Xiangling Li | Engineering | Best Researcher Award

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Dr. Xiangling Li | Engineering | Best Researcher Award

Research Associate, Dartmouth College, United States

Dr. Xiangling Li is an accomplished researcher in biomedical engineering, specializing in micro/nano manufacturing, wearable bioelectronics, and precision medical devices. He currently serves as an Assistant Research Fellow at Dartmouth College, where he focuses on integrating advanced materials and nanotechnology into medical applications. With a Ph.D. from Sun Yat-sen University and postdoctoral research at the University of Southern California, Dr. Li has contributed to cutting-edge innovations in biosensors, drug delivery, and flexible electronics. His groundbreaking research has led to numerous high-impact publications in Advanced Science, Nature Communications, Advanced Functional Materials, and ACS Applied Materials & Interfaces, accumulating hundreds of citations. Dr. Li’s expertise in interdisciplinary research enables the development of next-generation medical devices, improving patient care and diagnostics. His work in integrating electronics, materials science, and life sciences has positioned him as a leader in the field, driving innovations in biomedical engineering and translational medicine.

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Education

Dr. Xiangling Li pursued his academic journey with a strong focus on biomedical engineering and materials science. He earned his Ph.D. in Engineering (Biomedical Engineering) from Sun Yat-sen University, China (2018–2022), where he conducted pioneering research under the guidance of Prof. Xi Xie. His doctoral research focused on developing smart nanomaterials and biosensors for medical applications. After completing his Ph.D., he joined the University of Southern California as a Postdoctoral Fellow (2022–2023) under Prof. Hangbo Zhao, where he advanced his work on flexible bioelectronics and precision medicine. Dr. Li is currently an Assistant Research Fellow at Dartmouth College (since 2023), working with Prof. Wei Ouyang on cutting-edge medical technologies. His diverse educational background has equipped him with expertise in nano/microfabrication, electronic biosensors, and biomedical device engineering, enabling him to make significant contributions to translational medicine and wearable healthcare solutions.

Experience

Dr. Xiangling Li has extensive experience in biomedical engineering, focusing on micro/nano fabrication, biosensors, and advanced medical devices. He is currently an Assistant Research Fellow at Dartmouth College (2023–Present), where he explores novel bioelectronic interfaces for healthcare applications. Previously, he was a Postdoctoral Fellow at the University of Southern California (2022–2023), where he contributed to research on flexible electronic systems for precision medicine. Dr. Li completed his Ph.D. at Sun Yat-sen University (2018–2022), where he developed groundbreaking microfabricated biosensors and drug delivery platforms. His research expertise spans interdisciplinary fields, including wearable diagnostics, nanotechnology-enabled therapeutics, and malleable electronics. With multiple high-impact publications and extensive collaborations across disciplines, Dr. Li’s contributions continue to shape the future of smart medical devices. His experience bridges academia and industry, enabling the development of innovative biomedical solutions that improve patient outcomes and healthcare monitoring.

Research Focus

Dr. Xiangling Li’s research is centered on micro/nano manufacturing technologies for biomedical applications. His work integrates flexible electronics, biosensors, and smart materials to develop next-generation medical devices. He specializes in wearable and implantable bioelectronics, focusing on precision drug delivery, transdermal biosensing, and real-time health monitoring. A key area of his research involves microneedle-based systems for minimally invasive glucose monitoring, intraocular pressure regulation, and intelligent drug release platforms. Additionally, he explores graphene-based biosensors, nanoneedle platforms, and soft bioelectronics for enhanced biomedical applications. His innovations in smart contact lenses, flexible supercapacitors, and biocompatible coatings contribute to the advancement of personalized medicine and point-of-care diagnostics. Dr. Li’s interdisciplinary approach, combining electronics, materials science, and life sciences, drives the development of high-performance biomedical devices. His research holds significant potential for revolutionizing non-invasive diagnostics, therapeutic monitoring, and next-generation wearable healthcare solutions.

Publications 📚

  • A fully integrated closed-loop system based on mesoporous microneedles-iontophoresis for diabetes treatment
  • Intelligent wireless theranostic contact lens for electrical sensing and regulation of intraocular pressure
  • Reduced graphene oxide nanohybrid–assembled microneedles as mini-invasive electrodes for real-time transdermal biosensing
  • Smartphone-powered iontophoresis-microneedle array patch for controlled transdermal delivery
  • Nanoneedle platforms: the many ways to pierce the cell membrane
  • Electrodes derived from carbon fiber-reinforced cellulose nanofiber/multiwalled carbon nanotube hybrid aerogels for high-energy flexible asymmetric supercapacitors
  • Hierarchical graphene/nanorods-based Hâ‚‚Oâ‚‚ electrochemical sensor with self-cleaning and anti-biofouling properties
  • Emerging roles of 1D vertical nanostructures in orchestrating immune cell functions
  • Fe₃Oâ‚„ nanoparticles embedded in cellulose nanofiber/graphite carbon hybrid aerogels as advanced negative electrodes for flexible asymmetric supercapacitors
  • Wearable and implantable intraocular pressure biosensors: recent progress and future prospects

 

 

 

Gokhan Basar | Mechanical Engineering | Best Researcher Award

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Dr. Gokhan Basar | Mechanical Engineering | Best Researcher Award

Research Assistant at Industrial Engineering, Turkey

Dr. Gokhan Basar is a dedicated researcher and assistant professor in the Department of Industrial Engineering at Osmaniye Korkut Ata University, Turkey. Born on January 1, 1989, in Tarsus, Turkey, he has developed a strong academic and professional foundation in mechanical engineering. Dr. Basar holds a PhD in Mechanical Engineering, specializing in the production of reinforced aluminum matrix composites. He has contributed significantly to the field through his research on friction stir welding and optimization techniques, establishing himself as an expert in machinability and mechanical properties of materials. His commitment to advancing engineering knowledge is evident in his numerous publications and active participation in national and international conferences.

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Strengths for the Award:

  1. Diverse Research Areas: Dr. Basar has an extensive range of research interests including Friction Stir Welding, machinability of materials, and optimization techniques. This diversity reflects a strong capability to contribute to various fields within engineering.
  2. Academic Qualifications: With a PhD in Mechanical Engineering and multiple relevant master’s and bachelor’s degrees, Dr. Basar possesses a solid educational foundation that underpins his research.
  3. Significant Contributions: His published works, including book chapters and numerous journal articles, indicate active engagement in research. The citation metrics (42 citations and an H-index of 4) highlight that his work is recognized and valued by the academic community.
  4. Research Methodology Expertise: Dr. Basar’s proficiency in experimental design and optimization methods, particularly the Taguchi Method and Grey Relational Analysis, showcases his ability to apply advanced statistical techniques to real-world engineering problems.
  5. Active Conference Participation: Regular attendance at national and international conferences demonstrates a commitment to staying updated with the latest developments in his field and sharing his findings with the broader scientific community.
  6. Journal Refereeing: Serving as a referee for multiple reputable journals illustrates his involvement in the academic process and recognition by peers.

Areas for Improvement:

  1. Increased Collaboration: While Dr. Basar has a solid publication record, collaboration with researchers from diverse fields could enhance the breadth and impact of his research.
  2. Enhancing Citation Impact: Although his citation metrics are commendable, focusing on publishing in high-impact journals could further increase his visibility and citation rate.
  3. Broader Public Engagement: Engaging with industry stakeholders and public forums could help translate his research findings into practical applications, increasing societal impact.
  4. Exploration of Emerging Technologies: Staying abreast of emerging technologies in materials science and mechanical engineering could provide new avenues for research and innovation.

Education:

Dr. Gokhan Basar’s educational journey began with a Bachelor’s degree in Mechanical Engineering, which laid the groundwork for his advanced studies. He earned his MSc in Mechanical Engineering from Iskenderun Technical University (2013-2016), where he focused on optimizing welding parameters in friction stir welding. His research culminated in a thesis that highlighted his proficiency in practical applications of engineering principles. Dr. Basar continued his academic pursuit at Osmaniye Korkut Ata University, where he completed his PhD in Mechanical Engineering (2017-2023). His doctoral research investigated the production of SiC and B4C particle-reinforced aluminum matrix composites through powder metallurgy, further showcasing his ability to innovate in materials engineering. Throughout his academic career, Dr. Basar has demonstrated a strong commitment to educational excellence and research development.

Experience:

Dr. Gokhan Basar has amassed extensive experience in academia, starting his career as a Research Assistant in the Department of Mechanical Engineering at Iskenderun Technical University from 2013 to 2016. His responsibilities included conducting research, assisting in teaching, and engaging in various engineering projects. In 2016, he transitioned to Osmaniye Korkut Ata University, where he currently serves as a Research Assistant in the Department of Industrial Engineering. In this role, Dr. Basar has focused on advancing knowledge in the fields of friction stir welding, materials machinability, and optimization methods. He has participated in numerous conferences, enhancing his professional network and contributing to the scientific community. His dedication to research and education has positioned him as a prominent figure in mechanical engineering, with a strong emphasis on innovative practices and experimental design.

Research Focus:

Dr. Gokhan Basar’s research focuses primarily on advanced welding techniques, particularly Friction Stir Welding (FSW), and the machinability and mechanical properties of materials. His expertise extends to optimization methods, including the Taguchi Method, Response Surface Methodology, and Grey Relational Analysis, enabling him to develop effective strategies for improving material performance and process efficiency. He is particularly interested in the production of composite materials, investigating the use of SiC and B4C particles in aluminum matrices to enhance their mechanical properties. His research also includes the design of experiments and multi-response optimization, providing insights into surface quality and operational parameters in various manufacturing processes. Dr. Basar’s commitment to innovation in mechanical engineering drives his work to address contemporary challenges and contribute to the evolution of engineering practices.

Publications Top Notes:

  1. Optimization of machining parameters in face milling using multi-objective Taguchi technique 📄
  2. Modeling and optimization of face milling process parameters for AISI 4140 steel 📄
  3. Determination of the optimum welding parameters for ultimate tensile strength and hardness in friction stir welding of Cu/Al plates using Taguchi method 📄
  4. Optimization of cutting parameters in hole machining process by using multi-objective Taguchi approach 📄
  5. Modeling and optimization for fly ash reinforced bronze-based composite materials using multi-objective Taguchi technique and regression analysis 📄
  6. Multi-response optimization in drilling of MWCNTs reinforced GFRP using grey relational analysis 📄
  7. Delik İşleme Prosesinde Kesme Parametrelerin Taguchi Metodu ve Regresyon Analiz Kullanılarak Modellenmesi ve Optimizasyonu 📄
  8. Kolemanit ve Boraks Takviyeli Fren Balatalarının Sürtünme Performansı 📄
  9. Sıcak presleme yöntemi ile üretilmiş uçucu kül takviyeli bronz matrisli fren balata malzemelerinin sürtünme-aşınma özellikleri üzerine kolemanit miktarının etkisi 📄
  10. Mathematical Modeling and Optimization of Milling Parameters in AA 5083 Aluminum Alloy 📄
  11. 316L Paslanmaz Çeliklerin Frezeleme işlemindeki Yüzey Pürüzlülüğün ANFIS ile Modellenmesi 📄
  12. Bronz Esaslı Kompozit Sürtünme Malzemelerin Üç Nokta Eğme Mukavemetinin Taguchi Metodu ile Optimizasyonu 📄
  13. Statistical Investigation of the Effect of CO2 Laser Cutting Parameters on Kerf Width and Heat Affected Zone in Thermoplastic Materials 📄
  14. A new hybrid meta-heuristic optimization method for predicting UTS for FSW of Al/Cu dissimilar materials 📄
  15. Prediction of surface hardness in a burnishing process using Taguchi method, fuzzy logic model and regression analysis 📄
  16. Multi-objective optimization of cutting parameters for polyethylene thermoplastic material by integrating data envelopment analysis and SWARA-based CoCoSo approach 📄
  17. Kompozit Malzemelerin Delme İşleminde İtme Kuvvetinin Taguchi Metodu ile Optimizasyonu ve Regresyon Analizi ile Tahmini 📄
  18. Tepki yüzeyi metodolojisi kullanılarak nanokompozitin delinmesinde oluşan itme kuvvetinin modellenmesi ve analizi 📄
  19. Analysis and Optimization of Ball Burnishing Process Parameters of AA 7075 Aluminium Alloy with Taguchi Method 📄
  20. The Effect of Colemanite and Borax Reinforced to the Friction Performance of Automotive Brake Linings 📄

Conclusion:

Dr. Gokhan Basar exemplifies the qualities of a strong candidate for the Research for Best Researcher Award. His extensive research experience, educational background, and contributions to the field of engineering position him as a noteworthy researcher. By focusing on collaboration, increasing his publication impact, and engaging with the broader community, he could further enhance his profile as a leading researcher. His commitment to advancing knowledge in his areas of expertise makes him a deserving candidate for this prestigious award.