Anamika Sen | Nanostructures | Best Researcher Award

Ms. Anamika Sen, Sungkyunkwan University, South Korea.

Anamika Sen is a highly skilled researcher specializing in 2D-TMD semiconductors, nanostructures, hydrogen evolution reactions, and sensor technologies. Currently a Post-doctoral Researcher at Sungkyunkwan University, South Korea, she is working on fabricating high-performance, flexible phototransistors integrated with memristors for artificial visual systems. Anamika holds a PhD in Engineering from the same institution and has contributed to groundbreaking research in nanoporous thin-film transistors and biosensors. Her research aims to enhance sensor efficiency through nanostructures, with applications in image and biosensors. She is passionate about advancing nano-bio electronics.

Publication profile

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Education and Experience

PhD, Engineering (Sungkyunkwan University, South Korea) – 2024
Master, Physics (IIT (ISM) Dhanbad, India) – 2017
Bachelor, Physics (Lady Brabourne College, University of Calcutta, India) – 2015
Post-doctoral Researcher (SKKU President Fellow) (Sungkyunkwan University, South Korea) – 2024 – Present
Summer Project (Indian Association for Cultivation of Science, Kolkata, India) – 2016

Suitability For The Award

Ms. Anamika Sen is an exceptional post-doctoral researcher at Sungkyunkwan University, South Korea, and a deserving candidate for the Best Researcher Award. With a strong background in 2D Transition Metal Dichalcogenides (TMDs) semiconductors, nanostructures, and biosensor development, Anamika has made significant contributions to the fields of nanomaterials, sensors, and advanced electronics. Her pioneering work in the synthesis and characterization of TMDs for high-performance applications has solidified her position as an emerging leader in nanotechnology and materials science.

Professional Development

Anamika Sen has received multiple prestigious fellowships, including the SKKU President Fellowship for her post-doctoral research. She actively participates in scientific conferences and journal reviews, further enhancing her expertise. She has mentored undergraduate and graduate students in nanostructure fabrication and device technology, contributing to the development of cutting-edge research in materials science. She has worked on collaborative projects funded by the Korean government, such as the development of flexible phototransistors and image sensors. Her passion for advancing nanotechnology in electronics and biosensors drives her continuous professional growth.

Research Focus

Anamika Sen’s research primarily focuses on 2D transition metal dichalcogenides (TMDs) semiconductors and nanostructures, exploring their applications in high-performance sensors, including image and biosensors. Her work involves fabricating thin film transistors and flexible platforms for next-generation electronics, such as phototransistors integrated with memristors for artificial visual systems. She is particularly interested in advancing hydrogen evolution reactions, which contribute to sustainable energy solutions. Through her research, she aims to enhance the sensing efficiency of TMDs by incorporating nanostructures on their surface for more effective and reliable sensors.

Publications Top Notes

Ultrasensitive and Selective Field-Effect Transistor-Based Biosensor Created by Rings of MoS2 Nanopores, ACS Nano, 56 citations, 2021
Optical Enhancement of Indirect Bandgap 2D Transition Metal Dichalcogenides for Multi‐Functional Optoelectronic Sensors, Advanced Materials, 50 citations, 2023
A Wafer‐Scale Nanoporous 2D Active Pixel Image Sensor Matrix with High Uniformity, High Sensitivity, and Rapid Switching, Advanced Materials, 32 citations, 2023
Probing the Efficacy of Large-Scale Nonporous IGZO for Visible-to-NIR Detection Capability: An Approach Toward High-Performance Image Sensor Circuitry, ACS Nano, 29 citations, 2022
Back-End-of-Line Compatible Large-Area Molybdenum Disulfide Grown on Flexible Substrate: Enabling High-Performance Low-Power Memristor Applications, ACS Nano, 27 citations, 2023
Low‐Temperature Plasma‐Assisted Growth of Large‐Area MoS2 for Transparent Phototransistors, Advanced Functional Materials, 26 citations, 2022
Large-Area MoS2 Nanosheets with Triangular Nanopore Arrays as Active and Robust Electrocatalysts for Hydrogen Evolution, The Journal of Physical Chemistry C, 19 citations, 2022
Boosting Sensitivity and Reliability in Field‐Effect Transistor‐Based Biosensors with Nanoporous MoS2 Encapsulated by Non‐Planar Al2O3, Advanced Functional Materials, 11 citations, 2023
Low‐Temperature Carrier Transport Mechanism of Wafer‐Scale Grown Polycrystalline Molybdenum Disulfide Thin‐Film Transistor Based on Radio Frequency Sputtering and Sulfurization, Advanced Materials Interfaces, 9 citations, 2022