Dilek Sönmezer Açıkgöz | Tissue engineering | Best Researcher Award

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Dr. Dilek Sönmezer Açıkgöz | Tissue engineering | Best Researcher Award

Phd at Çukurova University, Turkey

Dr. Dilek Sönmezer Açıkgöz is a Lecturer at Çukurova University’s Department of Biomedical Engineering, specializing in biomaterials, tissue engineering, and regenerative medicine. She holds a PhD from Erciyes University and has contributed to cutting-edge research on pericardial fluid applications in tissue engineering. Dr. Sönmezer has published extensively in SCI-indexed journals and presents regularly at international conferences.

Publication Profile

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🎓 Education

PhD: Biomedical Engineering, Erciyes University (2012-2022)MSc: Biomedical Engineering, Erciyes University (2008-2011)BSc: Biology, Erciyes University (2004-2008)Internship: Eindhoven University of Technology (2010-2011)

💼 Experience

Lecturer: Çukurova University (2014-present)Research: Tissue engineering, pericardial fluid characterization, biomaterial developmentPatent Holder: Ultrasonic system for coronary bypass surgery

🏆 Awards & Honors

Patent: Ultrasonic vascular measurement system (2015)Key Publications: Bio-Medical Materials and Engineering, Biotechnology Applied BiochemistryRecognitions: Frequent presenter at international biomedical conferences

🔬 Research Focus

Biomedical Engineering: Biomaterials, tissue engineering, pericardial fluid studiesBioprinting: Developing biocompatible bioinks for 3D printingRegenerative Medicine: Exploring extracellular matrix applications for tissue regeneration

Publications 📖

Applications of a Biocompatible Alginate/Pericardial Fluid-Based Hydrogel for the Production of a Bioink in Tissue Engineering
Biotechnology and Applied Biochemistry | 2024-12-02
DOI: 10.1002/bab.2697
Contributors: Dilek Sönmezer Açıkgöz, Fatma Latifoğlu, Güler Toprak, Münevver Baran

Production of Hydrogel with Alginate and Pericardial Fluid for Use in Tissue Engineering Applications
Çukurova Üniversitesi Mühendislik Fakültesi Dergisi | 2023-12-28
DOI: 10.21605/cukurovaumfd.1410697
Contributors: Dilek Sönmezer, Fatma Latifoğlu

A Native Extracellular Matrix Material for Tissue Engineering Applications: Characterization of Pericardial Fluid
Journal of Biomedical Materials Research Part B: Applied Biomaterials | 2023-09
DOI: 10.1002/jbm.b.35260
Contributors: Dilek Sönmezer, Fatma Latifoğlu, Güler Toprak, Münevver Baran

 

Conclusion

Dr. Dilek Sönmezer Açıkgöz stands out as a highly qualified candidate for the Best Researcher Award, with substantial contributions to biomedical engineering, tissue engineering, and biomaterials. Her dedication to research, publications in top journals, and development of patented technology make her a strong contender. Strengthening international partnerships and focusing on high-impact translational research can further enhance her candidacy for future recognitions.

Stephanie Willerth | Bioprinting | Best Researcher Award

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Prof. Dr. Stephanie Willerth | Bioprinting | Best Researcher Award

Professor at University of Victoria, Canada

The Willerth lab, led by an accomplished researcher in neural tissue engineering, focuses on innovations using pluripotent stem cells, controlled drug delivery, biomaterial scaffolds, and bioprinting for neural tissue development. With experience across top institutions, this scientist blends engineering with neuroscience for advanced tissue engineering applications, creating a dynamic training environment for future biomedical engineers.

Publication Profile

scholar

Education 🎓

Ph.D. in Biomedical Engineering, Washington University in St. Louis, 2008 (Dissertation: Effects of growth factor delivery on stem cell differentiation in fibrin scaffolds)M.S. in Biomedical Engineering, Washington University, 2008S.B. in Chemical Engineering, MIT, 2003S.B. in Biology, MIT, 2003NIH Postdoctoral Fellowship, UC Berkeley (focused on DNA sequencing technologies for HIV diversity and stem cell differentiation)

Experience 👩‍🔬

Adjunct Professor, Biomedical Engineering, Washington University, 2023Affiliate Professor, Biochemistry, University of British Columbia, 2016-2019Affiliate Professor, Wisconsin Institute for Discovery, University of Wisconsin-Madison, 2016-2018NIH F32 Post-Doctoral Fellowship, UC Berkeley, 2008-2010 (specialized in DNA sequencing and stem cell studies)

Awards and Honors 🏆

NIH F32 Fellowship, supporting research at the intersection of bioengineering and stem cell technologiesRecognized for groundbreaking work in bioprinting and neural tissue engineeringRecipient of various institutional and industry accolades for advancements in biomaterials and controlled drug deliveryHonored by the NIH and top research conferences for contributions to neural tissue engineering and stem cell differentiation

Research Focus 🧠

The Willerth lab specializes in engineering neural tissues via stem cell technologies, bioprinting, and drug delivery systems. Research spans pluripotent stem cell differentiation, biomaterial scaffolds, and cellular reprogramming to improve neural regeneration. This work combines principles of engineering and neuroscience, offering significant implications for treating neurodegenerative diseases and spinal cord injuries.

Publication  Top Notes

“The differentiation of embryonic stem cells seeded on electrospun nanofibers into neural lineages”Biomaterials, 2009. Cited 524 times. This study investigates stem cell differentiation on nanofiber scaffolds, advancing neural tissue engineering techniques.

“Approaches to neural tissue engineering using scaffolds for drug delivery”Advanced Drug Delivery Reviews, 2007. Cited 476 times. This review outlines scaffold-based drug delivery methods, influencing therapeutic strategies for neural regeneration.

“Emerging biofabrication strategies for engineering complex tissue constructs”Advanced Materials, 2017. Cited 401 times. This paper discusses biofabrication innovations for creating intricate tissue models, contributing to advanced biomaterials research.

“Conductive core–sheath nanofibers and their potential application in neural tissue engineering”Advanced Functional Materials, 2009. Cited 363 times. This research on conductive nanofibers highlights their role in enhancing neural tissue repair.

“Optimization of fibrin scaffolds for differentiation of murine embryonic stem cells into neural lineage cells”Biomaterials, 2006. Cited 344 times. This study optimizes fibrin scaffolds for effective stem cell differentiation, aiding neural tissue formation.

“Metal additive manufacturing: Technology, metallurgy and modelling”Journal of Manufacturing Processes, 2020. Cited 285 times. This paper examines metal additive manufacturing and its potential in bioengineering applications.

“Combining stem cells and biomaterial scaffolds for constructing tissues and cell delivery”Harvard Stem Cell Institute, 2008. Cited 265 times. This foundational work explores the integration of stem cells with biomaterials for tissue engineering.

“Cell therapy for spinal cord regeneration”Advanced Drug Delivery Reviews, 2008. Cited 190 times. This article discusses cell therapy approaches for spinal cord repair, influencing regenerative medicine.

“The effects of soluble growth factors on embryonic stem cell differentiation inside of fibrin scaffolds”Stem Cells, 2007. Cited 166 times. This paper focuses on controlled growth factor delivery to promote stem cell differentiation.

“Natural Biomaterials and Their Use as Bioinks for Printing Tissues”Bioengineering, 2021. Cited 152 times. Highlights the use of natural biomaterials as bioinks in 3D bioprinting for tissue engineering applications.

“3D printing of neural tissues derived from human induced pluripotent stem cells using a fibrin-based bioink”ACS Biomaterials Science & Engineering, 2018. Cited 151 times. Describes bioprinting neural tissues with fibrin-based bioinks, pushing the boundaries of regenerative bioprinting.

“Extrusion and Microfluidic-Based Bioprinting to Fabricate Biomimetic Tissues and Organs”Advanced Materials Technologies, 2020. Cited 143 times. This paper presents novel bioprinting methods for replicating complex tissue structures.

Conclusion

Given their significant contributions and research leadership in neural tissue engineering and stem cell bioprinting, this candidate is an excellent nominee for the Best Researcher Award. Their innovative methodologies, backed by strong academic and institutional affiliations, demonstrate a profound dedication to advancing regenerative medicine. With a minor focus on clinical translation and interdisciplinary collaborations, this researcher has the potential to influence the field profoundly, making them a highly deserving candidate for this honor.

Xulin Hu | tissue engineering | Best Researcher Award

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Assoc Prof Dr. Xulin Hu | tissue engineering | Best Researcher Award

Assoc Prof at Clinical Medical College and Affiliated Hospital of Chengdu University, China

Xulin Hu, a renowned researcher in polymer synthesis and biomedical materials, is affiliated with Chengdu University and the State Key Laboratory of Biotherapy at Sichuan University.  With a solid foundation in organic chemistry and biotherapy, Hu has authored over 20 SCI articles, publishing in leading journals like Advanced Functional Materials, Bone Research, and Small.  He also serves on editorial boards for several esteemed journals and is a scientific advisor for “Engineering for Life,” a top 3D printing company in China. He is dedicated to advancing biomedical applications through 3D printing technology and polymer research.

Publication Profile

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Education🎓

Xulin Hu completed his B.S. in polymer science at Sichuan University 🎓, and later pursued a PhD in Organic Chemistry at the Chinese Academy of Sciences under Prof. Chengdong Xiong, a distinguished mentor and former director of the Chengdu Institute of Organic Chemistry. 💡 He then conducted postdoctoral research at Sichuan University’s Cancer Center 🏥, mentored by Prof. Zhiyong Qian, an acclaimed expert and recipient of the National Science Fund for Distinguished Young Scholars. 🏅 His educational journey has been marked by rigorous research in polymer synthesis, biotherapy, and biomedical materials, laying the groundwork for his innovative contributions to 3D printing and biomedicine.

Experience📊

Xulin Hu is chairing multiple high-impact projects 🧑‍💼, including those funded by the Natural Science Foundation of Sichuan Province and the Chengdu Municipal Health Commission. His professional affiliations span from being an editorial board member of Journal of Biomaterials and Tissue Engineering and Material Express , to advising “Engineering for Life,” a leading 3D printing company in China. 🏭 He is also an active member of the Nano Branch of the China Biomedical Technology Association and the Chinese Chemical Society. 🔗 Hu’s expertise is recognized globally, with contributions to the advancement of biomedical materials through interdisciplinary research.

Awards and Honors 🏆 

Xulin Hu has garnered numerous accolades throughout his career, including chairing prominent projects funded by the Natural Science Foundation of Sichuan Province 🌟 and Chengdu Municipal Health Commission. He serves as an editorial board member for Journal of Biomaterials and Tissue Engineering and Material Express 📝, and as a scientific advisor for “Engineering for Life,” a top Chinese 3D printing company 🖨. Hu’s work has earned him recognition in the Nano Branch of the China Biomedical Technology Association 🧑‍🔬 and membership in several prestigious societies, including the Chinese Chemical Society (CCS) and the China Medicinal Biotech Association. 🎖🌍

Research Focus 🛠💡

Xulin Hu’s research focuses on 3D printing technologies , polymer synthesis and their applications in biomedical materials and biotherapy . His work integrates advanced materials science with medical applications, aiming to improve therapies through innovations in 3D-printed biomaterials and polymers. His publications span notable journals, and his projects often aim to address challenges in regenerative medicine and cancer therapy using bioprinting and functional polymers.  Hu’s collaborations with industrial partners, like “Engineering for Life,” further highlight his commitment to translating research into practical medical solutions.

Publication  Top Notes

Advanced Strategies for 3D-Printed Neural Scaffolds: Materials, Structure, and Nerve Remodeling

Journal: Bio-Design and Manufacturing

Published: August 23, 2024

DOI: 10.1007/s42242-024-00291-5

Contributors: Jian He, Liang Qiao, Jiuhong Li, Junlin Lu, Zhouping Fu, Jiafang Chen, Xiangchun Zhang, Xulin Hu

Targeting Staphylococcal Bone Infections

Journal: MedComm – Biomaterials and Applications

Published: March 2023

DOI: 10.1002/mba2.31

Contributors: Zhang Xiangchun, Xulin Hu, Hongping Chen

Recent Progress in 3D Printing Degradable Polylactic Acid‐Based Bone Repair Scaffold for the Application of Cancellous Bone Defect

Journal: MedComm – Biomaterials and Applications

Published: June 2022

DOI: 10.1002/mba2.14

Contributors: Xulin Hu, Zhidong Lin, Jian He, Minchang Zhou, Shuhao Yang, Yao Wang, Kainan Li

Conclusion

Xulin Hu is a highly qualified candidate for the Best Researcher Award, with a solid track record of publications, leadership in key projects, and contributions to biomedical materials and 3D printing research. His scientific achievements, leadership in collaborative efforts, and engagement in the wider scientific community make him a strong contender. With further efforts to increase his global presence and interdisciplinary outreach, Xulin Hu could continue to make even greater contributions to the field of biomedical science, reinforcing his standing as a leader in research.

 

Krishna Chaitanya Sunka | Corneal Tissue Engineering | Best Researcher Award

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Dr.  Digident India Private Limite, India

An ambitious researcher with a strong background in electronics, materials science, 3D design, and fabrication techniques, currently based at the Biomaterials & Tissue Engineering Laboratory, Indian Institute of Technology, Kharagpur, India. With extensive experience in medical systems, basic coding, and a blend of technical breadth and vision, I specialize in integrating electronics, medical, mechanical, and software technologies into innovative solutions. My research interests include Digital Dentistry, Biomaterials Synthesis, Bio-fabrication, Photopolymerization, Medical Implants, Flexible Bioelectronics, and Additive Manufacturing. I hold a Ph.D. from IIT Kharagpur and an M.S. from NIT Tiruchirappalli, with a B.Tech. from Sri Venkateswara University, Tirupati.

Professional Profiles:

Scopus

🎓 Educational Background

Ph.D. (School of Medical Science & Technology)
2016 – 2023
Indian Institute of Technology, Kharagpur, IndiaM.S. (by Research) (Dept. of Instrumentation & Control Engineering)
2010 – 2013 | CGPA: 8.3/10
National Institute of Technology, Tiruchirappalli, IndiaB.Tech. (Dept. of Electronics Instrumentation & Control Engineering)
Sri Venkateswara University, Tirupati, India

🔬 Research Interests

Digital DentistryBiomaterials Synthesis & CharacterizationBio-fabrication & PhotopolymerizationSurface FunctionalizationMedical Implants and DevicesFlexible BioelectronicsCell Isolation and CultureAdditive ManufacturingActuators and Sensors

💡 Professional Summary

An ambitious researcher at the Biomaterials & Tissue Engineering Laboratory, Indian Institute of Technology, Kharagpur, with practical experience in electronics, materials, 3D design, fabrication techniques, medical systems, and basic coding. My unique blend of technical breadth and vision enables me to work cross-functionally, integrating electronics, medical, mechanical, and software technologies into compelling customer experiences. I thrive in providing technical and tactical leadership to cross-disciplinary teams, driving innovation and excellence in research and development.

Strengths for the Award:

  1. Interdisciplinary Expertise:
    • The researcher possesses a diverse skill set, combining expertise in electronics, materials, 3D design, fabrication techniques, and medical systems. This interdisciplinary knowledge is a critical asset in the field of biomaterials and tissue engineering, enabling them to contribute to various aspects of research and innovation.
  2. Practical Experience:
    • With hands-on experience in both basic coding and advanced fabrication techniques, the researcher is well-equipped to translate theoretical concepts into practical applications. This practical approach is essential for advancing medical devices and technologies that can have real-world impacts.
  3. Leadership in Cross-Disciplinary Teams:
    • The researcher’s ability to lead cross-disciplinary teams is a significant strength. This skill is crucial for successful project management, especially in complex fields like tissue engineering where collaboration across various domains is necessary for innovation.
  4. Research Focus:
    • The individual’s research interests, including digital dentistry, biomaterials synthesis, medical implants, and flexible bioelectronics, align well with current trends and needs in biomedical research. Their focus on cutting-edge areas such as photopolymerization and additive manufacturing highlights their forward-thinking approach.
  5. Academic Credentials:
    • The researcher has a solid educational background with a Ph.D. from a prestigious institution (IIT Kharagpur) and an M.S. from NIT Tiruchirappalli. These credentials underscore their dedication and capability in pursuing advanced research.

Areas for Improvement:

  1. Publication and Citation Impact:
    • While the profile highlights practical experience and interdisciplinary knowledge, there is no mention of the researcher’s publication record or citation impact. Strengthening their publication portfolio, particularly in high-impact journals, could enhance their visibility and credibility in the academic community.
  2. Grant Writing and Funding Acquisition:
    • To further advance their research, the individual may benefit from developing skills in grant writing and securing research funding. This would not only support their projects but also demonstrate their ability to lead and sustain long-term research initiatives.
  3. International Collaboration:
    • Expanding their network through international collaborations could provide additional opportunities for growth and innovation. Engaging with global experts and participating in international conferences could also increase the researcher’s exposure and influence in the field.

 

✍️Publications Top Note :

A novel intralamellar semi-bioresorbable keratoprosthesis—Part A: Design conception, material perspective, and device manufacturing

Authors: Sunka, K.C., Byram, P.K., Paikkattil, N., Chaudhuri, B.R., Dhara, S.

Journal: Journal of Applied Polymer Science, 2024, 141(28), e55644

A new approach of aspheric intralamellar keratoprostheses optic design made with poly(2-hydroxy ethylmethacrylate) hydrogel

Authors: Sunka, K.C., Ghosh, A., Ganguly, P., Chaudhuri, B.R., Dhara, S.

Journal: Biomedical Physics and Engineering Express, 2024, 10(4), 045035

A novel intralamellar semi-bioresorbable keratoprosthesis—Part B: Surface functionalization and physico-chemical characterization toward site-specific cellular activity

Authors: Sunka, K.C., Byram, P.K., Paikkattil, N., Chaudhuri, B.R., Dhara, S.

Journal: Journal of Applied Polymer Science, 2024

Strategic fabrication of SEBS composite with high strength and stretchability via incorporation of polymer-grafted cellulose nanofibers for biomedical applications

Authors: Maji, P., Sunka, K.C., Das, M., Dhara, S., Naskar, K.

Journal: Cellulose, 2023, 30(15), pp. 9465–9484

Silk Fibroin-Based Biomaterials in Biomedical Applications

Authors: Byram, P.K., Das, L., Sunka, K.C., Dhara, S., Chakravorty, N.

Book: Functional Biomaterials: Drug Delivery and Biomedical Applications, 2022, pp. 203–244

Machinable regenerated silk fibroin monoliths for tissue engineering applications

Authors: Sunka, K.C., Byram, P.K., Kumar, A., Chaudhuri, B.R., Dhara, S.

Journal: Trends in Biomaterials and Artificial Organs, 2021, 35(5), pp. 438–446

Biomimetic silk fibroin and xanthan gum blended hydrogels for connective tissue regeneration

Authors: Byram, P.K., Sunka, K.C., Barik, A., Dhara, S., Chakravorty, N.

Journal: International Journal of Biological Macromolecules, 2020, 165, pp. 874–882

Role of nanofibers on MSCs fate: Influence of fiber morphologies, compositions and external stimuli

Authors: Rajasekaran, R., Seesala, V.S., Sunka, K.C., Banerjee, M., Dhara, S.

Journal: Materials Science and Engineering C, 2020, 107, 110218

Design and investigation of a shape memory alloy actuated gripper

Authors: Chaitanya, S.K., Dhanalakshmi, K.

Journal: Smart Structures and Systems, 2014, 14(4), pp. 541–558

Demonstration of self-sensing in Shape Memory Alloy actuated gripper

Authors: Chaitanya, S.K., Dhanalakshmi, K.

Conference: IEEE International Symposium on Intelligent Control, 2013, pp. 218–222

Conclusion:

The researcher from the Biomaterials & Tissue Engineering Laboratory at IIT Kharagpur is a strong candidate for the Best Researcher Award. Their interdisciplinary expertise, practical experience, and leadership abilities make them well-suited for recognition in the field of biomaterials and tissue engineering. By focusing on increasing their publication impact, securing research funding, and expanding international collaborations, the researcher can further strengthen their case for this prestigious award. Their potential for innovation and contribution to the field positions them as a deserving recipient of the Best Researcher Award.

Mohammad Boshir Ahmed | Biomaterials | Best Researcher Award

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Dr. Mohammad Boshir Ahmed | Biomaterials | Best Researcher Award

Dr. The University of Adelaide, Australia

Dr. Mohammad Boshir Ahmed is a Future Making Fellow at the University of Adelaide’s Institute for Sustainability, Energy and Resources, with a research focus on carbon fibers, polymeric biomaterials, and environmental remediation. He previously held a Brain Pool Fellowship at Gwangju Institute of Science and Technology in South Korea. Dr. Ahmed earned his Ph.D. in Environmental Engineering from the University of Technology Sydney, Australia, where his research explored the removal of antibiotics and endocrine disruptors using biochar. His academic and industrial experience includes teaching, product development, and leading significant research projects.

 

Professional Profiles:

scopus

Google scholar

Orcid

🏢 Employment History

Future Making Fellow (FMF), 01/2024-Present
Institute for Sustainability, Energy and Resources (ISER), Chemical Engineering;
The University of Adelaide (UoA), Australia.Brain Pool Fellow (BPF), 07/2019-12/2023
Bioelectronics Materials Laboratory; School of Materials Science and Engineering;
Gwangju Institute of Science and Technology (GIST), South Korea.
Mentor: Prof. Myung-Han YoonAssistant Teacher (Chemistry and Science), 01/2013-08/2014
Nakhalpara Hossain Ali High School, Bangladesh.Product Development Officer, 10/2010-11/2012
Beauty Care Cosmetics & Chemicals, Bangladesh.

🎓 Educational Background

Ph.D., Environmental Engineering, University of Technology (UTS), 01/2015-11/2018
Sydney, Australia.
Supervisor: Prof. John L Zhou
Thesis Title: “Mechanistic insights into antibiotics and endocrine disruptor’s removal by wood-derived biochar, functionalized biochar, and biochar composite”MSc. (Research), Applied Chemistry & Chemical Technology, 06/2009-06/2011
University of Rajshahi, Bangladesh.
GPA: 4.00 (out of 4.00), Distinction, 5th Position
Supervisor: Prof. Shahidur Rahman
Project Title: “Bio-oil production from woody biomass under different heating rate conditions”BSc, Applied Chemistry & Chemical Technology, 04/2004-03/2009
University of Rajshahi, Bangladesh
GPA: 3.91 (out of 4.00), Distinction, 1st Position (Gold medal)

🛠 Completed Projects in South Korea

Development of Polymer-Based Carbon Nanostructure Doping for Electrical and Energy Applications
Funded by NRF, South Korea.
Synopsis: Development of carbon fiber-based free-standing electrodes for electrical and energy applications.Natural Polymer-Based Hydrogel Fiber for Soft Bioelectronics and Agricultural Materials
Synopsis: Development of totally natural polymer and natural macromolecule-based hydrogel without using any toxic cross-linkers.Development of 3D Arbitrary-Shaped Soft Conductive Structures via Conducting Polymer’s Structure-Property Relation Study
Synopsis: Development of soft conductive structures.

📚 Research and Teaching Experiences

Brain Pool Fellow (BPF), 07/2019-12/2023
Bioelectronics Materials Laboratory; School of Materials Science and Engineering;
Gwangju Institute of Science and Technology (GIST), South Korea.
Mentor: Prof. Myung-Han YoonPresented research updates in lab and subgroup meetings.Participated in project meetings, preparation of refereed journal publications, conferences, and seminars.Investigated carbon fiber and hydrogel fiber, composite materials preparation, and conductive polymers-based composite preparation.Assisted with the supervision of undergraduate, MSc, and Ph.D. student projects.Teaching Assistant, 03/2017-12/2018
Environmental Engineering, University of Technology Sydney, Australia.Developed coursework, online content, and assessments.Guided students through laboratory projects and manuscript writing.Doctoral Research, 01/2015-11/2018
Environmental Engineering, University of Technology Sydney, Australia.Designed pyrolysis reactor for biochar preparation.Developed new analytical methods for π-π electron-donor interactions.Guided capstone students and helped other students in manuscript writing.Assistant Teacher, 01/2013-08/2014
Chemistry and Science, Nakhalpara Hossain Ali High School, Bangladesh.Developed coursework and conducted classes for grades IX and X.Product Development Officer, 10/2010-11/2012
Beauty Care Cosmetics & Chemicals, Bangladesh.Engaged in product formulation, analysis, and preparation.

🎓 Teaching and Research Interests

Teaching Inductions and Certificates:
Completed teaching inductions and obtained certificates from the University of Adelaide.Teaching Interests:
Introductory Chemistry, General Chemistry, Chemical Engineering, Environmental Engineering, Materials Science and Engineering, Separation Processes, Chemical Reaction Engineering, Physical Chemistry, Advanced Inorganic Chemistry, Organic Chemistry, Environmental Chemistry, Chemical Technology, Instrumental Methods, Polymer Science, Fuel and Energy Engineering, Petrochemical Engineering, Pharmaceutical Chemistry, Material Engineering, Nano-Science and Technology, and related courses. I deploy interactive teaching methodologies and a creative teamwork approach to knowledge transfer.Research Expertise: Carbon fibers and polymeric biomaterials synthesis for energy and bioelectronics applications; natural polymer-based hydrogel scaffold and 3-D nanostructures fabrication for soft electronics and agricultural applications; catalyst preparation and environmental remediation.

Dr. Mohammad Boshir Ahmed for Best Researcher Award

Strengths for the Award:

  1. Diverse Research Expertise: Dr. Ahmed has a rich and diverse research background that spans environmental engineering, materials science, and nanotechnology. His work in carbon fibers, polymeric biomaterials, and bioelectronics has led to significant advancements, particularly in the areas of energy applications and environmental remediation. His ability to work on interdisciplinary projects demonstrates a strong versatility that is crucial for impactful research.
  2. High-Impact Publications: Dr. Ahmed has an impressive portfolio of publications in high-impact journals, such as Scientific Reports and Journal of Thermal Analysis and Calorimetry. His work on biochar, nanofluids, and functionalized materials for pollutant removal is highly cited, indicating the relevance and impact of his research in the scientific community.
  3. Successful Research Funding: Securing multiple research grants, including substantial funding from the National Research Foundation of Korea and the University of Adelaide, showcases Dr. Ahmed’s ability to propose and execute high-value projects. This demonstrates his credibility and the trust that the scientific and funding communities place in his work.
  4. International Experience and Collaborations: His experience as a Brain Pool Fellow in South Korea and his current position as a Future Making Fellow in Australia highlight his international exposure and ability to collaborate across borders. Working under renowned mentors like Prof. Myung-Han Yoon has provided him with strong mentorship, enhancing his research output and international network.
  5. Teaching and Mentorship: In addition to his research, Dr. Ahmed has contributed significantly to teaching and mentoring students at various levels. His ability to guide students in research and develop coursework adds value to his profile as an academic leader.

Areas for Improvement:

  1. Focused Research Themes: While Dr. Ahmed’s interdisciplinary approach is a strength, narrowing down his research focus to a few key themes could potentially increase the depth and specialization of his work. This could lead to more groundbreaking discoveries in specific areas of biomaterials and environmental engineering.
  2. Industrial Collaborations and Commercialization: Increasing collaborations with industry and focusing on the commercialization of his research could enhance the practical impact of his work. His past experience with industrial projects, such as the one with Samsung, indicates potential in this area that could be further developed.
  3. Leadership in Large-Scale Projects: Taking on leadership roles in large-scale, multi-institutional projects could further establish Dr. Ahmed as a leading figure in his field. This would also provide opportunities to manage larger teams and resources, thereby boosting his profile for major awards.

✍️Publications Top Note :

Progress in the Biological and Chemical Treatment Technologies for Emerging Contaminant Removal from Wastewater: A Critical Review

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo, NS Thomaidis, J Xu

Journal: Journal of Hazardous Materials

Citations: 1,177

Year: 2017

Adsorptive Removal of Antibiotics from Water and Wastewater: Progress and Challenges

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo

Journal: Science of the Total Environment

Citations: 1,098

Year: 2015

Progress in the Preparation and Application of Modified Biochar for Improved Contaminant Removal from Water and Wastewater

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo, M Chen

Journal: Bioresource Technology

Citations: 770

Year: 2016

Industrial Metal Pollution in Water and Probabilistic Assessment of Human Health Risk

Authors: N Saha, MS Rahman, MB Ahmed, JL Zhou, HH Ngo, W Guo

Journal: Journal of Environmental Management

Citations: 460

Year: 2017

Recent Developments of Carboxymethyl Cellulose

Authors: MS Rahman, MS Hasan, AS Nitai, S Nam, AK Karmakar, MS Ahsan, …

Journal: Polymers

Citations: 401

Year: 2021

Insight into Biochar Properties and Its Cost Analysis

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo

Journal: Biomass and Bioenergy

Citations: 348

Year: 2016

Single and Competitive Sorption Properties and Mechanism of Functionalized Biochar for Removing Sulfonamide Antibiotics from Water

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo, MAH Johir, K Sornalingam

Journal: Chemical Engineering Journal

Citations: 331

Year: 2017

Activated Carbon Preparation from Biomass Feedstock: Clean Production and Carbon Dioxide Adsorption

Authors: MB Ahmed, MAH Johir, JL Zhou, HH Ngo, LD Nghiem, C Richardson, MA Moni, MR …

Journal: Journal of Cleaner Production

Citations: 249

Year: 2019

Zeolite Synthesis from Low-Cost Materials and Environmental Applications: A Review

Authors: A Khaleque, MM Alam, M Hoque, S Mondal, JB Haider, B Xu, MAH Johir, …

Journal: Environmental Advances

Citations: 219

Year: 2020

Competitive Sorption Affinity of Sulfonamides and Chloramphenicol Antibiotics Toward Functionalized Biochar for Water and Wastewater Treatment

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo, MAH Johir, D Belhaj

Journal: Bioresource Technology

Citations: 200

Year: 2017

Conclusion:

Dr. Mohammad Boshir Ahmed is a strong candidate for the Best Researcher Award due to his extensive research contributions, interdisciplinary expertise, and international experience. His work is not only academically significant but also has real-world applications that address critical issues in sustainability, energy, and environmental health. By focusing on thematic specialization, enhancing industrial collaborations, and taking on leadership roles in large-scale projects, Dr. Ahmed can further solidify his standing as a leading researcher in his field.

 

Dr. Nafise Kazemi | Core-shell nanofibers containing Award | Best Researcher Award

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Dr. Nafise Kazemi | Core-shell nanofibers containing Award | Best Researcher Award

Dr. Nafise Kazemi,Najafabad university, Iran

Dr. Nafise Kazemiis academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

Professional Profiles:

scopus

Education

Ph.D. in Materials Engineering – Biomaterials
Islamic Azad University Najafabad Branch, Najafabad, IranThesis Title:“Fabrication and characterization of the properties of PLA-PVP-Forsterite Nanocomposite scaffold by 3Dprinting method for use in bone tissue engineering”Duration: 2018 – PresentM.Sc. in Materials Engineering – Materials CharacterizationIslamic Azad University Najafabad Branch,Najafabad, IranThesis Topic:“Preparation of Aluminate barium doped with iron and investigation of photoluminescence and magnetic properties”Duration: 2013 – 2015B.Sc. in Materials Engineering – CeramicMeybod University, Yazd, IranDuration: 2005 – 2009

Skills and Expertise

Highly skilled engineer with years of research experience in:NanocompositesDental materialsDrug delivery systemsBone treatment and wound dressingsFabrication of tissue engineering scaffolds using 3D printing methodsTests related to characterization, ex vivo, in vivo, and in vitroMotivated to group working, dedicated responsible, and organized person. Possess excellent interpersonal and communication abilities and a wide range of technical skills in:Animal testsCell culture[Add more technical skills here]

📖 Publications  Top Note :

Core-shell nanofibers containing L-arginine stimulates angiogenesis and full thickness dermal wound repair

Authors: N. Kazemi, M. Javad Mahalati, Y. Kaviani, A. Najafinezhad, M. Mirhaj

Journal: International Journal of Pharmaceutics

Year: 2024

Volume: 653

Pages: 123931

Graphene oxide-encapsulated Baghdadite nanocomposite improved physical, mechanical, and biological properties of a vancomycin-loaded PMMA bone cement

Authors: M. Tavakoli, A. Najafinezhad, M. Mirhaj, N. Kazemi, S. Nasiri-Harchegani

Journal: Journal of Biomaterials Science, Polymer Edition

Year: 2024

Asymmetric tri-layer sponge-nanofiber wound dressing containing insulin-like growth factor-1 and multi-walled carbon nanotubes for acceleration of full-thickness wound healing

Authors: M. Tavakoli, M. Mirhaj, J. Varshosaz, M. Mehrjoo, M. Shahriari-Khalaji

Journal: Biomaterials Advances

Year: 2023

Volume: 151

Pages: 213468

A 3D printed polylactic acid-Baghdadite nanocomposite scaffold coated with microporous chitosan-VEGF for bone regeneration applications

Authors: S. Salehi, M. Tavakoli, M. Mirhaj, M. Mehrjoo, E. Emami

Journal: Carbohydrate Polymers

Year: 2023

Volume: 312

Pages: 120787

PDGF and VEGF-releasing bi-layer wound dressing made of sodium tripolyphosphate crosslinked gelatin-sponge layer and a carrageenan nanofiber layer

Authors: M. Alizadeh, S. Salehi, M. Tavakoli, M. Mirhaj, S.A.M. Abadi, M. Mehrjoo

Journal: International Journal of Biological Macromolecules

Year: 2023

Volume: 233

Pages: 123491

Coaxial electrospun angiogenic nanofiber wound dressing containing advanced platelet rich-fibrin

Authors: M. Tavakoli, M. Mirhaj, S. Salehi, N. Kazemi, V. Haghighi

Journal: International Journal of Biological Macromolecules

Year: 2022

Volume: 222

Pages: 1605–1618

Preparation of a biomimetic bi-layer chitosan wound dressing composed of A-PRF/sponge layer and L-arginine/nanofiber

Authors: M. Mirhaj, M. Tavakoli, J. Varshosaz, V. Haghighi, M. Alizadeh

Journal: Carbohydrate Polymers

Year: 2022

Volume: 292

Pages: 119648

Platelet rich fibrin containing nanofibrous dressing for wound healing application: Fabrication, characterization and biological evaluations

Authors: M. Mirhaj, M. Tavakoli, J. Varshosaz, S. Salehi, N. Kazemi

Journal: Biomaterials Advances

Year: 2022

Volume: 134

Pages: 112541