Rolande Aurelie Tchouateu Kamwa | Geopolymer | Best Researcher Award

Posted on 02/01/202502/01/2025 by ScienceFather

Rolande Aurelie Tchouateu Kamwa | Geopolymer | Best Researcher Award

Dr. Rolande Aurelie Tchouateu Kamwa, Université de Douala-Cameroun, Cameroon.

Dr. Rolande Aurelie Tchouateu Kamwa, a dedicated researcher in sustainable construction materials, specializes in geopolymer technology, material characterization, and the valorization of plant biomass. With a Ph.D. in Inorganic Chemistry from the University of Douala, Cameroon, she is passionate about reducing the carbon footprint of construction materials and developing eco-friendly building solutions. Dr. Tchouateu’s academic journey and professional engagements reflect her commitment to sustainable infrastructure. She has presented her work internationally and published in leading journals, contributing significantly to green construction innovations.

Publication profile

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Education and Experience

Education

2022: Ph.D. in Inorganic Chemistry, Specializing in Physico-Chemistry of Materials, University of Douala, Cameroon
2018–2019: Master’s in Inorganic Chemistry, University of Douala, Cameroon
2015–2016: Bachelor’s in Chemistry, University of Douala, Cameroon
2012–2013: Baccalaureate in Mathematics, Life, and Earth Sciences, Nkongsamba High School, Cameroon

Experience

2023–Present: Temporary Assistant, Civil Engineering Department, University Institute of Technology, Douala-Cameroon
2020–2022: Temporary Assistant, Chemistry Department, University of Douala, Cameroon
2024–Present: Internship, Sorbonne University, Paris, France
2023: Internship, Sorbonne University, Paris, France
2020–2021: Internship, Civil Engineering Lab (Labogenie), Douala-Cameroon
2019–2020: Internship, Laboratory of Geotechnical Study and Control, Douala-Cameroon

Suitability For The Award

Dr. Rolande Aurelie Tchouateu Kamwa stands as a highly accomplished researcher, making her an ideal candidate for the prestigious Best Researcher Award. Her groundbreaking work in sustainable construction materials and expertise in material characterization techniques, geopolymer technology, and environmental impact assessment underscore her significant contributions to the field. Her research focuses on utilizing local raw materials, such as natural pozzolans, clay soils, and organic waste, to develop low-energy, sustainable building materials.

Professional Development

Dr. Tchouateu Kamwa has demonstrated a robust commitment to professional growth through her academic and practical engagements. She participated in multiple internships, including at Sorbonne University, where she conducted advanced analyses using XRD, SEM, and FTIR techniques. Dr. Tchouateu also served as an expert mentor during a summer school in Benin, where she taught materials science and sustainability. Her active involvement in mentoring students and organizing conferences reflects her passion for teaching and promoting green construction practices. Her professional journey embodies a dedication to ecological and innovative material research.

Research Focus

Dr. Tchouateu’s research focuses on the development of low-energy and sustainable building materials using local resources like natural pozzolan, clay soil, and organic waste. Her work emphasizes synthesizing geopolymer binders for soil stabilization, creating durable and eco-friendly materials, and reducing the environmental impact of construction. She integrates plant biomass valorization and cutting-edge material science to innovate in sustainable infrastructure. Her research aligns with global efforts to address climate change and achieve sustainable development in the construction sector.

Awards and Honors

2021: Best Presentation Award at the Geopolymer Research and Application Conference (GRAC2021), Cameroon
2023: Recognition for Presentation at the Green Chemistry Summer School, France
2022: Commendation for Online Presentation during the Green Chemistry Summer School, Italy

Publications Top Notes

Stabilization of compressed Earth blocks (CEB) by pozzolana-based phosphate geopolymer binder: Physico-mechanical and microstructural investigations (18 citations, 2022)
Engineering and structural properties of compressed earth blocks (CEB) stabilized with a calcined clay-based alkali-activated binder (17 citations, 2022)
A comparative study of compressed lateritic earth bricks stabilized with natural pozzolan-based geopolymer binders synthesized in acidic and alkaline conditions (14 citations, 2023)
Effect of curing temperature on properties of compressed lateritic earth bricks stabilized with natural pozzolan-based geopolymer binders synthesized in acidic and alkaline media (7 citations, 2023)
Stabilization of Compressed Earth Blocks (CEB) by Pozzolana Based Phosphate Geopolymer: Physico-Mechanical, Structural and Microstructural Investigations (3 citations, 2021)
Improvement of the bearing capacity of lateritic gravel by a geopolymer binder: road construction in tropical countries (1 citation, 2024)

Cláudia Antunes | Materials Science | Best Researcher Award

Posted on 13/11/202413/11/2024 by ScienceFather

Cláudia Antunes | Materials Science | Best Researcher Award

Mrs. Cláudia Antunes, University of Beira Interior, Portugal.

Cláudia Sofia Baptista Antunes is a passionate student of Industrial Chemistry at the University of Beira Interior . She completed her undergraduate degree in Chemistry at the University of Porto in 2021 and has since delved into green chemistry research . Cláudia’s work on natural fiber-reinforced composites, particularly green epoxy composites reinforced with animal fibers like sheep and dog wool from Serra da Estrela, has already resulted in her first publication . With a strong focus on sustainable materials and innovation, she aspires to make meaningful contributions to materials science through her research.

Publication profile

Googlescholar

Education and Experience

2021: Bachelor’s degree in Chemistry, University of Porto.
2022-present: Pursuing a Master’s degree in Industrial Chemistry at the University of Beira Interior.
2023: Published research on green composites in the journal Polymers.

Suitability For The Award

Cláudia Sofia Baptista Antunes is a highly suitable candidate for the Best Researcher Award, based on her strong academic background, innovative research, and contributions to the field of materials science. As a master’s student at the University of Beira Interior, her research focus on natural fiber reinforced composites, particularly green epoxy composites made from animal fibers, aligns with contemporary trends toward sustainable materials. Her publication in the journal Polymers, titled “Mechanical Behaviour of Green Epoxy Composites Reinforced with Sheep and Dog Wool from Serra Da Estrela”, is a testament to the quality and relevance of her work.

Professional Development

Cláudia Antunes is actively engaged in the study of materials science, focusing on sustainable composites and natural fibers . Her work showcases a commitment to eco-friendly materials, especially through her research on wool-reinforced epoxy composites. This innovative study explores the potential of animal fibers, like sheep and dog wool, to enhance mechanical properties in green composites. Cláudia’s dedication to materials innovation aims to address environmental concerns within industrial applications, promoting renewable and biodegradable resources . Her hands-on experience with composite materials contributes significantly to the growing field of sustainable industrial chemistry.

Research Focus

Cláudia’s research centers on Materials Science and Natural Fiber Reinforced Composites , with an emphasis on animal fibers and sustainable alternatives in composite materials. Her study, published in Polymers, investigates how locally-sourced animal fibers like sheep and dog wool from Serra da Estrela can be used to enhance the mechanical behavior of green epoxy composites . This research aims to reduce synthetic material reliance and increase renewable material use in industrial applications, aligning with global sustainability goals. Her work contributes to the innovation of eco-friendly materials for industrial and environmental advancements .

Awards and Honors

Award Category Preference: Best Research Scholar Award.

Publications

“Temporal data mining: An overview” by CM Antunes, AL Oliveira, KDD Workshop on Temporal Data Mining, 2001 – Cited by 493
“Generalization of pattern-growth methods for sequential pattern mining with gap constraints” by C Antunes, AL Oliveira, Machine Learning and Data Mining in Pattern Recognition, 2003 – Cited by 109
“A structured view on pattern mining-based biclustering” by R Henriques, C Antunes, SC Madeira, Pattern Recognition, 2015 – Cited by 87
“Acquiring background knowledge for intelligent tutoring systems” by C Antunes, Educational Data Mining, 2008 – Cited by 69
“Sequential pattern mining algorithms: Trade-offs between speed and memory” by C Antunes, AL Oliveira, 2nd Workshop on Mining Graphs, Trees and Sequences, 2004 – Cited by 56
“Anticipating Students’ Failure As Soon As Possible” by C Antunes, Handbook of Educational Data Mining, 2010 – Cited by 36
“Predicting teamwork results from social network analysis” by PT Crespo, C Antunes, Expert Systems, 2015 – Cited by 31
“Accessing emotion patterns from affective interactions using electrodermal activity” by R Henriques, A Paiva, C Antunes, Humaine Association Conference on Affective Computing and Intelligent Interaction, 2013 – Cited by 31

Mahitosh Biswas | Materials | Best Researcher Award

Posted on 24/09/202424/09/2024 by ScienceFather

Mahitosh Biswas | Materials | Best Researcher Award

Dr. Mahitosh Biswas , Universität Würzburg, Germany

Dr. Mahitosh Biswas is a postdoctoral researcher at the Centre for Nanoscience and Nanotechnology (C2N), Université Paris-Saclay, specializing in advanced materials science. Born on March 5, 1990, in India, he has extensive experience in hybrid oxide molecular beam epitaxy (MBE) and the development of functional oxide materials for energy storage applications. His research includes the fabrication of ferroelectric-dielectric integrated capacitors and the integration of oxide and III-nitride semiconductors. Dr. Biswas’s innovative work contributes significantly to the fields of optoelectronics and energy-efficient technologies.

Publication Profile

Orcid

Suitability For The Award

Mahitosh Biswas is a highly qualified candidate for the Best Researcher Award, with a robust background in nanoscience and materials engineering. His research encompasses a range of advanced topics, particularly in molecular beam epitaxy and the development of functional oxide materials, positioning him as a leader in his field.

Education and Experience:

Ph.D. in Nanotechnology and Science – Indian Institute of Technology Bombay, India (2014-2017)
Research Associate-I (Electrical Engineering) – Indian Institute of Technology Bombay, India (04.2017 – 08.2018)
Postdoctoral Research Associate – University of Southern California, USA (08.2018 – 07.2019)
Postdoctoral Research Fellow – University of Michigan, USA (08.2019 – 08.2020)
Temporary Research Associate-III (Electrical Engineering) – IIT Bombay, India (03.2021 – 09.2021)
Postdoctoral Researcher (Physics and Astronomy) – University of Würzburg, Germany (10.2021 – 09.2023)
FTC Scientist (Materials Science) – C2N/CNRS, Université Paris-Saclay, France (04.2024 – ongoing)

Professional Development

Dr. Mahitosh Biswas is committed to continuous professional development, focusing on cutting-edge research in materials science. His experiences span various institutions worldwide, where he has honed his skills in molecular beam epitaxy and advanced materials fabrication. Through supervising Ph.D. students and collaborating on significant research projects, he actively contributes to the academic community. His involvement in the ERC Advanced “CRYPTONIT” grant project underscores his leadership in innovative research initiatives. Dr. Biswas is dedicated to bridging the gap between theoretical knowledge and practical applications in materials engineering.

Research Focus

Dr. Mahitosh Biswas’s research primarily focuses on hybrid oxide molecular beam epitaxy (MBE) and the development of atomically engineered quantum materials. His work includes investigating the fundamental properties of ferroelectric complex perovskites and their integration into high-efficiency energy storage devices. He also explores the design and characterization of nanostructures and heterostructures for optoelectronic applications, including photodetectors and LEDs. His innovative research significantly advances the fields of piezoelectricity and ferroelectricity, aiming to enhance performance in flexible electronics and high-power devices.

Awards and Honors

ERC Advanced Grant – “CRYPTONIT” (ongoing)
Recognition for Contributions – Numerous collaborations and research publications
Ph.D. Scholar – Indian Institute of Technology Bombay (2014-2017)

Publications

Molecular Beam Epitaxy of Homogeneous Topological HgTe on Doped InAs Substrate – Cited by 0 (2024)
Thermodynamically metastable α-, ε- (or κ-), and γ-Ga2O3: From material growth to device applications – Cited by 11 (2022)
Effects of rapid thermal annealing in InGaN/GaN quantum disk-in-GaN nanowire arrays – Cited by 10 (2020)
Engineering of carrier localization in BGaAs SQW for novel intermediate band solar cells: Thermal annealing effect – Cited by 8 (2020)
Growth of high quality (In,Ga)N films on O-face ZnO substrates by plasma-assisted molecular beam epitaxy – Cited by 5 (2020)
Enhanced optical and structural properties of MBE-grown AlGaN nanowires on Si substrate by H⁻ ion implantation and UV ozone treatment – Cited by 1 (2019)

Conclusion

Mahitosh Biswas’s extensive research experience, innovative contributions to nanotechnology, and commitment to academic excellence make him an outstanding candidate for the Best Researcher Award. His work not only advances scientific knowledge but also has significant implications for industry and technology, affirming his deservingness of this recognition.