phase Change Metamaterial Absorber
Advanced Optical Materials · 2024
- Correction: Identification of miPEP133 as a novel tumor-suppressor microprotein encoded by miR-34a pri-miRNA
Molecular Cancer · 2024
- Enhanced Multifaceted Model for Plasmon-Driven Schottky Solar Cells with Integrated Thermal Effects
Research Square · 2024
- Abstract A097: Targeting ovarian cancer metastasis initiating cells induced by the microenvironment through ERK/EZH2/DNMT1 mediated miR-193b downregulation
Cancer Research · 2024
- Cancer Research×8
- Journal of Materials Science Materials in Electronics×4
- Cancers×3
- Applied Surface Science×3
- Lecture notes in computer science×3
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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