Ruby Raj Michael | Chemical Engineering | Best Researcher Award

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Assist. Prof. Dr. Ruby Raj Michael | Chemical Engineering | Best Researcher Award

Assist. Prof. Dr. Ruby Raj Michael, Yeungnam University, 38541 Gyeongsan-Si, Republic of Korea, South Korea

šŸ”¬ Assist. Prof. Dr. Ruby RajMichael is an accomplished researcher with expertise in Materials Chemistry, Polymer Chemistry, and Energy Storage. Currently a Distinguished Adjunct Professor at Saveetha University, India, and a Research Assistant Professor at Yeungnam University, South Korea, Dr. RajMichael has extensive experience in organic electronic materials, lithium-ion batteries, and solar cell technology. Her research spans innovative materials, including silicon encapsulated composites and MOFs/COFs for battery applications. She holds a Ph.D. in Chemistry from NIT Tiruchirappalli, India, and has received numerous fellowships and awards for her contributions, including the Advanced Energy Materials Reviewer Certificate and the Korean Institute of Surface Engineering Excellence Poster Presentation Award. šŸ…šŸ”‹

 

Publication Profile

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Professional Experience

Dr. RajMichael serves as a Distinguished Adjunct Professor at Saveetha Dental College and Hospitals in India, along with a Research Assistant Professorship in Chemical Engineering for Energy at Yeungnam University, Korea. Her past experiences include postdoctoral roles and research positions across prestigious institutions globally, from the University of ConcepciĆ³n in Chile to Pohang University of Science and Technology (POSTECH) in Korea. This extensive international experience highlights her adaptability and commitment to research excellence, broadening her contributions to global scientific progress.

Awards and Recognitions

Her accolades include a Reviewer Certificate from Advanced Energy Materials (Wiley) and an Excellence Poster Presentation Award from the Korean Institute of Surface Engineering. Dr. RajMichaelā€™s research has also earned her multiple fellowships, showcasing her recognized expertise and contributions within the scientific community.

Research Focus

Dr. M. Ruby Rajā€™s research primarily focuses on developing advanced materials for next-generation energy storage devices, particularly lithium-ion, potassium-ion, and aluminum-ion batteries šŸ”‹. His work includes exploring innovative organic battery materials, metal-organic frameworks, and composite materials designed to enhance battery performance, energy density, and lifespan. He also investigates metal-doped nanomaterials and polymeric materials with high electronic conductivity to boost efficiency in rechargeable batteries and supercapacitors šŸŒ. Dr. Rajā€™s interdisciplinary approach bridges materials science and electrochemistry, aiming to create sustainable, high-capacity energy solutions for portable electronics and electric vehicles šŸš—.

 

Conclusion

Dr. Ruby RajMichael’s substantial contributions to materials chemistry, demonstrated by her research in organic electronic and energy storage materials, as well as her broad international experience and notable awards, make her a fitting candidate for the Best Researcher Award. Her work not only advances the field of battery technology but also aligns with sustainability goals by exploring innovative solutions for energy storage.

Publication Top Notes

  • šŸ“‹ Recent Advances in Development of Organic Battery Materials for Monovalent and Multivalent Metal-Ion Rechargeable BatteriesCited by: –, 2024
  • šŸ§Ŗ Chemosensor material as a metalā€“organic framework with potassium-based perylene tetracarboxylic acid for copper and lead detectionCited by: 1, 2024
  • āš™ļø Zirconium-based metalā€“organic frameworks/porous carbon hybrids as high-performance anode materials for lithium- and potassium-ion batteriesCited by: –, 2024
  • šŸ”‹ Hierarchical CuCo carbonate hydroxide nanowires/graphitic carbon nitride composites as high-performance anode materials for lithium-ion batteriesCited by: –, 2024
  • šŸ¦  Loading of 4-Chloro-3-Formylcoumarin on Potassium-Based Perylene Tetracarboxylic Acid as a Metalā€“Organic Framework for Antimicrobial PerformancesCited by: –, 2024
  • šŸŒ± Extraordinary Ultrahighā€Capacity and Long Cycle Life Lithiumā€Ion Batteries Enabled by Graphitic Carbon Nitrideā€Perylene Polyimide CompositesCited by: 11, 2023
  • šŸ’„ Oxygen vacancy-modulated zeolitic Li4Ti5O12 microsphere anode for superior lithium-ion batteryCited by: 11, 2023
  • šŸŒ Hollow porous N and Co dual-doped silicon@carbon nanocube for lithium-ion battery anodesCited by: 34, 2022
  • šŸ’§ Ultrahigh energy density and long-life cyclic stability of surface-treated aluminum-ion supercapacitorsCited by: 7, 2022
  • āš›ļø Electrochemically Surfaceā€modified Aluminum Electrode for High Performance Alā€ion BatteriesCited by: 12, 2022