Artem Bezrukov | Chemistry | Best Researcher Award

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Dr. Artem Bezrukov | Chemistry | Best Researcher Award

Associate Professor at Kazan National Research Technological Universirty, Russia

Dr. Artem N. Bezrukov is a distinguished researcher in microfluidics and lab-on-chip technologies, specializing in the synthesis and modification of smart soft materials. As an Associate Professor at Kazan National Research Technological University (KNRTU), he has made significant contributions to the development of novel materials based on liquid crystals, quantum dots, polymers, and colloids. His expertise spans both fundamental and applied research, focusing on micro-scale material behavior and its applications in advanced technological solutions. With a strong international presence, Dr. Bezrukov has collaborated with global institutions, contributing to academic and industrial advancements in material science. His dedication to education, research, and international cooperation has established him as a key figure in the field, actively shaping the future of smart materials and nanotechnology.

Professional Profile

Education

Dr. Bezrukov holds a Ph.D. in Chemistry from Kazan State Technological University (2010), where he conducted pioneering research in the field of physical and colloid chemistry. His academic journey began with a Specialist degree in Chemical Engineering (2006) from the same institution, equipping him with a solid foundation in materials science and process engineering. In addition to his scientific studies, he earned a qualification as a Translator & Interpreter for Professional Communication (2005), demonstrating his interdisciplinary skill set. His continuous pursuit of knowledge led him to international academic programs, including a Fulbright scholarship and a short-term postdoctoral fellowship in microfluidics at Carnegie Mellon University in 2019. These experiences have contributed to his expertise in interdisciplinary research, enabling him to bridge the gap between chemistry, engineering, and applied nanotechnology.

Professional Experience

Since 2011, Dr. Bezrukov has served as an Associate Professor at the Department of Physical and Colloid Chemistry at KNRTU, where he has played a pivotal role in research and academic development. From 2012 to 2018, he also held the position of Head of the Protocol Office in the International Affairs department, strengthening global academic collaborations for his university. Prior to that, he worked as a Teaching Assistant, gaining experience in mentoring students and advancing research in material sciences. His career has been marked by his ability to integrate research with practical applications, as seen in his contributions to various funded projects, curriculum development, and international research initiatives. His professional trajectory reflects his dedication to both academic excellence and the advancement of innovative scientific research on an international scale.

Research Interests

Dr. Bezrukov’s research is centered on microfluidics and lab-on-chip technologies, with a particular focus on the synthesis and manipulation of smart soft materials. His work explores the unique properties of liquid crystals, quantum dots, polymers, and colloids, seeking to develop advanced materials for use in biomedical, optical, and nanotechnological applications. By integrating microfluidic techniques with material science, he investigates novel approaches to controlling material properties at the microscale. His research is inherently interdisciplinary, combining chemistry, physics, and engineering to create innovative solutions with broad technological applications. Through his work, he aims to bridge the gap between fundamental scientific research and real-world applications, contributing to the development of next-generation functional materials.

Awards and Honors

Dr. Bezrukov has received multiple accolades in recognition of his outstanding contributions to research and education. He was awarded the prestigious Fulbright Scholarship in 2012, which enabled him to engage in international research collaborations. His work has been further recognized through a short-term postdoctoral scholarship at Carnegie Mellon University in 2019, highlighting his expertise in microfluidics. In addition, he has been the recipient of Potanin Foundation grants (2018-2024) for his contributions to developing innovative educational modules. His participation in Erasmus+ Capacity Building and Jean Monnet projects (2019-2022) demonstrates his commitment to international academic cooperation. With over 30 peer-reviewed journal articles and more than 70 total publications, his contributions have earned him recognition as a leading researcher in the field. His accolades reflect his dedication to advancing science and education on a global scale.

Conclusion

Dr. Artem N. Bezrukov is a strong candidate for the Best Researcher Award due to his contributions to microfluidics, international collaborations, and publication record. However, further emphasis on research impact, citations, leadership in major grants, and industry applications could solidify his candidacy. If these aspects are well-documented, he stands as an excellent contender for the award.

Publications Top Noted

Title: Internationalizing engineering education: A language learning approach

Author(s): A. Bezrukov, J. Ziyatdinova

Year : 2014

Citations: 38

Title: Global challenges and problems of Russian engineering education modernization

Author(s) : J.N. Ziyatdinova, P.N. Osipov, A.N. Bezrukov

Year : 2015

Citations: 28

Title: Development of a networking model for internationalization of engineering universities and its implementation for the Russia-Vietnam partnership

Author(s) : J. Ziyatdinova, A. Bezrukov, A. Sukhristina, P.A. Sanger

Year : 2016

Citations: 26

Title: Inbound international faculty mobility programs in Russia: Best practices

Author(s) : A. Bezrukov, J. Ziyatdinova, P. Sanger, V.G. Ivanov, N. Zoltareva

Year : 2018

Citations: 25

Title:

Best practices of engineering education internationalization in a Russian Top-20 university

Author(s) : J. Ziyatdinova, A. Bezrukov, P.A. Sanger, P. Osipov

Year : 2016

Citations: 24

Title: Development of a “smart materials” master’s degree module for chemical engineering students

Author(s) : A. Bezrukov, D. Sultanova

Year : 2020

Citations: 23

Title: Going globally as a Russian engineering university

Author(s) : J. Ziyatdinova, A. Bezrukov, P. Osipov, P.A. Sanger, V.G. Ivanov

Year : 2015

Citations: 22

Title: Flexible learning model for computer-aided technical translation

Author: A. Bezrukov

Year : 2013

Citations: 22

Title: Application of microfluidic tools for training chemical engineers

Author(s) : A. Bezrukov, D. Sultanova

Year : 2020

Citations: 18

Title: International approaches to the development of cross-cultural education at high school

Author(s) : M. Panteleeva, P.A. Sanger, A. Bezrukov

Year : 2016

Citations: 17

Title: Academic writing in the historical and linguistic context: An example of German language

Author(s) : F.F. Nasibullina, A.N. Bezrukov

Year : 2015

Citations: 9

Title:  Effect of the length of surfactant hydrocarbon radicals on the association of cationic polyelectrolytes with alkyl sulfates in water-alcohol solutions

Author(s) : S.V. Shilova, A.N. Bezrukov, A.Y. Tret’yakova, M.A. Voronin, L.Y. Zakharova, …

Year : 2012

Citations: 9

Title:  Effect of molecular weight of poly-N-benzyl-N,N-dimethyl-N-methacryloyloxyethylammonium chloride on its complexation with sodium dodecyl sulfate

Author(s) : S.V. Shilova, A.Y. Tret’yakova, A.N. Bezrukov, V.A. Myagchenkov, …

Year : 2007

Citations: 9

Title:  Orientation behavior of nematic liquid crystals at flow-wall interfaces in microfluidic channels

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2023

Citations: 7

Title: On-chip control over polyelectrolyte–surfactant complexation in nonequilibrium microfluidic confinement

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2022

Citations:  7

Title: Control of the phase formation process in solutions of anionic polyelectrolyte—cationic surfactant complexes in a microfluidic channel

Author(s) : A.N. Bezrukov, Y.G. Galyametdinov

Year : 2020

Citations: 7

Title:  Internationalization of engineering education

Author(s) : J.N. Ziyatdinova, A.N. Bezrukov

Year : 2015

Citations: 7

Title: Association of sodium dodecyl sulfate with a cationic polyelectrolyte in aqueous-ethanol media

Author(s) : S.V. Shilova, A.N. Bezrukov, A.Y. Tret’yakova, V.P. Barabanov

Year : 2014

Citations: 6

Title: Dynamic flow control over optical properties of liquid crystal–quantum dot hybrids in microfluidic devices

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2023

Citations: 5

Title: Characterizing properties of polymers and colloids by their reaction-diffusion behavior in microfluidic channels

Author(s) : A. Bezrukov, Y. Galyametdinov

Year : 2021

Citations: 5

 

Mohammad Madani | Chemistry | Best Research Article Award

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Dr. Mohammad Madani | Chemistry | Best Research Article Award

Polymeric Nanocomposite at University of Tehran, Iran

Dr. Mohammad Madani is a distinguished researcher in polymer chemistry and nanotechnology. With a strong academic background and extensive research experience, he has contributed significantly to the fields of electrospinning, nanofibers, and polymeric materials. He has been affiliated with renowned institutions, including the University of Tehran and Qatar University, working on advanced polymeric materials with applications in membranes, sensors, and nanocomposites. His collaborative research with international teams has resulted in several high-quality publications in leading journals. Throughout his career, he has been involved in pioneering studies that bridge fundamental chemistry with industrial applications. His expertise in organic-inorganic hybrid materials, functional nanofibers, and membrane technology highlights his dedication to advancing material sciences. Dr. Madani’s work has had a profound impact on fields such as medical sciences, environmental engineering, and advanced materials development, making him a well-respected scientist in his domain.

Education

Dr. Madani completed his Bachelor of Science in Pure Chemistry from the University of Tehran in 2002. He continued his studies at the same institution, earning a Master of Science in Organic Chemistry in 2006, where he focused on developing crosslinkable medium-density polyethylene on a semi-industrial scale. His doctoral research, completed in 2010, specialized in nanofiber preparation via electrospinning, a cutting-edge technique in polymer chemistry. His Ph.D. dissertation, supervised by Dr. N. Sharifi-Sanjani, explored novel methods to fabricate organic-inorganic hybrid nanofibers. Dr. Madani further expanded his expertise through a postdoctoral project at Qatar University (2012–2014), where he worked on polymeric adhesives containing carbon nanotubes. Additionally, he served as a Scientific Board member at the Agricultural Biotechnology Research Institute of Iran (2014–2020), contributing to material science applications in agricultural biotechnology. His educational background has provided a strong foundation for his research in polymeric materials and nanotechnology.

Professional Experience

Dr. Madani has held various prestigious academic and research positions. He served as a Scientific Board Member at the Agricultural Biotechnology Research Institute of Iran (ABRII) from 2014 to 2020, where he contributed to the development of polymeric and nanomaterial-based solutions for agricultural applications. During his postdoctoral tenure at Qatar University (2012–2014), he worked extensively on carbon nanotube-based polymeric adhesives, a project that bridged academia and industrial applications. Additionally, he has been affiliated with the University of Tehran, where he conducted groundbreaking research in electrospinning, membrane separation, and nanofiber synthesis. His expertise extends to supervising students, collaborating on international research projects, and publishing extensively in high-impact chemistry and engineering journals. Dr. Madani has also contributed to the development of advanced polymeric materials for applications in membrane technology, sensors, and biomedical sciences, positioning him as a leading expert in his field.

Research Interests

Dr. Madani’s research primarily focuses on polymeric materials, electrospinning techniques, nanofiber synthesis, and membrane separation technologies. He has made significant contributions to the development of organic-inorganic hybrid nanofibers, which have applications in filtration, drug delivery, and energy storage. His work on polystyrene/titanium dioxide (PS/TiO₂) composite nanofibers has improved the surface-to-volume ratio of materials used in advanced material engineering. Additionally, he has investigated hollow fiber membrane contactors for use in medical and pharmaceutical applications. His recent projects include carbon nanotube-reinforced adhesives, which have potential industrial applications in electronics, aerospace, and biomedical engineering. Dr. Madani’s interdisciplinary approach integrates polymer science, nanotechnology, and material engineering, making his research impactful across multiple scientific domains. His dedication to developing novel materials continues to push the boundaries of polymer chemistry and applied nanotechnology.

Awards and Honors

Dr. Madani has received recognition for his contributions to polymer chemistry and nanotechnology. His research on nanofibers, membrane technology, and polymer composites has been acknowledged in international forums. He has published in high-impact journals, earning citations and recognition from peers in material science, chemical engineering, and nanotechnology. He has also been an invited speaker at scientific conferences, where he has presented his innovative research on advanced polymeric materials. As a postdoctoral researcher at Qatar University, he played a crucial role in developing carbon nanotube-based adhesives, a project that earned recognition for its industrial applicability. His contributions to hollow fiber membrane contactors in medical sciences have been widely appreciated. Dr. Madani’s commitment to cutting-edge research has positioned him as a leading figure in polymer chemistry, and he continues to contribute to scientific advancements in materials science and engineering.

Conclusion

Dr. Mohammad Madani is a strong candidate for the award based on his contributions to polymer chemistry, electrospinning, and nanomaterials. However, to be a top contender, he should further enhance the visibility and impact of his work through higher-impact publications, patents, and industry collaborations. If his nominated research article presents novel advancements in polymer science or nanotechnology, he would be a worthy recipient.

Publications Top Noted

  • Prediction of nanofiber diameter and optimization of electrospinning process via response surface methodology

    • Authors: N. Naderi, F. Agend, R. Faridi-Majidi, N. Sharifi-Sanjani, M. Madani
    • Year: 2008
    • Citations: 32

  • PS/TiO₂ (polystyrene/titanium dioxide) composite nanofibers with higher surface-to-volume ratio prepared by electrospinning: Morphology and thermal properties

    • Authors: M. Madani, N. Sharifi-Sanjani, A. Hasan-Kaviar, M. Choghazardi
    • Year: 2013
    • Citations: 28

  • Distinguished discriminatory separation of CO₂ from its methane-containing gas mixture via PEBAX mixed matrix membrane

    • Authors: P.A. Gamali, A. Kazemi, R. Zadmard, M.J. Anjareghi, A. Rezakhani, R. Rahighi, M. Madani
    • Year: 2018
    • Citations: 19

  • Multi-phase composite nanofibers via electrospinning of latex containing nanocapsules with core-shell morphology

    • Authors: R. Faridi-Majidi, M. Madani, N. Sharifi-Sanjani, S. Khoee, A. Fotouhi
    • Year: 2012
    • Citations: 19

  • Preparation of granular crosslinkable medium-density polyethylene

    • Authors: M. Madani, N. Sharifi-Sanjani, E. Rezaei-Zare, R. Faridi-Majidi
    • Year: 2007
    • Citations: 17

  • Preparation of nanocapsules via emulsifier-free miniemulsion polymerization

    • Authors: M. Barari, R. Faridi-Majidi, M. Madani, N. Sharifi-Sanjani, M.A. Oghabian
    • Year: 2009
    • Citations: 14

  • Magnetic polystyrene nanocapsules with core-shell morphology obtained by emulsifier-free miniemulsion polymerization

    • Authors: M. Madani, N. Sharifi-Sanjani, R. Faridi-Majidi
    • Year: 2011
    • Citations: 13

  • A novel potentiometric Ni²⁺-sensor based on a Ni²⁺ ion-imprinted polymer

    • Authors: N. Hamidi, T. Alizadeh, M. Madani
    • Year: 2018
    • Citations: 10

  • Aureole nanofibers by electrospinning of PAMAM-PEO solution

    • Authors: M. Madani, N. Sharifi-Sanjani, R. Iraji-Rad
    • Year: 2009
    • Citations: 9

  • Applications of Hollow Fiber Membrane Contactors in Advanced Medical Sciences and Pharmaceutics

    • Authors: H. Tabesh, G. Amoabediny, M. Madani, M.H. Gholami, A. Kashefi, K. Mottaghy
    • Year: 2012
    • Citations: 5

  • Preparation of manganese oxide–polyethylene oxide hybrid nanofibers through in situ electrospinning

    • Authors: M. Madani, N. Sharifi-Sanjani, S. Khoee, A. Hasan-Kaviar, A. Kazemi
    • Year: 2010
    • Citations: 5

  • Synthesis of Calcium Carbonate-Polyethylene Oxide Hybrid Nanofibers Through In-Situ Electrospinning

    • Authors: R. Faridi-Majidi, N. Sharifi-Sanjani, M. Madani
    • Year: 2008
    • Citations: 5

  • Preparation of core-shell and hollow fibers using layer-by-layer (LbL) self-assembly of polyelectrolytes on electrospun submicrometer-scale silica fibers

    • Authors: A. Kazemi, J. Lahann, M. Madani, N. Sharifi-Sanjani, A. Hasan-Kaviar
    • Year: 2010
    • Citations: 2

  • Using Electrospinning Technique for Preparation of Cobalt Hydroxide Nanoparticles

    • Authors: M. Madani, A.S. Hamouda
    • Year: 2016
    • Citations: 1

  • Preparation of polyethylene oxide-cobalt hydroxide hybrid nanofibers

    • Authors: M. Madani
    • Year: —-
    • Citations: —-

 

Satyam Naidu Vasireddy | Conversion of CO2 to value-added chemicals and Hydrogenation of perfumery precursor chemicals | Young Scientist Award

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Dr Satyam Naidu Vasireddy | Conversion of CO2 to value-added chemicals and Hydrogenation of perfumery precursor chemicals | Young Scientist Award

Dr Satyam Naidu Vasireddy , CSIR-National Chemical Laboratory , India

Dr. Satyam Naidu Vasireddy is a Scientist and Assistant Professor at CSIR-National Chemical Laboratory (NCL) Pune. With a strong background in chemical engineering, Dr. Vasireddy has contributed significantly to the fields of energy, environment, and chemical process intensification. He has a rich academic and research career, having earned his B.Tech from Jawaharlal Nehru Technological University, M.Tech from IIT Kharagpur, and Ph.D. from IIT Madras. His research includes CO2 hydrogenation, perfumery chemicals, and renewable fuel technologies. Dr. Vasireddy is recognized for his innovative work and has been involved in multiple high-impact projects and technology transfers.

Publication Profile

Google Scholar

Strengths for the Award

  1. Research Impact and Publications:
    • Dr. Vasireddy has contributed to high-impact research in the areas of CO2 hydrogenation, gasification, pyrolysis, and chemical process design. His work on CO2 conversion and clean fuels is particularly relevant to current global challenges in energy and environmental sustainability.
    • He has a substantial number of publications in reputable journals, including recent articles in “Chemical Engineering Research and Design,” “Indian Chemical Engineer,” and “Austin Chemical Engineering,” which demonstrate the high quality and relevance of his research.
  2. Innovative Projects and Patents:
    • Dr. Vasireddy’s involvement in the development of a continuous process for azelaic acid production, along with other technology transfer projects, highlights his practical contributions to industrial applications.
    • His patents related to hydrogenation processes and methane pyrolysis reflect a strong capacity for innovation and a focus on sustainable technologies.
  3. Awards and Recognitions:
    • He has received notable awards, including the Certificate for Successful Development & Licensing of the “Continuous Process for Production of Azelaic Acid” and Excellence in Research at IIT Madras. These accolades underscore his recognition by peers and institutions for his contributions.
  4. Leadership and Teamwork:
    • His roles as a Co-PI and key team member in various projects demonstrate effective collaboration and leadership skills, which are essential for managing and executing complex research projects.
  5. Educational Background:
    • With advanced degrees from prestigious institutions (IIT Madras and IIT Kharagpur) and high academic rankings, Dr. Vasireddy has a solid academic foundation supporting his research endeavors.
  6. Diverse Experience:
    • His professional experience spans from academic roles to industry positions, providing him with a broad perspective and practical expertise in chemical engineering.

Areas for Improvement

  1. Broader Impact and Outreach:
    • While Dr. Vasireddy’s research is impactful, increasing visibility through more extensive outreach activities, such as participating in public science communication or policy discussions, could enhance the broader societal impact of his work.
  2. Cross-Disciplinary Collaboration:
    • Expanding collaborations with researchers in complementary fields or exploring interdisciplinary research could provide new perspectives and enhance the innovation potential of his projects.
  3. Research Continuity and Funding:
    • Securing larger and more diverse funding sources for ongoing and future projects would be beneficial. This might include applying for international grants or collaborating with industry partners to ensure sustained research activity.
  4. Mentorship and Student Involvement:
    • Increasing involvement in mentoring young researchers or students could enhance his profile as a leading figure in the scientific community and contribute to the development of future talent in the field.

Education

Dr. Satyam Naidu Vasireddy completed his B.Tech in Chemical Engineering from Jawaharlal Nehru Technological University, Kakinada, with a CGPA of 77.82% and ranked 2nd in his class. He pursued his M.Tech at IIT Kharagpur, achieving a CGPA of 9.04 and ranking 10th. He obtained his Ph.D. from IIT Madras with a CGPA of 9.06, ranking 3rd. His educational background has laid a strong foundation for his expertise in chemical engineering and research.

Experience

Dr. Vasireddy’s professional journey includes roles as a Project Officer and Senior Project Officer at IIT Madras, Ad-hoc Faculty at NIT Andhra Pradesh, Research Associate at HPCL Green R&D Centre, and currently as a Scientist at CSIR-NCL Pune. His experience spans research, process development, and technology transfer, reflecting his extensive expertise in chemical engineering. His work at NCL focuses on developing and scaling up chemical processes related to energy and environment.

Awards and Honors

Dr. Vasireddy has received several accolades, including the Certificate for Successful Development and Licensing of a continuous process for azelaic acid production at CSIR-NCL in 2022. He was honored with Excellence in Research for the year 2013-14 at IIT Madras and awarded a Silver Medal for being the 2nd topper in his B.Tech program. Other honors include 2nd prize in a national-level presentation on plasma waste conversion and a merit certificate in a mathematical Olympiad.

Research Focus

Dr. Vasireddy’s research focuses on applying chemical engineering principles to enhance chemical processes related to energy and environment. His work includes CO2 hydrogenation to produce value-added chemicals, hydrogenation of perfumery chemicals, and the development of clean fuels through gasification and pyrolysis. He aims to improve process efficiency and facilitate the transition from lab-scale innovations to industrial applications.

Publications Top Notes

  • Synergetic and inhibition effects in carbon dioxide gasification of blends of coals and biomass fuels of Indian origin 🌱📝
  • Evaluation of CO2 gasification kinetics for low-rank Indian coals and biomass fuels 🔬📝
  • Improving efficiency of CCS-enabled IGCC power plant through the use of recycle flue gas for coal gasification 🌍🔧
  • Tuning the selectivity of CO2 hydrogenation using ceramic hollow fiber catalytic modules 🧪⚙️
  • Sensitivity analysis of performance of coal-fired power plants to steam, coal and environmental parameters 🌡️📊
  • Evaluation of reaction kinetics for chemoselective hydrogenation of citral for intensification of citral intermediates using copper-based catalysts 🌺🔬
  • Experimental and kinetic modelling studies for the design of fixed bed methanol reactor over CuZA catalyst 🧑‍🔬🔧
  • Environmental Impact Analysis of Home Care and Personal Hygiene Products – A Review 🌿📖
  • Modelling Studies for Hydrogenation of Carbon Dioxide to Methanol 🔄💧
  • Effect of Pressure on In-situ Catalytic Hydropyrolysis of Rice Straw 🌾🔬
  • Design and scale-up of wiped film evaporator (WFE) for an API 🧪📈
  • Fluidized Bed Reactor Configuration for Ilmenite Based Chemical Looping Combustor 🌋🔄
  • Analysis of IGCC power generation with carbon capture using high ash Indian coal 🌍🔥
  • Integrated gasification combined gasification cycle (IGCC) power generation with recycle flue gas using coal/biomass as blend fuel ♻️🔥

Conclusion

Dr. Satyam Naidu Vasireddy is a strong candidate for the Research for Young Scientist Award. His significant research contributions, innovative projects, awards, and diverse experience establish him as a prominent scientist in his field. Addressing areas for improvement, particularly in increasing the broader impact of his work and expanding interdisciplinary collaborations, could further strengthen his candidacy and overall impact in the scientific community.

 

Yvette JIOKAP NONO | Chemical Engineering | Best Researcher Award

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Prof. Yvette JIOKAP NONO | Chemical Engineering | Best Researcher Award

Academic Researcher, University of Ngaoundere, Cameroon

Profile

Scopus

Strengths:

  1. Extensive Academic Background:
    • PhD in Biotechnology and Food Process Engineering with high honors, showcasing a solid foundation in her field.
    • Additional degrees in Biotechnology, Food Process Engineering, and Agricultural and Food Industries demonstrate a broad and deep academic background.
  2. Diverse Research Experience:
    • Significant research internships and collaborations, including work in France and Cameroon, illustrate her active involvement in both international and local research communities.
    • Research themes focus on value chains of local resources, sustainable development, and innovative methods for food preservation and transformation, which are highly relevant and impactful.
  3. Publication Record:
    • One patent, six books, nineteen peer-reviewed journal articles, fifteen international conference articles, and numerous conference communications indicate a prolific output and significant contributions to her field.
    • Research articles cover a range of topics from food dehydration to energy optimization, demonstrating versatility and depth.
  4. Professional Experience:
    • Teaching roles span various levels, including doctoral, engineering, and technician cycles, showing her ability to educate and mentor students at multiple levels.
    • Leadership roles in research teams and involvement in developing practical work for students reflect strong leadership and educational impact.
  5. Administrative and Organizational Contributions:
    • Extensive experience in administrative roles, including heading the Initial Training Division, highlights her ability to manage and revise training programs effectively.
    • Organization of international conferences and contributions to the academic community further underscore her commitment to advancing her field.
  6. International and National Collaborations:
    • Established collaborations with multiple institutions both in France and Africa demonstrate her ability to build and maintain strong professional networks.
  7. Industry Experience and Expertise:
    • Managerial roles in industry and support for young entrepreneurs show her practical expertise and commitment to applying research in real-world contexts.

Areas for Improvement:

  1. Research Visibility and Impact:
    • While she has an impressive publication record, increasing the visibility of her work through high-impact journals or more high-profile research collaborations could further enhance her recognition.
  2. Funding and Grants:
    • Although she has received various grants and scholarships, securing more substantial or diverse funding sources could support larger-scale research projects and increase her research’s reach.
  3. Technology Integration:
    • Incorporating newer technologies or methods in research (e.g., advanced computational techniques, emerging analytical tools) could enhance the scope and impact of her work.

Yvette Jiokap Nono is an esteemed Associate Professor in Biotechnology and Food Process Engineering at the Department of Chemical Engineering and Environment, IUT, University of Ngaoundere, Cameroon. With extensive experience in both academia and industry, she has significantly contributed to research and education in her field.

Yvette JIOKAP NONO is an Associate Professor specializing in Biotechnology and Food Process Engineering at the University of Ngaoundere-Cameroon. She has a PhD in Biotechnology and Food Process Engineering from the National Polytechnic Institute of Lorraine (INPL), France.

Education 🎓

– PhD in Biotechnology and Food Process Engineering, INPL, France, 1997
– Master’s Degree (DEA) in Biotechnology and Food Process Engineering, INPL, France, 1992
– Engineer’s Degree in Agricultural and Food Industries, ENSIA-SIARC, France, 1992
– Diploma of General Studies in Food Industries (DEGIA), ENSIA-SIARC, France, 1991

Experience 📊

– Research collaborations and internships in France and Cameroon
– Teaching experience at the University of Ngaoundere
– Industry experience in pasta production and supporting young entrepreneurs

Research Interest 🔬

– Value Chains of Local Resources and Sustainable Development
– Conservation, Transformation, and Valorization of Agricultural Resources

Awards 🏆

– AUF Excellence Scholarship
– Funding from FICU for research projects

Publications 📄

1. TSOPWO ZENA C. and JIOKAP NONO Y., 2024. Investigating intermittent immersion during osmotic dehydration of mango (Mangifera indica L. Moench). Part A: Determination of optimal conditions for mango (Mangifera indica L. Moench) dehydration impregnation by immersion (D2I) and intermittent immersion (D3I), Heliyon 10 (2024) e35808,

2. KENNE MELI V.I., FTATSI MBETMI G.-de-P., MAKA TAGA C. and JIOKAP NONO Y., 2024. Review on water evaporative cooling low-cost devices for tomato fruit preservation. International Journal of Engineering & Technology, 13(2), 272-280.

 

Despina Vamvuka | Chemical Engineering | Best Research Article Award

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Prof Dr. Despina Vamvuka | Chemical Engineering | Best Research Article Award

Despina Vamvuka Technical University of Crete,Greece

Dr. Lala Gahramanli is a prominent physicist specializing in the technology of nanoparticles. With a Ph.D. from Baku State University, she has made significant contributions to nanotechnology research, particularly in the areas of semiconductor nanomaterials and nanocomposite materials.

Profile

Scopus

🎓 Education:

Dr. Gahramanli holds a Ph.D. in Physics and Technology of Nanoparticles from Baku State University (2018-2022). She earned her Master’s degree in Physics of Nanoparticles from the same institution (2014-2016) and completed her Bachelor’s degree in Physics in 2014.

💼 Experience:

Currently, Dr. Gahramanli is a leading researcher at the Nano Research Laboratory, Baku State University (2022-present), where she investigates wastewater degradation processes and participates in national and international research projects. Previously, she was a junior researcher at the same lab (2019-2022), focusing on the synthesis and analysis of semiconductor nanomaterials.

🔬 Research Interests:

Dr. Gahramanli’s research interests include the properties and applications of binary and ternary semiconductor nanoparticles, thin films, nanocomposite materials, carbon-based nanomaterials, nanowires, and hybrid nanocatalysts. She is passionate about advancing nanotechnology and its applications in various fields.

🏆 Awards:

Dr. Gahramanli has received several accolades, including winning the 2022-2023 grant competition announced by the Italian Government for foreign nationals and the 2022-2023 Young Scientist of the Year nomination dedicated to the Youth Day of the Republic of Azerbaijan.

📚 Publications:

Dr. Gahramanli has 15 international journal publications and 36 national and international conference articles. Her work is well-cited, with an h-index of 4. Here are some of her notable publications:

  1. Synthesis and characterization of CuxCd1-xS nanocrystals into functionalized nitrile butadiene rubber matrix – Journal of the Chinese Chemical Society, 2024.
  2. Synthesis, structural and optical characterization of CdxZn1-xS/FNBR nanocomposites – ChemistrySelect, 2024.
  3. Surface Modification Strategies for Chrysin-Loaded Iron Oxide Nanoparticles to Boost Their Anti-Tumor Efficacy in Human Colon Carcinoma Cells – Journal of Functional Biomaterials, 2024.
  4. Molecular-dynamics modeling of structural stability of MAPbX3 (X= I-, CL-, BR-) as solar cells elements – Journal of Ovonic Research, 2024.
  5. Investigating the Effect of Thermal Annealing and Changing the Concentration of GO in GO/PVA Nanocomposites on Their Structural, Electrical, and Optical Properties – ChemEngineering, 2023.

Chemical Engineering

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Introduction of Chemical Engineering

Chemical Engineering is a multidisciplinary field that integrates principles of chemistry, physics, mathematics, biology, economics, and engineering to design, develop, and optimize processes for transforming raw materials into valuable products. It plays a vital role in industries ranging from energy and chemicals to pharmaceuticals and materials.

Process Design and Optimization

Developing and refining processes to efficiently convert raw materials into desired products while minimizing resource consumption, energy usage, and environmental impact.

Reaction Engineering

Investigating chemical reactions and their kinetics, reactor design, and optimization to enhance yields, selectivity, and efficiency in chemical and biochemical processes.

Transport Phenomena

Studying the movement of mass, energy, and momentum in various systems to optimize unit operations like heat exchangers, fluid flow, and mass transfer processes critical in chemical engineering.

Environmental Engineering and Sustainability

Addressing environmental challenges by designing processes that minimize pollution, waste, and resource depletion, promoting sustainable practices within chemical and related industries.

Materials and Polymer Engineering

Focusing on the design, synthesis, and properties of materials, especially polymers, to develop new materials with improved performance and applications in diverse fields such as packaging, automotive, and healthcare.