Arezoo Faridzadeh | Immunology | Best Researcher Award

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Dr. Arezoo Faridzadeh | sustainable building construction material | Best Researcher Award

Immunologist at Mashhad University of Medical Sciences,Iran ,Iran

A dedicated Postdoctoral Candidate specializing in Immunology and Rheumatology at Mashhad University of Medical Sciences (MUMS), this researcher excels in innovative immunological studies. With an MD and Ph.D. from MUMS, they bring a decade of expertise to cutting-edge research. Their academic journey is complemented by advanced lab techniques, software proficiency, and active participation in global congresses, reflecting a commitment to understanding autoimmune diseases and COVID-19 immunopathology.

 

Publication Profile

scholar

Education  🎓

Postdoc in Immunology & Rheumatology | Mashhad University of Medical Sciences (MUMS), 2023-PresentPh.D. in Immunology | Mashhad University of Medical Sciences (MUMS), 2017-2022 (GPA: 4/4)MD in Medicine | Mashhad University of Medical Sciences (MUMS), 2009-2017 (GPA: 4/4)High School Diploma | National Organization for Development of Exceptional Talents, 2005-2008

Experience  🔬

Expert in PCR, Flow Cytometry, Western Blotting, and ELISAReviewer for health sciences journals with 2 ISI articlesDelivered research contributions in COVID-19 immunology and probiotics for autoimmune diseasesAttended major congresses like ICIA 2023 and Euro-Global Summit 2024

Awards and Honors 🏆

Full scholarship for MD-Ph.D. in Immunology at MUMSRanked 1st in comprehensive Ph.D. immunology exams (2019)Secured funding for 10+ immunological studiesKey contributor to COVID-19 National Research Plan

Research Focus  🧬

Evaluating probiotic effects on autoimmune diseases (e.g., lupus, rheumatoid arthritis)Investigating gene polymorphisms in COVID-19 severityExploring immunological mechanisms in allergies and systemic diseasesDeveloping novel insights into autoimmune and inflammatory conditions

Publication  Top Notes

 

“Multisystem Inflammatory Syndrome and Autoimmune Diseases Following COVID-19: Molecular Mechanisms and Therapeutic Opportunities” Frontiers in Molecular Biosciences, 2022

“Neuroprotective Potential of Aromatic Herbs: Rosemary, Sage, and Lavender” Frontiers in Neuroscience, 2022

“The Role of Melatonin as an Adjuvant in the Treatment of COVID-19: A Systematic Review” Heliyon, 2022

“Venous Thromboembolism in Viral Diseases: A Comprehensive Literature Review” Health Science Reports, 2023

Conclusion:

The candidate’s profile clearly demonstrates the potential to be an outstanding Best Researcher Award nominee. With an exceptional academic background, ongoing contributions to critical immunological research, and active participation in both national and international research communities, the candidate is highly deserving of recognition. However, enhancing the global impact of their research through additional publications and expanding their focus into broader immunology topics could further solidify their position as a leading researcher. Nonetheless, the candidate’s current achievements already place them among the top in their field.

Rupali Tiwari | sustainable building construction material | Best Researcher Award

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Dr. Rupali Tiwari | sustainable building construction material | Best Researcher Award

Scientific researcher at Technical University in zvolen, Slovakia

🌟 Enthusiastic researcher with expertise in thermophysical analysis and wood thermal insulation. 🧪 Skilled in advanced techniques like Hot Disk 2500s, fostering sustainable practices. 🌍 Active contributor to international conferences and academic communities. 📚 Passionate about innovative research in materials science and eco-friendly solutions. 🎓

 

Publication Profile

scholar

Education🎓 

Ph.D. in Thermal Properties, advancing knowledge of sustainable materials. M.Sc. in Materials Science, specializing in innovative thermal property analysis. B.Sc. in Physics, laying a strong foundation in scientific methodologies  Continuing education through workshops and seminars in advanced materials.

Experience👨‍🏫 

Postdoctoral Scholar at Technical University in Zvolen: Thermal property measurements, lectures, and conferences.  Research Assistant: Thermophysical analysis for sustainable construction solutions. Academic Lecturer: Delivering knowledge to BSc and MSc students on material properties.  International Collaborator: Active in global projects on eco-friendly innovations.

Awards and Honors🏆 

Best Paper Award for contributions to sustainable materials research. Recognized Speaker at international conferences on thermal properties  Honored for innovations in thermophysical parameter analysis. Recipient of research grants for eco-friendly construction projects.

Research Focus🌱

Eco-friendly particleboards and wood as thermal insulators.Analysis of thermophysical parameters using Hot Disk and Pulse Transient methods. Historical wood analysis for cultural heritage preservation.  Innovations in sustainable building materials and construction solutions.

Publication  Top Notes

 

Thermal Analysis of Rocks and Building Materials

Non-planar Carbonate Rock Surfaces
📜 Title: The non-planar surface of carbonate rock sample affecting the behaviour of thermal response and the measurement of thermophysical parameters by Pulse Transient Technique.
📚 Journal: Thermal Science and Engineering Progress (2021).
🔍 Focus: Investigated how surface irregularities influence thermal behavior during parameter measurement.
👥 Collaborators: V. Boháč, P. Dieška, G. Goetzl.
🔗 Citations: 11.

Limestone Thermal Properties
📜 Title: Thermal properties of limestone rock by pulse transient technique using slab model accounting for the heat transfer coefficient and heat capacity of heat source.
📚 Journal: AIP Conference Proceedings (2020).
🔍 Focus: Explored slab model application for precise thermophysical measurements.
🔗 Citations: 7.

Sustainable Building Envelopes
📜 Title: Investigation of thermophysical properties of Turkey oak particleboard for sustainable building envelopes.
📚 Journal: Developments in the Built Environment (2023).
🔍 Focus: Analyzed particleboard properties for eco-friendly construction.
🔗 Citations: 5.

Innovations in Methodologies

Carbonate Rock Thermophysical Models
📜 Title: Thermophysical Parameters of Carbonate Rock estimated by Slab Model Developed for Pulse Transient Technique.
📚 Journal: Measurement Science Review (2020).
🔍 Focus: Developed slab models to enhance thermophysical parameter accuracy.
🔗 Citations: 4.

Uncertainty Analysis of Pulse Transient Models
📜 Title: Uncertainty Analysis of Pulse Transient Model Accounting Thermal Contact Effect.
📚 Conference: 12th International Conference on Measurement (2019).
🔍 Focus: Evaluated model reliability under thermal contact variations.
🔗 Citations: 1.

Advancements in Sustainable Wood and Particleboards

Historical Wood Analysis
📜 Title: Investigation of thermophysical parameters of historical fir wood using hot disk method under room ambience.
📚 Journal: AIP Conference Proceedings (2024).
🔍 Focus: Studied historical fir wood for restoration and heritage preservation.
🔗 Citations: 1.

Low-Density Alder Wood Properties
📜 Title: Thermophysical properties of low-density Alder wood (Alnus cordata Loisel) under room ambience.
📚 Journal: AIP Conference Proceedings (2023).
🔍 Focus: Evaluated wood properties for thermal applications.
🔗 Citations: 1.

Thermal Properties of Oak Boards
📜 Title: Thermal properties of Oak high density board measured by the pulse transient method for different heat pulse energy.
📚 Journal: AIP Conference Proceedings (2023).
🔍 Focus: Investigated how energy variations affect board properties.
🔗 Citations: 1.

Siberian Larch Wood Properties
📜 Title: Effect of thermo-vacuum modification on selected chemical, physical, and mechanical properties of Siberian larch (Larix sibirica L.) wood.
📚 Journal: Wood Material Science & Engineering (2023).
🔍 Focus: Analyzed thermo-vacuum modifications on larch wood.
🔗 Citations: 3.

Pulse Transient Technique for Concrete
📜 Title: Thermophysical properties of concrete measured by the pulse transient method using slab and cuboid models.
📚 Journal: AIP Conference Proceedings (2020).
🔍 Focus: Compared models for measuring concrete’s thermal properties.
🔗 Citations: 2.

Energy Storage in Natural Materials
📜 Title: The development of physical models and methods for measuring the thermal properties of natural materials suitable for the energy storage of the thermal energy in the earth’s crust.
📚 Journal: Self-published Research (2021).
🔍 Focus: Explored natural materials for geothermal energy storage.
🔗 Citations: 2.

 

Conclusion

The candidate stands out as a strong contender for the Best Researcher Award due to their innovative research, dedication to sustainability, and significant academic contributions. Their strengths in utilizing cutting-edge methodologies and contributing to eco-friendly construction practices make them an exemplary leader in their field. Addressing areas for improvement, such as expanding the scope of research and enhancing public engagement, could further amplify their impact. Nonetheless, their accomplishments and commitment to sustainable innovation position them as a deserving recipient of this prestigious recognition.

Md Mahfuzur Rahman | Cellulose | Best Researcher Award

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Dr.  Bangladesh University of Textiles, Bangladesh

I am currently pursuing a B.Sc. degree in Textile Engineering with a specialization in Industrial and Production Engineering at the Bangladesh University of Textiles (BUTEX) in Bangladesh. Since 2018, I have been working as a research assistant at both BUTEX and North South University (NSU). My research interests include Nanomaterials & Nanomechanics, Semiconductor Electrophysics, Magnetic Materials, Wearable Smart Textiles, Biomedical applications, Thin Film Magnetism, First-principle DFT studies, and Engineered 2D Quantum Materials. I have previously conducted research on ferrite nanomaterials, synthesizing and characterizing their properties, as well as sustainable textiles. I have recently been working on smart textiles and experimental and DFT analysis of perovskite materials. Moreover, I actively participated in various clubs, including BUTEX Sports Club and BUTEX Youth Development Club, which honed my leadership and event management skills. From an early age, mathematics has been my favorite subject, and I have actively participated in the Bangladesh Mathematical Olympiad, achieving two awards. Additionally, in 2016, I secured the 12th position in the Bangladesh Physics Olympiad. I also participated at Asian Pacific Mathematical Olympiad. My penchant for creative endeavors inspired my research journey, which began in my first year of undergraduate studies.

Professional Profiles:

Orcid

🎯 Career Objective

I aim to be a valuable professional contributing to institutions and society through creative and impactful research. Seeking a research-oriented position to leverage my knowledge and skills, I thrive in challenging environments that foster continuous learning. My passion lies in Material Science related research.

🎓 Education

Bangladesh University of Textiles, Dhaka, BangladeshB.Sc. in Textile Engineering (Specialization in Industrial & Production Engineering) (2018-2023)CGPA: 3.16/4Rajshahi Govt. City College, Rajshahi, BangladeshHigher Secondary Certificate (2017)GPA: 5/5Agrani School and College, Rajshahi, BangladeshSecondary School Certificate (2015)GPA: 5/5

💻 Technical Qualifications

Computer Skills

C, Python, MS Office, OriginLab Software, FullProf Software, Imagej, CAD, CATIA, CASTEP, SolidWorks

Experimental Techniques

X-ray Diffraction (XRD), FTIR, FESEM, Transmission Electron Microscopy, UV-Visible Spectroscopy, Vibrating Sample Magnetometer, Universal Testing Machine, TGA, DTA

Theoretical Techniques

Rietveld Analysis, DFT Investigation, Stress and Displacement Analysis

🔬 Research Interests

Wearable Smart TextilesBiomedicalNanomaterials & NanomechanicsSemiconductor Electro-physicsAdditive ManufacturingThin Film MagnetismFirst-Principle DFT StudyPhotovoltaics

Strengths for the Award:

  • Research Contributions: The researcher should have a strong portfolio of impactful publications, such as high-quality journal articles, conference papers, or patents, that have significantly contributed to their field.
  • Innovation: The researcher’s work should demonstrate a high level of innovation, leading to new discoveries or advancements in technology, methodology, or understanding in their area of expertise.
  • Collaboration and Leadership: The researcher should have a track record of leading or collaborating on interdisciplinary projects, demonstrating their ability to work with a diverse range of experts.
  • Recognition and Awards: Previous recognition through awards, grants, or invitations to speak at conferences can highlight the researcher’s influence and reputation in their field.
  • Impact on Society: The research should have a tangible impact on society, such as applications in industry, policy changes, or contributions to solving real-world problems.

Areas for Improvement:

  • Broader Impact: While the researcher may have made significant contributions to a specific field, they may need to expand the reach of their work to have a broader impact across multiple disciplines.
  • Communication and Outreach: The ability to communicate research findings to a non-specialist audience, including the general public, policymakers, or industry stakeholders, is increasingly important. Improvement in this area could enhance the visibility and impact of their work.
  • Diversity and Inclusion: The researcher could focus more on mentoring underrepresented groups in their field or engaging in initiatives that promote diversity and inclusion in science and research.
  • Sustainability and Ethics: Depending on the research field, the researcher may need to incorporate more sustainable practices or address ethical considerations in their work.

✍️Publications Top Note :

Cellulose Fiber from Jute and Banana Fiber:

Publication: “Physical properties of isolated cellulose fiber from jute and banana fiber through kraft pulping: Potential applications in packaging and regenerated fibers.”

Journal: SPE Polymers (2024).

Focus: Investigation of the physical properties of cellulose fibers derived from jute and banana through kraft pulping. The study explores potential applications in packaging and the development of regenerated fibers.

Electromagnetic Properties of Al3+ Substituted Ni–Co Ferrites:

Publication: “Rietveld refined structural and sintering temperature dependent electromagnetic properties of Al3+ substituted Ni–Co ferrites prepared through sol–gel auto combustion method for high-frequency and microwave devices.”

Journal: Journal of Materials Science: Materials in Electronics (2024).

Focus: This research delves into the electromagnetic properties of Al3+ substituted Ni-Co ferrites, emphasizing their application in high-frequency and microwave devices.

Triboelectric Nanogenerators:

Publication: “Carbon-based Textile structured Triboelectric Nanogenerators for Smart Wearables.”

Status: Preprint (2024).

Focus: Development of carbon-based textile triboelectric nanogenerators aimed at powering smart wearable devices.

Magnetic and Optoelectronic Properties of Ni-Cu Spinel Ferrites:

Publication: “Magnetic, optoelectronic, and rietveld refined structural properties of Al3+ substituted nanocrystalline Ni-Cu spinel ferrites: An experimental and DFT based study.”

Journal: Journal of Magnetism and Magnetic Materials (2023).

Focus: Study of the magnetic, optoelectronic, and structural properties of Ni-Cu spinel ferrites, including experimental and theoretical (DFT) approaches.

Dielectric and Electrical Transport in Ni-Cu Spinel Ferrites:

Publication: “Structural, dielectric, and electrical transport properties of Al3+ substituted nanocrystalline Ni-Cu spinel ferrites prepared through the sol–gel route.”

Journal: Results in Physics (2022).

Focus: Analysis of dielectric and electrical transport properties in Al3+ substituted Ni-Cu spinel ferrites synthesized using the sol-gel method.

Structural and Magnetic Properties of Ni-Zn Ferrites:

Publication: “Structural, magnetic, and electrical properties of Ni0.38−xCu0.15+yZn0.47+x−yFe2O4 synthesized by sol–gel auto-combustion technique.”

Journal: Journal of Materials Science: Materials in Electronics (2021).

Conclusion:

  • Suitability for the Award: Based on the evaluation of strengths and areas for improvement, the researcher appears highly suitable for the “Best Researcher Award.” Their significant contributions to their field, coupled with a track record of innovation and leadership, make them a strong candidate.
  • Final Recommendation: While the researcher is highly qualified, they could further enhance their candidacy by expanding the impact of their work, engaging more with the broader community, and contributing to initiatives that promote diversity and sustainability in research.