Ajeet Chandra | Material Synthesis | Best Researcher Award

Posted on 11/04/202516/04/2025 by ScienceFather

Ajeet Chandra | Material Synthesis | Best Researcher Award

Dr. Ajeet Chandra, Kyung Hee University, Seoul, South Korea.

Dr. Ajeet Chandra is a Research Professor in Organic Material Chemistry (OLED Synthesis) at Kyung Hee University, Seoul 🇰🇷. With a Ph.D. in Organic Chemistry from IIT Kanpur 🇮🇳, he brings over 8 years of experience in synthetic organic chemistry 🧪. His research spans hypervalent iodine chemistry, peptide synthesis, asymmetric catalysis, and OLED material development 🌈. Dr. Chandra has published widely and served as a reviewer for prestigious journals 📚. Passionate about scientific discovery and innovation, he actively engages in OLED material design for red, blue, and green light emission applications 🔴🟢🔵.

Publication Profiles

Orcid

Scopus

Googlescholar

Education & Experience

🎓 Education:

🧪 Ph.D. in Organic Chemistry – IIT Kanpur (2014–2020)
🧫 Pre-PhD Research in Peptide Chemistry – IIT Delhi (2013–2014)
🧬 M.Sc. in Organic Chemistry – University of Allahabad (2010–2012)
🔬 B.Sc. in Chemistry, Zoology, Botany – VBS Purvanchal University (2007–2010)
📘 Intermediate Science – UP Board (2005–2007)
📗 High School – UP Board (2003–2005)

🔬 Research/Professional Experience:

📍 Research Professor – OLED Synthesis, Kyung Hee University, South Korea (2023–Present)
🧪 Institute-PDF – Asymmetric Catalysis, IIT Bombay (2021–2023)
⚗️ Research Scholar – Hypervalent Iodine Chemistry, IIT Kanpur
🔎 Pre-PhD Researcher – Peptide Chemistry, IIT Delhi

Summary Suitability For The Award

Dr. Ajeet Chandra, currently serving as a Research Professor at Kyung Hee University, Seoul, South Korea, exemplifies the qualities of an outstanding scientist and innovator in the field of Organic Chemistry. With a research portfolio that spans across material synthesis for OLED applications, hypervalent iodine chemistry, asymmetric catalysis, peptide chemistry, and medicinal biology, Dr. Chandra has continually pushed the boundaries of synthetic organic chemistry through impactful research and academic excellence. His dedication, scholarly output, and interdisciplinary approach make him a highly deserving candidate for the Best Researcher Award.

Professional Development

Dr. Ajeet Chandra has cultivated a dynamic research profile through extensive academic and laboratory experiences across India and South Korea 🇮🇳🇰🇷. He developed a deep expertise in organic synthesis, asymmetric catalysis, and modern reagent chemistry ⚗️. At IIT Kanpur and Bombay, he engaged in high-level research in hypervalent iodine chemistry and sulfonylphthalides 🧪. Currently, at Kyung Hee University, he focuses on OLED material synthesis, working on MR-emitters and BODIPYs 🔬. His career is enriched by international collaborations, peer-review contributions 📄, teaching lab techniques, and continuous skill upgrades in analytical instrumentation and molecular modeling 🧫🧠.

Research Focus

Dr. Ajeet Chandra’s research is centered around organic material chemistry with a strong emphasis on OLED material synthesis for red, green, and blue light-emitting devices 🔴🟢🔵. His expertise includes the design of MR-emitters, BODIPYs, and TADF molecules for device applications 💡. He has also worked on hypervalent iodine-mediated oxidative transformations, peptide chemistry, and asymmetric catalysis 🔬. Dr. Chandra’s interdisciplinary approach spans chemistry, biology, and material sciences, with a keen interest in understanding reaction mechanisms and molecular interactions ⚛️. His current projects focus on novel materials for advanced display technologies and drug synthesis applications 💊📱.

Awards & Honors

🎖️ Editorial Board Member of Modern Chemistry (MC), 2025–2028
🏅 Certificate of Excellence in Peer-Reviewing (Medical Science), B.P. International, 2024
📜 Appointed Research Professor at Kyung Hee University, Seoul, 2023
🧪 Institute-Postdoctoral Fellowship, IIT Bombay, 2021
🧠 CSIR-JRF Qualified, June 2012 – AIR 36
📘 CSIR-JRF Qualified, Dec 2013 – AIR 29
📊 GATE (CY) Qualified, 2018 – AIR 1418
📊 GATE (XL) Qualified, 2022 – AIR 5249
🥈 2nd Prize, Chemical Society & ISCA, 2011
🥇 Best Paper Award, ICSCC-2020, GD Goenka University
🏅 3rd Rank – MSc at University of Allahabad

Publication Top Noted

Facile synthesis of isatins by direct oxidation of indoles and 3-iodoindoles using NIS/IBX – 32 citations, 2019 📘🧪
One-pot synthesis of α-bromo-and α-azidoketones from olefins by catalytic oxidation with in situ-generated modified IBX as the key reaction – 29 citations, 2017 ⚗️🔁
Oxidation of thiols to sulphonic acids with Oxone®/NaHCO₃ and KBrO₃ – 28 citations, 2016 💥🧫
Self-assembly of lipidated pseudopeptidic triazolophanes to vesicles – 16 citations, 2014 🧬🌐
One-Pot Synthesis of 4-Carboalkoxy-Substituted Benzo[h]coumarins from α- and β-Naphthols and Their Excited-State Properties – 13 citations, 2019 🌟🔬
Structural optimization of BODIPY derivatives: achieving stable and long-lived green emission in hyperfluorescent OLEDs – 9 citations, 2024 💡🌿
Enantioselective Desymmetrization of Curcumins with 3‐Olefinic Oxindoles for the Synthesis of Spirocyclohexanoneoxindoles – 4 citations, 2023 🌀🧪
Oxidation of Thiols with IBX or DMP: One-Pot Access to Thiosulfonates or 2-Iodobenzoates and Applications in Functional Group Transformations – 3 citations, 2023 🔁🧬

Ponnusamy Shanmugam | Synthesis | Best Researcher Award

Posted on 14/03/202514/03/2025 by ScienceFather

Ponnusamy Shanmugam | Synthesis | Best Researcher Award

Prof. Dr. Ponnusamy Shanmugam, Central Leather Research Institute(CLRI), India.

Prof. Dr. P. Shanmugam 🎓 is a distinguished Chief Scientist and Head of Chemistry at AcSIR, with a remarkable career spanning decades in organic and bio-organic chemistry. Born in Bommidi, Tamil Nadu 🇮🇳, he earned his Ph.D. in Organic Synthesis from the University of Madras and pursued post-doctoral research at Princeton University, USA 🇺🇸 (BOYSCAST Fellow) and Hokkaido University, Japan 🇯🇵 (JSPS Fellow). With extensive experience at CSIR-CLRI and NIIST, he has mentored numerous M.Sc., M.Phil., and Ph.D. scholars. A distinguished member of multiple prestigious scientific societies 🌏, his contributions to synthetic and organometallic chemistry have earned him several national and international honors 🏆.

Publication Profile

Scopus

Googlescholar

Education & Experience

📚 Education

🎓 B.Sc. (Chemistry) – University of Madras, 1987 (First Class)
🎓 M.Sc. (Organic Chemistry) – University of Madras, 1989 (First Class)
🎓 Ph.D. (Synthetic Organic Chemistry) – University of Madras, 1998
🏅 Post-Doctoral Research – Princeton University, USA (1999-2000) 🔬
🏅 Post-Doctoral Research – Hokkaido University, Japan (2002-2003) 🧪

💼 Professional Experience

🏢 Chief Scientist & Head – CLRI, Chennai (2020-Present)
🏢 Senior Principal Scientist – CLRI, Chennai (2012-2020)
🏢 Principal Scientist – CLRI & NIIST, Trivandrum (2007-2012)
🏢 Senior Scientist & Scientist – NIIST, Trivandrum (1999-2007)
🏢 Junior Scientist & Research Fellow – University of Madras (1989-1999)

Suitability Summary

Prof. Dr. P. Shanmugam, Chief Scientist, Head, and Professor of Chemistry at AcSIR, New Delhi, is a distinguished researcher in organic and bio-organic chemistry, making him a highly suitable candidate for the Best Researcher Award. With an illustrious career spanning over three decades, he has made remarkable contributions to synthetic organic chemistry, organometallics, and advanced stereocontrol techniques. His pioneering research in total synthesis, radical cyclization, and oxy-Cope rearrangement has positioned him as a leading scientist in the field.

Professional Development

Prof. Dr. P. Shanmugam 🧪 has made significant contributions to synthetic organic chemistry, particularly in radical cyclization and organometallic chemistry. As a mentor, he has guided numerous Ph.D. and M.Sc. students 🎓, shaping future scientists. He is an active member of esteemed organizations like ACS 🇺🇸, CRSI 🇮🇳, and ICS 📖. His research projects, funded by DST and CSIR 💰, focus on innovative synthetic methodologies. Recognized globally, he has collaborated with prestigious institutions, received multiple fellowships 🏆, and contributed to cutting-edge research. His leadership at CLRI, Chennai, continues to advance organic and bio-organic chemistry. 🔬🌿

Research Focus

Prof. Dr. P. Shanmugam 🔬 specializes in synthetic organic chemistry, focusing on organometallics, radical cyclization, and total synthesis of bioactive compounds 🧪. His work in stereoselective synthesis and green chemistry approaches contributes to pharmaceuticals 💊 and agrochemicals 🌿. With expertise in acyclic stereocontrol and oxy-Cope rearrangement, he explores novel reaction mechanisms. His interdisciplinary research integrates bio-organic and medicinal chemistry, optimizing synthetic methodologies for industrial applications 🏭. He actively collaborates with global institutions 🌍, advancing chemical sciences through innovative synthetic strategies. His research supports sustainable chemistry and drug discovery, making significant contributions to modern chemical advancements. 🏆🔍

Awards & Honors 🏆

🏅 CSIR-UGC NET (1989) & GATE (1990) Qualified
🏅 CSIR-UGC NET (1993) & SLST (1993) Qualified
🏅 BOYSCAST Fellowship (1998-1999) – Princeton University, USA 🇺🇸
🏅 JSPS Fellowship (2002-2003) – Hokkaido University, Japan 🇯🇵
🏅 Recognized Research Guide – University of Madras, Kerala University, Anna University 🎓
🏅 Life Member – CRSI, ICS, SBC (India) & ACS (USA) 📚
🏅 Board of Studies Member – Kongunadu Arts & Science College, SRM University 📖
🏅 Principal Investigator – Multiple DST & CSIR Research Projects 💰

Publication Top Notes

Synthesis of novel functionalized 3-spiropyrrolizidine and 3-spiropyrrolidine oxindoles | Organic Letters | 2007 | Cited by: 171

An efficient stereoselective synthesis of 3-spirocyclopentene-and 3-spiropyrazole-2-oxindoles | Chemical Communications | 2010 | Cited by: 109

Pyridine Core Activation via 1,5-Electrocyclization of Vinyl Pyridinium Ylides | Organic Letters | 2010 | Cited by: 97

A facile and efficient synthesis of highly functionalised 3,3′-dispiropyrrolidine-and 3,3′-dispiropyrrolizidine bisoxindoles | Tetrahedron Letters | 2008 | Cited by: 75

Synthesis of functionalized 3-spirocyclopropane-2-indolones from isomerised Baylis–Hillman adducts of isatin | Tetrahedron | 2006 | Cited by: 73

Studies on montmorillonite K10-microwave assisted isomerisation of Baylis–Hillman adduct | Tetrahedron | 2004 | Cited by: 64

Development of an approach to the synthesis of the plakortones | Tetrahedron Letters | 2000 | Cited by: 54

Stereoselective synthesis of tri-and tetrasubstituted oxepanes via n-Bu3SnH mediated 7-endo-trig vinyl radical cyclisation | Tetrahedron Letters | 2005 | Cited by: 51

Adrian David | Synthesis | Best Researcher Award

Posted on 12/03/202512/03/2025 by ScienceFather

Adrian David | Synthesis | Best Researcher Award

Prof. Dr. Adrian David, University of Caen Normandy, France.

Dr. Adrian David is an Associate Professor at UNICAEN and Deputy Head of the Chemistry, Physics, and Engineering Department in Caen, France. He specializes in materials science, focusing on vanadates, nickelates, and titanates thin films. His research involves PLD synthesis, superlattice optimization, and interfacial studies. With over 54 publications, he has led multiple funded projects, including OpTCO and Citron. He has supervised several Ph.D. students and serves as a Guest Editor for the journal Coatings. His contributions in thin film growth and epitaxial structures make him a key figure in advanced materials research. 🏗️📡

Publication Profile

Scopus

Education & Experience

Ph.D. in Materials Science (2010) – University of Caen 🏅
Postdoctoral Fellow (2011-2012) – Nanyang Technological University, Singapore 🌏
Lecturer (2012-2013) – University of Caen Basse-Normandie 📚
Associate Professor (2013-present) – UNICAEN-CRISMAT 🔬
Deputy Head of Chemistry, Physics, and Engineering Department (2021-present) – UNICAEN 🏫

Suitability Summary

Dr. Adrian David, an Associate Professor at UNICAEN and Deputy Head of the Chemistry, Physics, and Engineering Department, is a distinguished researcher in materials science, making him a highly suitable candidate for the Best Researcher Award. His expertise lies in thin film synthesis, superlattices, and poly-oriented substrates, with a strong focus on vanadates, nickelates, and titanates. Through pioneering work in Pulsed Laser Deposition (PLD), X-ray diffraction (XRD), and Transmission Electron Microscopy (TEM), he has significantly contributed to advancing the field.

Professional Development

Dr. Adrian David has built a strong academic career in materials science, with a primary focus on thin film synthesis, structural analysis, and interface engineering. He has served as a Guest Editor for the journal Coatings, leading special issues on epitaxial thin film growth. He actively collaborates with international research teams, securing funding for national and state-funded projects like OpTCO and Citron. His research employs advanced characterization techniques such as XRD, SEM, TEM, EBSD, PPMS, and SQUID, ensuring high-impact contributions to thin-film physics and functional materials. 🏗️🔍📡

Research Focus

Dr. Adrian David’s research lies in the synthesis, characterization, and optimization of thin films, particularly in vanadates, nickelates, and titanates. His expertise spans PLD (Pulsed Laser Deposition) techniques, epitaxial growth, and interface studies. Using RHEED, XRD, SEM, and TEM, he investigates the correlation between material structures and properties. His work extends to multilayered superlattices for applications in nanoelectronics and functional materials. As a project leader, he explores novel coatings and thin-film engineering to enhance device performance and industrial applications. His research contributes significantly to the development of next-generation materials for advanced technologies. 🏗️⚡📊

Awards & Honors 🏆

Deputy Head of Chemistry, Physics, and Engineering Department – UNICAEN (2021-present) 🏫
Editorial Board Member – Coatings (since 2019) 📝
Guest Editor – Coatings: State-of-the-Art Research in France (2020) 🇫🇷
Guest Editor – Coatings: Recent Progress in Epitaxial Growth of Thin Films (2024) 🏗️
Project Leader – OpTCO (2020-2022) & Citron (2021-2025) 🔬💡

Publication Top Notes

Influence of the SrVO₃ thin film thickness integrated on glass thanks to [Ca₂Nb₃O₁₀]⁻ nanosheets – Applied Surface Science, 2025 –

Tuning the Transparency Window of SrVO₃ Transparent Conducting Oxide – ACS Applied Materials and Interfaces, 2024 –

Investigation of optical transitions and electrical properties in LaVO₃/SrTiO₃ heterostructure – Materials Science in Semiconductor Processing, 2024 – Cited by: 2

Enhancing implant performance: 20% reduction in Pseudomonas aeruginosa bacterial initial formation with Cu₀.₇₅Ti₀.₂₅O₂ coating – AIP Advances, 2023 –

Scanning Precession Electron Tomography (SPET) for Structural Analysis of Thin Films along Their Thickness – Symmetry, 2023 – Cited by: 1

Jin Bai | Material Synthesis | Best Researcher Award

Posted on 04/02/202504/02/2025 by ScienceFather

Jin Bai | Material Synthesis | Best Researcher Award

Assoc. Prof. Dr. Jin Bai, Chinese Academy of Sciences, China.

Jin Bai is a dedicated researcher specializing in materials physics and chemistry, with a strong focus on functional materials and nanotechnology. He has contributed extensively to material synthesis, structural analysis, and advanced applications in energy storage and electronics. As a Special Associate Research Fellow at the Hefei Institutes of Physical Science, he continues to drive innovation through cutting-edge research. Recognized for his excellence, he has received multiple honors, including the ‘Hefei E Class High-Level Talents’ award. With numerous publications and a passion for discovery, he remains at the forefront of scientific advancements in materials science.

Publivation Profiles

SCOPUS

Education and Experience

Ph.D. in Materials Physics and Chemistry (2015–2020)
- University of Science and Technology of China (USTC)
Bachelor’s in Materials Physics (2011–2015)
- Huaibei Normal University, China
Special Associate Research Fellow (2024–Present)
- Hefei Institutes of Physical Science, Chinese Academy of Sciences
Postdoctoral Fellow (2020–2023)
- Hefei Institutes of Physical Science, Chinese Academy of Sciences

Suitability summary

Assoc. Prof. Dr. Jin Bai, a Special Associate Research Fellow at the Hefei Institutes of Physical Science, Chinese Academy of Sciences, is honored with the Best Researcher Award for his outstanding contributions to materials physics, nanomaterials, and advanced material synthesis. His research has significantly impacted cutting-edge material design, physical property optimization, and innovative applications in energy and electronic devices. His excellence has been recognized through multiple prestigious awards, including the ‘Hefei E-Class High-Level Talent’ Honor (2025) and the ‘Excellent Postdoctor’ Honor (2021-2023).

Professional Development

Jin Bai has built a distinguished career in materials physics, focusing on advanced materials and their applications in science and industry. During his postdoctoral tenure (2020-2023), he worked extensively on cutting-edge materials research, leading to significant innovations. Now, as a Special Associate Research Fellow, he is deeply involved in experimental and theoretical studies aimed at advancing functional materials. His work is widely recognized for its impact on materials science, contributing to global scientific knowledge. With an eye on the future, Jin Bai continues to drive research excellence, mentoring young scientists and collaborating internationally.

Research Focus

Jin Bai specializes in materials physics and chemistry, with a strong focus on functional materials, nanotechnology, and applied materials research. His research explores material synthesis, structural analysis, and functional properties to enhance applications in electronics, energy storage, and environmental solutions. He investigates nanomaterials, quantum materials, and bio-inspired materials to develop next-generation technological solutions. His work integrates theoretical and experimental approaches, bridging gaps in advanced material development. With numerous publications and honors, his research significantly contributes to the scientific community, driving innovation in high-performance materials for sustainable and technological applications.

Awards And Honours

2025 – ‘Hefei E Class High-Level Talents’ honor, Hefei, Anhui, China
2021-2023 – ‘Excellent Postdoctoral’ honor, Hefei Institutes of Physical Science, Chinese Academy of Sciences
2020 – ‘Excellent PhD Graduate’ honor, University of Science and Technology of China (USTC)

Publication Top Noted

Enhanced electrochemical characteristics of MnO anode induced cobalt dopant for Li-ion batteries (2025) – 0 citations

Ca/Li Synergetic-Doped Na0.67Ni0.33Mn0.67O2 to Realize P2-O2 Phase Transition Suppression for High-Performance Sodium-Ion Batteries (2024) – 0 citations

Amino Group-Aided Efficient Regeneration Targeting Structural Defects and Inactive FePO4 Phase for Degraded LiFePO4 Cathodes (2024) – 0 citations

Regulation of Sulfur Atoms in MoSx by Magneto-Electrodeposition for Hydrogen Evolution Reaction (2024) – 1 citation

Two Birds with One Stone: V4C3 MXene Synergistically Promoted VS2 Cathode and Zinc Anode for High-Performance Aqueous Zinc-Ion Batteries (2024) – 11 citations

Recent progress in critical electrode and electrolyte materials for flexible zinc-ion batteries (2024) – 1 citation

Surface Modification Driven Initial Coulombic Efficiency and Rate Performance Enhancement of Li1.2Mn0.54Ni0.13Co0.13O2 Cathode (2024) – 1 citation

Mo2N/CoN nanotube with synergistic reaction of intercalation and conversion enables high-performance lithium-ion batteries (2023) – 1 citation

Carbon Foam-Supported VS2 Cathode for High-Performance Flexible Self-Healing Quasi-Solid-State Zinc-Ion Batteries (2023) – 17 citations

Magneto-electrochemistry driven ultralong-life Zn-VS2 aqueous zinc-ion batteries (2023) – 12 citations

Xiuhan Li | Design of Materials and Components | Best Researcher Award

Posted on 17/08/202417/08/2024 by ScienceFather

Prof Xiuhan Li | Design of Materials and Components | Best Researcher Award

Professor at Beijing Jiaotong University , China

Professor Xiuhan Li is a distinguished academic in the School of Electronics and Information Engineering at Beijing Jiaotong University. Her expertise lies in micro/nano devices, energy harvesting, and implantable biomedical microdevices, with a particular focus on wireless energy transfer systems. Her innovative research has garnered significant recognition, including numerous publications and patents.

Profile

Scopus Profile

Author Metrics

Professor Li has achieved notable scholarly impact with over 30 peer-reviewed publications in prestigious journals such as Advanced Materials, ACS Nano, and Nano Energy. Her work has amassed more than 1000 citations, reflecting her substantial influence in her research areas. Additionally, she holds 6 invention patents and has published 36 journal articles indexed by SCI and Scopus.

Education

Professor Li earned her Ph.D. in Microelectronics and Solid State Electronics from Peking University in 2006. Her academic foundation laid the groundwork for her subsequent research in micro/nano technologies and energy harvesting.

Research Focus

Professor Li’s research centers on micro/nano devices, with a significant focus on triboelectric nanogenerators, self-powered sensors, and deep learning applications. Her work includes the development of advanced wearable sensors and wireless energy transfer systems, which push the boundaries of current technology.

Professional Journey

Professor Li’s career includes directing and participating in numerous research projects funded by the Ministry of Science and Technology and the National Natural Science Foundation of China (NSFC). She has collaborated extensively with prestigious institutions like Peking University and the Beijing Institute of Nano Energy and Systems.

Honors & Awards

Professor Li’s groundbreaking contributions have been recognized through various awards and accolades. Her research excellence and innovative solutions in electronics and information engineering make her a leading figure in her field.

Publications Noted & Contributions

Professor Li’s notable work includes the development of a high-performance intelligent triboelectric wearable sensor (HITWS), which significantly improves upon previous technologies in terms of signal-to-noise ratio, sensitivity, and power density. Her research demonstrates a high accuracy in object recognition when combined with advanced deep learning models.

Research Timeline

Professor Li’s research timeline highlights her progression from her doctoral studies at Peking University to her current role at Beijing Jiaotong University. Her ongoing projects and contributions have consistently advanced the field of electronics and information engineering, with a focus on innovative sensor technologies and energy harvesting systems.

Collaborations and Projects

Professor Li maintains active collaborations with leading institutions such as Peking University and the Beijing Institute of Nano Energy and Systems. These partnerships facilitate the advancement of her research projects, including contributions to triboelectric nanogenerators and self-powered sensors.

Publications

“Mica/Nylon Composite Nanofiber Film-Based Wearable Triboelectric Sensor for Object Recognition”
- Authors: Yang, J., Hong, K., Hao, Y., Zhang, C., Li, X.
- Journal: Nano Energy
- Year: 2024
- Volume: 129
- Article Number: 110056
“Self-Powered Intelligent Liquid Crystal Attenuator for Metasurface Real-Time Modulating”
- Authors: Niu, Z., Yang, J., Yu, G., Mao, X., Li, X.
- Journal: Nano Energy
- Year: 2024
- Volume: 129
- Article Number: 109991
“Self-Powered Terahertz Modulators Based on Metamaterials, Liquid Crystals, and Triboelectric Nanogenerators”
- Authors: Hao, Y., Niu, Z., Yang, J., Zhang, C., Li, X.
- Journal: ACS Applied Materials and Interfaces
- Year: 2024
- Volume: 16
- Issue: 25
- Pages: 32249–32258
“Triboelectric Nanogenerator for Self-Powered Musical Instrument Sensing Based on the Ion-Electricfield-Migration Nylon/Na2SO4 Nanofiber Film”
- Authors: Zhang, C., Liu, H., Hao, Y., Wang, J., Li, X.
- Journal: Chemical Engineering Journal
- Year: 2024
- Volume: 489
- Article Number: 151274
“High-Performance Flexible Wearable Triboelectric Nanogenerator Sensor by β-Phase Polyvinylidene Fluoride Polarization”
- This publication’s details are incomplete as you haven’t provided the full citation. If you have more specific information or a request for further details, please let me know

Strength for Best Researcher Award

1. Innovative Research Focus: Professor Li’s research in triboelectric nanogenerators and self-powered sensors demonstrates cutting-edge advancements and practical applications in micro/nano devices.
  
  High Scholarly Impact: With over 1000 citations and numerous publications in top-tier journals like Advanced Materials and Nano Energy, her work has made a significant impact on her field.
  
  Extensive Patenting: Holding 6 invention patents underscores her ability to translate research into practical, innovative solutions.
  
  Successful Collaborations: Partnerships with prestigious institutions like Peking University and the Beijing Institute of Nano Energy and Systems enhance the depth and reach of her research.
  
  Recognition and Awards: Her innovative contributions have been acknowledged through various honors and awards, highlighting her excellence and leadership in electronics and information engineering.
  
  Areas for Improvement
  
  Broader Research Applications: Expanding research to explore applications beyond wearable sensors and energy harvesting could diversify her impact.
  
  Interdisciplinary Research: Integrating more interdisciplinary approaches could open new avenues for innovation and application.
  
  Enhanced Public Engagement: Increasing outreach efforts to communicate the significance and potential of her work to a broader audience may enhance public understanding and support.
  
  Expansion of International Collaborations: Broadening international research partnerships could offer new perspectives and opportunities for collaboration.
  
  Increased Focus on Emerging Technologies: Staying abreast of and incorporating emerging technologies could further elevate her research impact and relevance.
  
  Conclusion
  
  Professor Xiuhan Li’s distinguished career is marked by groundbreaking research in micro/nano devices and energy harvesting, demonstrated by her high citation count and numerous prestigious publications. Her significant patent portfolio and successful collaborations underscore her innovative contributions and leadership in her field. While her research has achieved remarkable success, there are opportunities to further broaden application areas, enhance interdisciplinary approaches, and expand both public and international engagement. Embracing these opportunities will likely amplify her impact and foster continued excellence in her pioneering work.

Dr. Palaniappan Nagarajan | Material synthesis and characterization | Best Researcher Award

Posted on 19/07/202419/07/2024 by ScienceFather

Dr. Palaniappan Nagarajan | Material synthesis and characterization | Best Researcher Award

Dr. Palaniappan Nagarajan , Cecri , India

Dr. Felipe Caballero-Briones is a distinguished researcher and academic specializing in materials science and corrosion inhibition. He holds the position of Researcher at Instituto Politecnico Nacional, CICATA Altamira, Mexico. His expertise lies in the development and application of advanced materials, particularly in their role as corrosion inhibitors in various environments. Dr. Caballero-Briones has made significant contributions to the field, focusing on enhancing the durability and performance of metallic alloys through innovative material coatings and surface treatments.

Profile:

Scopus

Orcid

Education Details:

Ph.D (Chemistry): Central University of Gujarat, Gandhinagar, Gujarat
M.Phil – Ph.D (Chemistry): Bharathidasan University (affiliated), awarded in 2020
M.Phil (Chemistry): Bharathidasan University, completed between 2006-2008
M.Sc (Chemistry): Completed between 2004-2006
B.Sc (Chemistry): Completed between 2001-2004
12th Grade: Tamil Nadu Board, completed in 2000
10th Grade: Completed in 1999

Work Experience:

Research Associate: IIT Bombay, from February 22, 2021, to December 31, 2021
- Project: Involved in the development of sodium ion battery cathodes and anodes electrode materials.

Skills:

Instrumentation Handling: HPLC, Galvano Static and Potential Static HRTEM, FESEM, AFM, Ellipsometer, UV cell – 2, CHI 920DSECM
Spectrum Interpretation: NMR, IR, UV, ELLIPSOMETER, Contact Angles, Profilometer, XPS, AFM, FESEM, XRD HRTEM, TGA, cyclic voltammetry, impedance spectroscopy, Tafel
Application Packages: Gaussian 09 Program Package, Origin

Projects:

PG Project: Studied the effect of temperature and electrolyte concentration on the dyeing of cotton using direct dye.
M.Phil Project: Investigated Galvano Static reduction of glucose and fumaric acid in 1M H2SO4 at a Ti / ceramic TiO2 cathode, conducted at Central Electrochemical Research Center, Karaikudi under the supervision of D. Vasudevan.

Publication Top Notes :

Experimental and computational studies of graphene oxide covalently functionalized by octylamine: Electrochemical stability, hydrogen evolution, and corrosion inhibition of the AZ13 Mg alloy in 3.5% NaCl

Citation -50

Experimental and DFT studies on the ultrasonic energy-assisted extraction of the phytochemicals of: Catharanthus roseus as green corrosion inhibitors for mild steel in NaCl medium

Citation -39

Rapid investigation expiry drug green corrosion inhibitor on mild steel in NaCl medium

Citation -33

Experimental and DFT studies of porous carbon covalently functionalized by polyaniline as a corrosion inhibition barrier on nickel-based alloys in acidic media

Citation -9

Experimental and DFT studies of gadolinium decorated graphene oxide materials for their redox properties and as a corrosion inhibition barrier layer on Mg AZ13 alloy in a 3.5% NaCl environment

Dr. Ajeet Chandra, Kyung Hee University, Seoul, South Korea.

Publication Profiles

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Summary Suitability For The Award

<img decoding="async" class="an1" draggable="false" src="https://fonts.gstatic.com/s/e/notoemoji/16.0/1f9ed/32.png" alt="🧭" data-emoji="🧭" aria-label="🧭" /> Professional Development

<img decoding="async" class="an1" draggable="false" src="https://fonts.gstatic.com/s/e/notoemoji/16.0/1f9ec/32.png" alt="🧬" data-emoji="🧬" aria-label="🧬" /> Research Focus

<img decoding="async" class="an1" draggable="false" src="https://fonts.gstatic.com/s/e/notoemoji/16.0/1f3c6/32.png" alt="🏆" data-emoji="🏆" aria-label="🏆" /> Awards & Honors

Publication Top Noted

Prof. Dr. Ponnusamy Shanmugam, Central Leather Research Institute(CLRI), India.

Publication Profile

Suitability Summary

Awards & Honors 🏆

Publication Top Notes

Prof. Dr. Adrian David, University of Caen Normandy, France.

Publication Profile

Suitability Summary

Awards & Honors 🏆

Publication Top Notes

Jin Bai | Material Synthesis | Best Researcher Award

Assoc. Prof. Dr. Jin Bai, Chinese Academy of Sciences, China.

Publivation Profiles

Education and Experience

Suitability summary

Professional Development

Research Focus

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Professor at Beijing Jiaotong University , China

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Dr. Palaniappan Nagarajan , Cecri , India

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Experimental and computational studies of graphene oxide covalently functionalized by octylamine: Electrochemical stability, hydrogen evolution, and corrosion inhibition of the AZ13 Mg alloy in 3.5% NaCl

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Experimental and DFT studies on the ultrasonic energy-assisted extraction of the phytochemicals of: Catharanthus roseus as green corrosion inhibitors for mild steel in NaCl medium

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Rapid investigation expiry drug green corrosion inhibitor on mild steel in NaCl medium

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Experimental and DFT studies of porous carbon covalently functionalized by polyaniline as a corrosion inhibition barrier on nickel-based alloys in acidic media

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Experimental and DFT studies of gadolinium decorated graphene oxide materials for their redox properties and as a corrosion inhibition barrier layer on Mg AZ13 alloy in a 3.5% NaCl environment

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