Saikatendu Deb Roy | Green Nano-synthesis of mixed oxides | Best Researcher Award

Posted on by Academic achievements

Mr. Saikatendu Deb Roy | Green Nano-synthesis of mixed oxides | Best Researcher Award

Lecturer | GC College | India

Mr. Saikatendu Deb Roy is a dedicated researcher and educator specializing in green nanotechnology. Currently serving as a Research Scholar in Chemistry at NIT Silchar and a Guest Lecturer at Gurucharan College, Silchar, Mr. Roy focuses on the development of eco-friendly synthesis methods for nanomaterials. His research integrates sustainable practices with cutting-edge technology to address environmental challenges and enhance industrial applications.

Profile

ORCID

Strengths for the Award

  1. Innovative Research Focus: Mr. Roy has demonstrated a strong commitment to the field of green nanotechnology. His work on green synthesis of nanoparticles and nanocomposites, such as magnetic nanoparticles and metal oxide composites, showcases his focus on sustainable and environmentally friendly methods.
  2. Publication Record: His publication record is impressive, with several journal articles and book chapters in reputable sources. His research spans diverse applications including photocatalysis, dye degradation, antimicrobial activities, and biosynthesis of nanoparticles, highlighting his versatility and depth of expertise.
  3. Collaboration and Contribution: Mr. Roy has collaborated with multiple researchers, contributing to a variety of publications. His involvement in high-impact journals and book chapters underscores his active engagement in advancing his field.
  4. Professional Activities: His role as a District Academic Coordinator for the National Children’s Science Congress shows his commitment to science education and outreach. This role reflects his dedication to fostering scientific curiosity and knowledge in younger generations.
  5. Review and Peer Recognition: Mr. Roy’s participation as a peer reviewer for several scientific journals indicates recognition by the scientific community of his expertise and his role in maintaining research quality.

Areas for Improvement

  1. Broader Research Impact: While Mr. Roy’s focus on green synthesis is commendable, broadening his research scope to include more interdisciplinary applications or collaborations with other fields could further enhance his impact and visibility in the research community.
  2. Grant Acquisition: There is limited information on his involvement in securing research grants. Building a stronger track record in obtaining funding could provide more resources for expanding his research activities and increasing the scope of his work.
  3. Diverse Research Dissemination: Although he has published in various journals, increasing his presence in high-impact journals or international conferences could further establish his reputation. Additionally, engaging more with public and policy-making platforms could broaden the societal impact of his research.
  4. Mentorship and Teaching: While Mr. Roy is involved in teaching as a lecturer, formal mentoring of graduate students or early-career researchers could enhance his leadership in the academic community. Developing and leading research groups or labs could also contribute to his growth as a researcher.

Education

Mr. Roy completed his Master of Science in Chemistry from Assam University, Silchar in August 2018. His academic background has laid a strong foundation for his research in nanotechnology and sustainable materials, allowing him to contribute significantly to the field through both practical and theoretical perspectives.

Experience

Since September 2020, Mr. Roy has been working as a Research Scholar at NIT Silchar, where he explores green synthesis techniques for various nanomaterials. Additionally, he has been a Guest Lecturer in Chemistry at Gurucharan College, Silchar, since August 2019, sharing his expertise with students and fostering a new generation of scientists. He also holds the position of District Academic Coordinator for the National Children’s Science Congress in 2023, reflecting his commitment to science education and outreach.

Research Interest

Mr. Roy’s research interests primarily revolve around the green synthesis of nanoparticles and nanocomposites. He focuses on utilizing plant-based and environmentally benign methods to create functional nanomaterials for applications in photocatalysis, dye degradation, and antimicrobial activities. His work aims to advance sustainable practices in material science and address pressing environmental issues through innovative solutions.

Awards

While specific awards are not listed, Mr. Roy’s impactful research and contributions to the field of chemistry and green nanotechnology highlight his recognition within the scientific community. His continuous engagement in high-impact research and professional activities suggests a strong potential for future accolades.

Publication

Here are some of Mr. Roy’s notable publications:

Drift from conventional to plant-based synthesis of magnetic nanoparticles, Book chapter, 2024.

Nonmagnetic nanocomposite of strontium, copper, and manganese oxide in rapid degradation of industrial organic dyes under assistance of sunlight, Biomass Conversion and Biorefinery, 2024.

Synthesis of Ag−Cu−MnO Triple‐Metal Composite And Evaluation of its Antimicrobial Activity and Dye Removal Efficacy, ChemistrySelect, 2024.

Bio-benign synthesis of strontium, copper, and manganese nano-hydroxide from Carica papaya unveiling potential biocidal activity against bacterial strains and conversion to oxides and its characterization, Biomass Conversion and Biorefinery, 2024.

Facile synthesis of CuO-Ag2O hybrid metal oxide composite using Carica papaya, cocooning with hydroxyapatite, and photocatalytic degradation of organic dyes, Materials Science and Engineering: B, 2024.

Green synthesis of hydroxyapatite cocooned nonmagnetic (Sr-Cu-MnO) nanocomposite for rapid degradation of colored organic dyes, Biomass Conversion and Biorefinery, 2023.

Phase transformation driven enhanced photocatalytic activity of capped CeS2-CdS composites, Journal of Materials Science: Materials in Electronics, 2022.

Biosynthesis of gold nanoparticles from the plant based origin and its potent application in detection and termination of carcinogenic cells, Persuits, 2022.

Synthesis and antimicrobial activities of some selected transition and non-transition metal oxide nanoparticles, Research and Industrial Conclave IIT Guwahati, 2022.

Conventional to green synthesis of magnetic iron oxide nanoparticles; its application as catalyst, photocatalyst and toxicity: A short review, Inorganic Chemistry Communications, 2021.

Bio synthesis of gold nanoparticles using leaf extract and flowers with special reference to the locally available plants in North Eastern region of India; A Mini review, Research and Innovations in Chemical Sciences, 2021.

Conclusion

Mr. Saikatendu Deb Roy exhibits many qualities that make him a strong candidate for the Best Researcher Award. His innovative approach to green nanotechnology, substantial publication record, active involvement in professional activities, and peer review contributions highlight his strengths. Addressing the areas for improvement, such as expanding his research impact, securing more grants, and increasing his engagement in broader research and mentorship activities, could further enhance his profile. Overall, Mr. Roy’s contributions to the field of chemistry and sustainable technologies position him as a notable researcher deserving of recognition.

 

Elena Efremenko | Biocatalysis | Best Researcher Award

Posted on by Academic achievements

Prof. Elena Efremenko | Biocatalysis | Best Researcher Award 

Head of Ecobiocatalysis laboratory | Lomonosov Mosocw State University | Russia

Based on the provided Curriculum Vitae for Elena Nikolaevna Efremenko, here’s an assessment for the Research for Best Researcher Award, focusing on strengths, areas for improvement, and a conclusion:

Strengths for the Award

  1. Extensive Expertise and Experience: Elena Efremenko has a robust background in biotechnology, with advanced degrees in Biotechnology, Biophysics, and Chemical Engineering. Her career spans over three decades at the prestigious Lomonosov Moscow State University, where she has risen through the ranks from Researcher to Professor.
  2. Leadership and Research Achievements: As the Head of the Laboratory of Ecobiocatalysis and various research groups, she has demonstrated significant leadership. Her research in microbial biochemistry and biotechnology, enzymatic technology, and biocatalysis is highly specialized, with applications in environmental and industrial contexts.
  3. Awards and Grants: Efremenko has received numerous awards and grants from notable institutions, such as the Moscow Government, NATO, and the Russian Ministry of Science and Technology. This recognition highlights her contributions and impact in her field.
  4. International Collaboration: Her experience working with institutions such as Texas A&M University and the Albert Einstein College of Medicine indicates a strong international presence and collaborative efforts, which enrich her research and broaden its impact.
  5. Teaching and Mentoring: She has supervised numerous graduate and doctoral students, reflecting her commitment to education and mentorship. This aspect is crucial for the development of future scientists and demonstrates her influence in academia.
  6. Specialization in Diverse Fields: Efremenko’s research interests are diverse, covering biotechnology, biochemistry, environmental biotechnologies, and more. This breadth of expertise allows her to tackle a variety of complex problems, particularly in bioremediation and biocatalysis.

Areas for Improvement

  1. Research Output and Visibility: While her CV mentions numerous publications, a detailed list or metrics of her publications (such as impact factor, citation index, or h-index) would provide a clearer picture of her research impact and visibility.
  2. Recent Developments: Information on her most recent research projects or breakthroughs would be valuable. This could highlight how her work has evolved and its relevance to current scientific and societal challenges.
  3. Interdisciplinary Integration: Although her research covers multiple fields, there is room to enhance interdisciplinary integration, particularly with emerging fields like synthetic biology or advanced materials science, which could further innovate her research.
  4. Broader Impact: Providing examples of how her research has led to practical applications or solutions in industry or society could strengthen her case. This includes commercializing innovations or direct societal benefits.

Conclusion

Elena Nikolaevna Efremenko is a distinguished researcher with a notable career in biotechnology and related fields. Her extensive experience, leadership roles, and international collaborations underscore her significant contributions to science and technology. Her awards and research achievements reflect her impact in advancing biocatalysis and environmental biotechnology.

To strengthen her candidacy for the Research for Best Researcher Award, she could benefit from providing more detailed information on her recent research output, enhancing interdisciplinary work, and demonstrating the broader impact of her research. Overall, her solid track record and expertise make her a strong candidate for the award.

Short Bio 🌟

Elena Nikolaevna Efremenko is a prominent Russian biotechnologist and professor at the Chemical Enzymology Department, Faculty of Chemistry, Lomonosov Moscow State University. With a career spanning over three decades, she has made significant contributions to microbial biochemistry and biotechnology. Elena has been recognized for her expertise in enzymatic technologies, environmental biotechnologies, and biocatalysis.

Profile

ORCID

Education 🎓

  • Professor (Biotechnology): M.V. Lomonosov Moscow State University, 2011
  • Dr.Sci. (Biotechnology, Biophysics): N.M. Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, 2010
  • Ph.D. (Biotechnology): Technological Institute of Food Industry, Faculty of Biotechnology, Moscow, 1992
  • Master’s Degree: Technological Institute of Food Industry, Faculty of Biotechnology, Specialization in Microbial and Enzymatic Technologies, Honour Diploma, Moscow, 1987

Experience 💼

Elena Efremenko has served as the Head of the Laboratory of Ecobiocatalysis at the Chemical Enzymology Department, M.V. Lomonosov Moscow State University, since 2010. Her previous roles include Principal Scientific Researcher and Senior Researcher in the same department, with her career at the university starting in 1992.

Research Interests 🔬

Her research focuses on multicomponent consortia, quorum sensing, genetically modified proteins, immobilized microbial cells, and bioremediation. She is particularly interested in the bioremediation of soil and water sources contaminated with pesticides and oil, biocorrosion processes, luminescent analytical methods, and humic compounds.

Awards 🏅

Medal “850-Moscow”: Moscow Government, Russia, 1998

Award RP1-359: CRDF, Young Investigators’ Program, Texas A&M University, 1998

Award LST.CLG.977844: NATO (Life Science Technology), PNNL, USA, 2001

Lomonosov Second Prize in Chemistry: Chemical Faculty, M.V. Lomonosov MSU, 2008

Premium of the Exhibition of Innovative Projects: Chemical Faculty, M.V. Lomonosov MSU, 2009

Publications 📚

“Stop, Little Pot” as the Motto of Suppressive Management of Various Microbial Consortia
Microorganisms, 2024-08-12
DOI: 10.3390/microorganisms12081650

Enzymes with Lactonase Activity against Fungal Quorum Molecules as Effective Antifungals
Biomolecules, 2024-03-21
DOI: 10.3390/biom14030383

Using Fungi in Artificial Microbial Consortia to Solve Bioremediation Problems
Microorganisms, 2024-02-26
DOI: 10.3390/microorganisms12030470

Luminescent Bacteria as Bioindicators in Screening and Selection of Enzymes Detoxifying Various Mycotoxins
Sensors, 2024-01-24
DOI: 10.3390/s24030763

Artificial Humic Substances as Biomimetics of Natural Analogues: Production, Characteristics and Preferences Regarding Their Use
Biomimetics, 2023-12-15
DOI: 10.3390/biomimetics8080613

Various Biomimetics, Including Peptides as Antifungals
Biomimetics, 2023-10-28
DOI: 10.3390/biomimetics8070513

Metal Nanomaterials and Hydrolytic Enzyme-Based Formulations for Improved Antifungal Activity
International Journal of Molecular Sciences, 2023-07-12
DOI: 10.3390/ijms241411359

Quorum Sensing as a Trigger That Improves Characteristics of Microbial Biocatalysts
Microorganisms, 2023-05-25
DOI: 10.3390/microorganisms11061395

Prospects for Combined Applications of Nanostructured Catalysts and Biocatalysts for Elimination of Hydrocarbon Pollutants
Applied Sciences, 2023-05-08
DOI: 10.3390/app13095815

Progressive Biocatalysts for the Treatment of Aqueous Systems Containing Pharmaceutical Pollutants
Life, 2023-03-20
DOI: 10.3390/life13030841