Dharavath Anusha | Power Electronics | Best Researcher Award

Ms. Dharavath Anusha | Power Electronics | Best Researcher Award

Ms. Dharavath Anusha, NATIONAL INSTITUTE OF TECHNOLOGY, India

Ms. Dharavath Anusha is an Electrical Engineer pursuing a Ph.D. from the National Institute of Technology, Warangal, specializing in High Gain Bidirectional DC-DC converters and Power Electronics ⚡. She holds an M.Tech. in Industrial Power and Automation from NIT Calicut and a B.Tech. in Electrical and Electronics Engineering from Balaji Institute of Technology, Warangal 🎓. Her research interests include renewable energy sources and designing high-gain DC-DC converters for electric vehicles and power systems 🌱. With several publications and technical expertise in MATLAB, d-space, and Python 💻, she actively contributes to advanced power electronics research.

 

Publication Profile

Google Scholar

Academic Qualifications

Ms. Anusha holds a Ph.D. from the National Institute of Technology (NIT) Warangal, focusing on High Gain Bidirectional DC-DC converters and Power Electronics. She also completed her M.Tech. in Industrial Power and Automation from NIT Calicut with distinction. Her B.Tech. in Electrical and Electronics Engineering was earned with distinction from Balaji Institute of Technology and Sciences, Warangal. She has a strong academic background that underpins her technical skills.

Areas of Interest

Her primary areas of interest include Renewable Energy Sources, Distributed Generation, and the Design of High-Gain DC-DC Power Converters. These areas align with her work in power electronics and renewable energy applications, making her a valuable contributor to the field.

Academic & Extracurricular Activities

She has actively participated in several technical programs and workshops, including training on National Instruments LabVIEW, OPAL-RT for HIL applications, and PLC-SCADA workshops. Her involvement in these activities shows her commitment to continuous learning and collaboration in the research community.

Conclusion

Ms. Dharavath Anusha’s academic credentials, technical expertise, research experience, and commitment to advancing power electronics and renewable energy systems make her a strong candidate for the Best Researcher Award. She has consistently demonstrated excellence through her projects and publications, aligning with the award’s objective of recognizing groundbreaking research.

 

Publication Top Notes

  • Ultra-fast DC charger with improved power quality and optimal algorithmic approach to enable V2G and G2V (Cited by: 12) 📄 | 2020
  • A novel single-input multi-port isolated bi-directional converter for EV applications (Cited by: 4) 📊 | 2021
  • A Review and Comprehensive Study on DC-DC Converters (Cited by: N/A) 📚 | 2024
  • Analysis and Design of transformer less Single Switch based High Gain DC-DC Converter for Renewable Energy Applications (Cited by: N/A) 🔋 | 2023

Thi Sinh Vo | Materials Science | Best Researcher Award | 11208

Dr. Thi Sinh Vo | Materials Science | Best Researcher Award

Dr. Thi Sinh Vo, Sungkyunkwan University, South Korea

Dr. Thi Sinh Vo is a well-qualified candidate for the “Best Researcher Award” based on her impressive academic background, extensive research experience, and significant contributions to engineering, materials science, and environmental solutions. Below is an analysis of her suitability for the award:

Profile

Google Scholar

Academic Background

Dr. Thi Sinh Vo completed her Ph.D. in Mechanical Engineering at Sungkyunkwan University, South Korea, with a high GPA of 3.95/4.5. Her thesis focused on “Chitosan-Based Functional Composites for Organic Dye Adsorption and Piezoresistive Sensing,” showcasing her expertise in material synthesis and characterization. She also holds a Master’s degree in Chemical Engineering from Daegu University, South Korea, and a Bachelor’s degree in Materials Science from HCM City University of Science, Vietnam National University. Her diverse educational qualifications provide a solid foundation for interdisciplinary research.

Awards and Achievements

Dr. Vo has received numerous prestigious awards, including the Best Paper Award in Progress in Natural Science: Materials International (2022) and the Best Researcher Award at the International Popular Scientist Awards (2024). Her work has also been recognized with an Outstanding Paper Award at the Nano Convergence Special Session (2022) and a Cover Page Article in ACS Applied Bio Materials (2022). Such accolades reflect her standing as an innovative and highly regarded researcher.

Research Experience

Dr. Vo’s research experience spans various areas, including designing composite membranes for environmental applications like dye removal, flexible materials for human motion sensing, and nanocomposites for biosensors. She has contributed to significant projects under the National Research Foundation of Korea and worked collaboratively with interdisciplinary teams. Her ability to mentor graduate students and lead projects further demonstrates her leadership and contribution to academia.

Work Experience

In addition to her academic and research accomplishments, Dr. Vo has practical experience as a Chemical Engineer in the manufacturing industry, optimizing processes in footwear production, developing water-based adhesives, and training workers in plastic and injection molding techniques. This blend of academic excellence and industry experience enhances her candidacy for the Best Researcher Award.

Skills and Professional Activities

Dr. Vo is skilled in operating advanced instruments for material analysis and has published widely in international journals. She actively serves as a reviewer for leading journals like Journal of Cleaner Production and Biomaterials Advances, highlighting her influence in the scientific community.

Research Interests

Her research interests include functional composites and structures, electromechanical sensors, biosensing, and water treatment for organic dye removal. This aligns with critical areas of global concern, positioning her research as impactful and timely.

 

✍️Publication Top Notes

  • Heavy metal removal applications using adsorptive membranes (TS Vo, MM Hossain, HM Jeong, K Kim) – Nano Convergence 7 (1), 36 – Cited by: 183 📆 2020
  • Recycling performance of graphene oxide-chitosan hybrid hydrogels for removal of cationic and anionic dyes (TS Vo, TTBC Vo, JW Suk, K Kim) – Nano Convergence 7 (1), 1-11 – Cited by: 66 📆 2020
  • Enhancement of water absorption capacity and compressibility of hydrogel sponges prepared from gelatin/chitosan matrix with different polyols (TS Vo, TTBC Vo, TT Tran, ND Pham) – Progress in Natural Science: Materials International 32 (1), 54-62 – Cited by: 29 📆 2022
  • Turmeric (Curcuma longa L.): Chemical components and their effective clinical applications (TS Vo, TTBC Vo, TTTN Vo, TNH Lai) – Journal of the Turkish Chemical Society Section A: Chemistry 8 (3), 883-898 – Cited by: 21 📆 2021
  • Graphene Oxide–Chitosan Network on a Dialysis Cellulose Membrane for Efficient Removal of Organic Dyes (TS Vo, MM Hossain, TG Lim, JW Suk, S Choi, K Kim) – ACS Applied Bio Materials 5 (6), 2795-2811 – Cited by: 19 📆 2022
  • Organic dye removal and recycling performances of graphene oxide-coated biopolymer sponge (TS Vo, TTBC Vo) – Progress in Natural Science: Materials International 32 (5), 634-642 – Cited by: 18 📆 2022
  • Incorporation of hydroxyapatite in crosslinked gelatin/chitosan/poly(vinyl alcohol) hybrids utilizing as reinforced composite sponges, and their water absorption ability (TS Vo, TTBC Vo, TS Nguyen, ND Pham) – Progress in Natural Science: Materials International 31 (5), 664-671 – Cited by: 17 📆 2021
  • Graphene oxide-covered melamine foam utilizing as a hybrid foam toward organic dye removal and recyclability (TS Vo, TTBC Vo) – Progress in Natural Science: Materials International 32 (3), 296-303 – Cited by: 16 📆 2022
  • Modification of the Interfacial Glass Fiber Surface Through Graphene Oxide-Chitosan Interactions for Excellent Dye Removal as an Adsorptive Membrane (TS Vo, MM Hossain, TG Lim, JW Suk, S Choi, K Kim) – Journal of Environmental Chemical Engineering 10 (6), 108965 – Cited by: 13 📆 2022
  • Crosslinked 3D porous composite foams as adsorbents for efficient organic dye removal (TS Vo, MM Hossain, J Lee, J Suhr, K Kim) – Environmental Technology & Innovation 29, 102986 – Cited by: 11 📆 2023

Conclusion

Dr. Thi Sinh Vo’s exceptional academic achievements, groundbreaking research, industry experience, and numerous awards make her an ideal candidate for the Best Researcher Award. Her contributions to material science, environmental solutions, and biosensing technologies highlight her as a forward-thinking and impactful researcher.

 

Jun QIAN | Biomedical Photonics | Best Researcher Award

Prof. Jun QIAN | Biomedical Photonics | Best Researcher Award

Prof. Jun QIAN, Centre for Optical and Electromagnetic Research of Zhejiang University, China

Based on the information provided, Prof. Dr. Jun Qian appears highly suitable for the Research for Best Researcher Award.

Publication profile

Education and Professional Background

Prof. Dr. Jun Qian earned his Bachelor and Ph.D. degrees from the Department of Optical Engineering at Zhejiang University in 2004 and 2009, respectively. He has enriched his research experience as a visiting scholar with Prof. Paras Prasad’s Group at the University at Buffalo (2006-2007) and with Prof. Ben Zhong Tang’s Group at the Hong Kong University of Science and Technology in late 2016. Currently, he serves as a professor in the College of Optical Science and Engineering at Zhejiang University.

Research Focus and Achievements

Prof. Qian’s research specializes in Biomedical Photonics, particularly in deep-tissue and high-resolution in vivo high-order nonlinear optical microscopy and NIR-II fluorescence bioimaging. His contributions to the field are substantial, with over 90 publications as first or corresponding author. Notably, more than 50 of these papers are published in high-impact journals such as Nature Communications, Light: Science & Applications, and Advanced Materials. His work has been cited over 8,000 times, and he has an H-index of 55.

Recognition and Contributions

Dr. Jun Qian has delivered invited talks at over 60 international and domestic conferences, showcasing his expertise and impact in the field of optical engineering and biomedical photonics.

Publication Top Notes

  • Using 915 nm laser excited Tm3+/Er3+/Ho3+-doped NaYbF4 upconversion nanoparticles for in vitro and deeper in vivo bioimaging without overheating irradiationACS Nano – Cited by: 567 – Year: 2011 📈🔬
  • AIE luminogens for bioimaging and theranostics: from organelles to animalsChem – Cited by: 517 – Year: 2017 🧬🔬
  • Sensitivity enhancement of transition metal dichalcogenides/silicon nanostructure-based surface plasmon resonance biosensorScientific Reports – Cited by: 404 – Year: 2016 📊🔬
  • Real-Time and High-Resolution Bioimaging with Bright Aggregation‐Induced Emission Dots in Short‐Wave Infrared RegionAdvanced Materials – Cited by: 370 – Year: 2018 🌟🔬
  • Design of AIEgens for near-infrared IIb imaging through structural modulation at molecular and morphological levelsNature Communications – Cited by: 328 – Year: 2020 🧪🔬
  • Multifunctional gold nanorods with ultrahigh stability and tunability for in vivo fluorescence imaging, SERS detection, and photodynamic therapyAngewandte Chemie International Edition – Cited by: 268 – Year: 2013 🏆🔬
  • Quantum rod bioconjugates as targeted probes for confocal and two-photon fluorescence imaging of cancer cellsNano Letters – Cited by: 252 – Year: 2007 🎯🔬
  • Semiconducting Polymer Nanoparticles as Theranostic System for Near-Infrared-II Fluorescence Imaging and Photothermal Therapy under Safe Laser FluenceACS Nano – Cited by: 246 – Year: 2020 💡🔬
  • Localized surface plasmon resonance enhanced organic solar cell with gold nanospheresApplied Energy – Cited by: 222 – Year: 2011 ☀️🔬
  • Single-molecular near-infrared-II theranostic systems: ultrastable aggregation-induced emission nanoparticles for long-term tracing and efficient photothermal therapyACS Nano – Cited by: 221 – Year: 2018 🔬💫
  • Aggregation-induced emission luminogen with near-infrared-II excitation and near-infrared-I emission for ultradeep intravital two-photon microscopyACS Nano – Cited by: 200 – Year: 2018 🔭🔬
  • Ultrastable and Biocompatible NIR‐II Quantum Dots for Functional BioimagingAdvanced Functional Materials – Cited by: 192 – Year: 2018 🧪🔬
  • Upconverting nanoparticles for pre‐clinical diffuse optical imaging, microscopy and sensing: Current trends and future challengesLaser & Photonics Reviews – Cited by: 188 – Year: 2013 🔬🔭
  • Precise Deciphering of Brain Vasculatures and Microscopic Tumors with Dual NIR‐II Fluorescence and Photoacoustic ImagingAdvanced Materials – Cited by: 185 – Year: 2019 🧠🔬
  • Observation of multiphoton‐induced fluorescence from graphene oxide nanoparticles and applications in in vivo functional bioimagingAngewandte Chemie – Cited by: 181 – Year: 2012 🌟🔬
  • Biologically Inspired Polydopamine Capped Gold Nanorods for Drug Delivery and Light-Mediated Cancer TherapyACS Applied Materials & Interfaces – Cited by: 180 – Year: 2016 💊🔬


Conclusion

Prof. Dr. Jun Qian’s impressive academic background, significant research contributions, high citation count, and active engagement in the scientific community underscore his suitability for the Research for Best Researcher Award. His pioneering work in advanced imaging techniques and substantial publication record highlight his outstanding achievements and leadership in his field.