Qijing Wang | Materials Science | Best Researcher Award

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Assist. Prof. Dr. Qijing Wang | Materials Science | Best Researcher Award

Assistant Professor from Nanjing University, China

Dr. Qijing Wang is a dedicated and rapidly emerging scholar in the field of organic electronics. Currently serving as an Assistant Professor at the School of Integrated Circuits, Nanjing University, he has quickly built a reputation for impactful research in charge transport and device physics, particularly in organic field-effect transistors (OFETs). His academic journey has been marked by continuous excellence, with all degrees obtained from the prestigious Nanjing University. Dr. Wang’s scholarly work reflects a deep understanding of electronic science and its applications in advanced materials and device engineering. He has authored several high-impact publications in internationally recognized journals such as Advanced Functional Materials, Small Methods, and ACS Applied Materials & Interfaces. Additionally, his commitment to international collaboration was evident through his postdoctoral research at the University of Cambridge, where he worked under Prof. Henning Sirringhaus. Dr. Wang’s achievements have been recognized through competitive fellowships and national awards, making him a strong candidate for research excellence honors. His career reflects a balanced blend of theoretical knowledge, experimental proficiency, and innovation. As a young academic, Dr. Wang exemplifies the qualities of a future leader in his field, contributing meaningfully to both the academic community and technological advancement in integrated circuits.

Professional Profile

Education

Dr. Qijing Wang received his formal education entirely at Nanjing University, one of China’s premier institutions for science and engineering. He earned his Bachelor of Science degree in Physics in 2012, laying a robust foundational understanding of physical principles that later supported his advanced research in electronics. Building upon his undergraduate education, he pursued a doctoral degree in Electronic Science and Technology at the same university, completing his Ph.D. in 2018. His doctoral studies focused on charge transport mechanisms and the performance enhancement of organic field-effect transistors (OFETs), a research area that positioned him to contribute to cutting-edge developments in organic electronics. Throughout his education, Dr. Wang demonstrated not only academic excellence but also an ability to integrate theoretical physics with practical device engineering. His time as a student at Nanjing University allowed him access to state-of-the-art laboratories, advanced instrumentation, and renowned faculty mentors. These resources equipped him with the skills necessary for conducting high-quality research and developing independent scientific thought. His educational background provides a strong interdisciplinary framework, combining elements of physics, materials science, and electronics, which continues to underpin his professional and academic accomplishments today.

Professional Experience

Dr. Qijing Wang currently serves as an Assistant Professor at the School of Integrated Circuits, Nanjing University. His academic appointment follows a successful tenure as a postdoctoral researcher, during which he significantly contributed to projects on the charge transport and structural optimization of organic semiconductors. As a postdoctoral fellow at Nanjing University, he was selected for the Postdoctoral Innovative Talent Support Program Grant—a highly competitive national program recognizing early-career researchers with exceptional promise. This achievement underscores his ability to undertake independent, innovative research in electronic materials. Further expanding his academic horizon, Dr. Wang spent a period as a visiting postdoctoral researcher at the University of Cambridge, collaborating with Prof. Henning Sirringhaus, a global authority in organic electronics. This international experience enhanced his expertise and enabled cross-border academic engagement. In his current role, Dr. Wang is involved in both teaching and research, mentoring undergraduate and graduate students while leading projects that address challenges in next-generation transistor design. His professional experience reflects a clear progression from student to postdoctoral scholar to independent academic, marked by increasing responsibility, international collaboration, and recognized contributions to the scientific community.

Research Interests

Dr. Qijing Wang’s research interests lie primarily in the field of organic electronics, with a specific focus on charge transport and device physics in organic field-effect transistors (OFETs). He is deeply engaged in exploring the fundamental physical mechanisms that govern the performance of organic semiconductors, aiming to enhance their electronic properties for real-world applications. His work bridges the gap between materials science and circuit-level engineering, addressing both theoretical and experimental challenges. Dr. Wang is particularly interested in the molecular engineering of organic materials to improve charge mobility, stability, and environmental compatibility of OFETs. Additionally, his research encompasses the interface physics between organic materials and metal contacts, dielectric engineering, and nanoscale fabrication techniques. With a growing interest in flexible and wearable electronics, Dr. Wang’s work is increasingly interdisciplinary, contributing to the development of next-generation electronics with applications in healthcare, consumer electronics, and energy devices. His research trajectory demonstrates a commitment to pushing the boundaries of what is possible in organic semiconductors, offering valuable insights into material-device correlations and design strategies. This integrated approach has enabled him to publish in top-tier journals and positions him as a key contributor to the evolution of high-performance, low-cost electronic devices.

Research Skills

Dr. Qijing Wang possesses a comprehensive set of research skills that enable him to excel in the field of organic electronics. His expertise spans both experimental and theoretical domains, particularly in charge transport phenomena, thin-film transistor fabrication, and organic material characterization. He is skilled in using advanced characterization techniques such as atomic force microscopy (AFM), scanning electron microscopy (SEM), and X-ray diffraction (XRD) to analyze material morphology and structure. In terms of electrical performance, he is proficient in using probe stations and semiconductor parameter analyzers for the precise evaluation of transistor characteristics. Dr. Wang also demonstrates strong competencies in molecular design and solution processing techniques, including spin-coating and inkjet printing, which are essential for developing high-performance OFETs. During his postdoctoral research, he honed his ability to conduct independent experiments, manage collaborative projects, and analyze complex data sets. His international research experience at the University of Cambridge also strengthened his adaptability, scientific communication, and teamwork abilities. Furthermore, he is well-versed in using software tools for data modeling, statistical analysis, and device simulation. These technical proficiencies, combined with his innovative mindset, make him a versatile researcher capable of addressing diverse challenges in materials science and device engineering.

Awards and Honors

Dr. Qijing Wang has received notable recognition for his academic and research excellence early in his career. Among his most prestigious honors is the Postdoctoral Innovative Talent Support Program Grant, awarded during his tenure as a postdoctoral fellow at Nanjing University. This national-level fellowship is one of the most competitive and selective programs in China, aimed at identifying and supporting highly promising early-career researchers. Receiving this grant not only highlights Dr. Wang’s research potential but also affirms his capacity to drive independent and impactful scientific inquiries. His selection for a Visiting Postdoctoral Researcher position at the University of Cambridge further underscores his standing in the academic community. This opportunity allowed him to collaborate with leading researchers in organic electronics and broaden his research capabilities in an international environment. In addition to these distinctions, Dr. Wang’s work has been featured in high-impact journals, signaling peer recognition and scholarly merit. These awards and honors are not only commendations of past achievements but also indicators of his future contributions to science and technology. They reflect his ongoing dedication to innovation, academic excellence, and leadership in the field of organic electronic devices.

Conclusion

In summary, Dr. Qijing Wang stands out as an accomplished and innovative researcher in the domain of organic electronics. His academic foundation, built at Nanjing University, has been enriched through nationally and internationally recognized research experiences. With a focus on organic field-effect transistors, he has made significant strides in understanding and optimizing charge transport mechanisms, contributing valuable knowledge to both academia and industry. His achievements, including high-impact publications and prestigious fellowships, highlight his commitment to scientific rigor and originality. Dr. Wang combines deep technical expertise with a collaborative and forward-thinking approach, evidenced by his research visit to the University of Cambridge and active engagement in interdisciplinary projects. While still early in his academic career, he has shown the qualities of a future leader—innovative thinking, strong communication skills, and a clear vision for advancing technology. Continued emphasis on research leadership roles, mentorship, and broader application of his findings will further enhance his impact. Overall, Dr. Wang is a highly deserving candidate for the Best Researcher Award, with demonstrated excellence and the potential for continued breakthroughs in electronic materials and device research.

Publications Top Notes

  • Additive-assisted “metal-wire-gap” process for N-type two-dimensional organic crystalline films
    Authors: Yang, C.; Qian, J.; Wang, Q.; Jiang, S.; Duan, Y.; Wang, H.; Dai, H.; Li, Y.
    Year: 2019

  • PJ-Level Energy-Consuming, Low-Voltage Ferroelectric Organic Field-Effect Transistor Memories
    Authors: Pei, M.; Qian, J.; Jiang, S.; Guo, J.; Yang, C.; Pan, D.; Wang, Q.; Wang, X.; Shi, Y.; Li, Y.
    Year: 2019

  • Two-dimensional organic materials and their electronic applications
    Authors: Wang, H.; Wang, Q.; Li, Y.
    Year: 2019

  • Interfacial Flat-Lying Molecular Monolayers for Performance Enhancement in Organic Field-Effect Transistors
    Authors: Wang, Q.; Jiang, S.; Qiu, L.; Qian, J.; Ono, L.K.; Leyden, M.R.; Wang, X.; Shi, Y.; Zheng, Y.; Qi, Y. et al.
    Year: 2018

  • Millimeter-Sized Two-Dimensional Molecular Crystalline Semiconductors with Precisely Defined Molecular Layers via Interfacial-Interaction-Modulated Self-Assembly
    Authors: Jiang, S.; Qian, J.; Duan, Y.; Wang, H.; Guo, J.; Guo, Y.; Liu, X.; Wang, Q.; Shi, Y.; Li, Y.
    Year: 2018

  • Spin-Coated Crystalline Molecular Monolayers for Performance Enhancement in Organic Field-Effect Transistors
    Authors: Wang, Q.; Juarez-Perez, E.J.; Jiang, S.; Qiu, L.; Ono, L.K.; Sasaki, T.; Wang, X.; Shi, Y.; Zheng, Y.; Qi, Y. et al.
    Year: 2018

  • Temperature dependence of piezo- and ferroelectricity in ultrathin P(VDF-TrFE) films
    Authors: Qian, J.; Jiang, S.; Wang, Q.; Yang, C.; Duan, Y.; Wang, H.; Guo, J.; Shi, Y.; Li, Y.
    Year: 2018

  • Unveiling the piezoelectric nature of polar α-phase P(VDF-TrFE) at quasi-two-dimensional limit
    Authors: Qian, J.; Jiang, S.; Wang, Q.; Zheng, S.; Guo, S.; Yi, C.; Wang, J.; Wang, X.; Tsukagoshi, K.; Shi, Y. et al.
    Year: 2018

  • Directly writing 2D organic semiconducting crystals for high-performance field-effect transistors
    Authors: Zhang, Y.; Guo, Y.; Song, L.; Qian, J.; Jiang, S.; Wang, Q.; Wang, X.; Shi, Y.; Wang, X.; Li, Y.
    Year: 2017

  • Low-voltage, High-performance Organic Field-Effect Transistors Based on 2D Crystalline Molecular Semiconductors
    Authors: Wang, Q.; Jiang, S.; Qian, J.; Song, L.; Zhang, L.; Zhang, Y.; Zhang, Y.; Wang, Y.; Wang, X.; Shi, Y. et al.
    Year: 2017

Xuanhua Li | Materials Science | Best Researcher Award

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Prof. Xuanhua Li | Materials Science | Best Researcher Award

Group Leader at Northwestern Polytechnical University, China

Xuanhua Li is a distinguished professor and project leader at Northwestern Polytechnical University (NPU), China. His research focuses on advanced materials, particularly 2D materials, photocatalytic water splitting, and perovskite solar cells. With a prolific publication record in prestigious journals such as Science, Nature Energy, Nature Communications, and Science Advances, he has established himself as a leading researcher in materials science and renewable energy. His innovative contributions to high-efficiency solar cells, photocatalysis, and energy conversion systems have gained national and international recognition. As a fellow of the International Union of Materials Research Societies and a recipient of multiple youth talent support programs, he has demonstrated strong leadership in his field. His work is characterized by groundbreaking advancements in optoelectronics, energy materials, and nanotechnology.

Professional Profile

Education

Xuanhua Li holds a Bachelor’s degree in Materials Science from Wuhan University of Technology (2003–2007). He earned his Master’s degree in ChemistryfromPh.D. in Optoelectronics at the University of Hong Kong (2010–2014), where he specialized in advanced materials and energy conversion technologies. His academic journey reflects a strong foundation in multidisciplinary research, integrating materials science, chemistry, and optoelectronics to address challenges in sustainable energy solutions.

Professional Experience

Since 2014, Xuanhua Li has been a Professor at Northwestern Polytechnical University (NPU), Xi’an, China, where he leads innovative research in materials science. In 2019, he took on the role of Project Leader and Group Leader at the Center of Nano Energy and Materials at NPU, where he directs cutting-edge research on energy materials and nanotechnology. His leadership has contributed significantly to the advancement of photocatalysis, perovskite solar cells, and nanomaterials for energy applications. His professional experience includes mentoring young researchers, securing competitive research funding, and collaborating with international scientists to push the boundaries of renewable energy research.

Research Interests

Xuanhua Li’s research interests center on the design and fabrication of 2D materials, photocatalytic water splitting, and perovskite solar cells. His work focuses on developing highly efficient and stable materials for solar energy conversion and hydrogen production. He explores innovative techniques to enhance the performance of perovskite solar cells, quantum efficiency in photocatalysis, and hydrovoltaic energy systems. His interdisciplinary research integrates nanotechnology, chemistry, and materials engineering to solve challenges in sustainable energy generation and storage. His work contributes to the development of next-generation renewable energy solutions with potential applications in clean energy and environmental sustainability.

Research Skills

Xuanhua Li possesses expertise in materials synthesis, nanofabrication, and advanced characterization techniques. His skills include photocatalysis, thin-film deposition, optoelectronic device fabrication, and energy conversion efficiency analysis. He is proficient in spectroscopy, electron microscopy, and electrochemical testing, which are crucial for evaluating the properties and performance of nanomaterials. His ability to integrate experimental and computational approaches allows him to develop novel materials with enhanced functionalities. His strong analytical skills and deep understanding of optoelectronic materials and energy harvesting systems enable him to design high-performance solar cells and hydrogen production technologies.

Awards and Honors

Xuanhua Li has received several prestigious recognitions for his contributions to materials science. He is a Fellow of the International Union of Materials Research Societies, an honor that highlights his leadership in the field. He has been selected for the National Youth Talent Support Program and the Youth Talent Support Program in Shaanxi, China, acknowledging his exceptional research achievements. Additionally, he is a recipient of the National Science Fund for Distinguished Young Scholars in Shaanxi, China, which supports outstanding young scientists conducting groundbreaking research. These accolades reflect his scientific excellence, research impact, and leadership in the field of advanced energy materials.

Conclusion

Xuanhua Li is a highly accomplished researcher in the field of materials science, with a strong emphasis on renewable energy applications. His prolific publication record, leadership in high-impact research, and recognition through national and international awards establish him as a leading scientist. His expertise in 2D materials, photocatalysis, and perovskite solar cells contributes to the development of sustainable energy technologies. While his research output is exceptional, expanding his industrial collaborations and mentorship initiatives could further enhance his profile. Overall, his contributions make him a strong candidate for prestigious research awards in the field of materials science and energy research.

Publication To Notes

  1. Title: “Tailoring the Configuration of Polymer Passivators in Perovskite Solar Cells”

      • Authors: Yaohua Li, Qi Cao, Xuanhua Li
      • Year: 2024
      • Journal: Chinese Journal of Structural Chemistry
      • DOI: 10.1016/j.cjsc.2024.100413

  2. Title: “Enhanced Corrosion Resistance of Ag Electrode Through Ionized 2‐Mercaptobenzothiazole in Inverted Perovskite Solar Cells”

    • Authors: Yaohua Li, Xilai He, Ruiqi Zhu, Xingyuan Chen, Tong Wang, Xingyu Pu, Hui Chen, Qi Cao, Xuanhua Li
    • Year: 2024
    • Journal: Advanced Functional Materials
    • DOI: 10.1002/adfm.202413245

  3. Title: “Locking Organic Solvents by Crystallization-Induced Polymer Network”

    • Authors: Jinmeng Zhu, Jinghan Ding, Yuke Li, Zhang He, Zhenzhen Ma, Wenqiang Dong, Xichen Zhao, Xuanhua Li
    • Year: 2024
    • Journal: Construction and Building Materials
    • DOI: 10.1016/j.conbuildmat.2024.138844

  4. Title: “π-Interactions Suppression of Buried Interface Defects for Efficient and Stable Inverted Perovskite Solar Cells”

    • Authors: Hui Chen, Jiabao Yang, Qi Cao, Tong Wang, Xingyu Pu, Xilai He, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Nano Energy
    • DOI: 10.1016/j.nanoen.2023.108883

  5. Title: “One‐Step Construction of a Perovskite/TiO₂ Heterojunction Toward Highly Stable Inverted All‐Layer‐Inorganic CsPbI₂Br Perovskite Solar Cells with 17.1% Efficiency”

    • Authors: Xingyu Pu, Qi Cao, Jie Su, Jiabao Yang, Tong Wang, Yixin Zhang, Hui Chen, Xilai He, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Advanced Energy Materials
    • DOI: 10.1002/aenm.202301607

  6. Title: “Internal Quantum Efficiency Higher Than 100% Achieved by Combining Doping and Quantum Effects for Photocatalytic Overall Water Splitting”

    • Authors: Youzi Zhang, Yuke Li, Xu Xin, Yijin Wang, Peng Guo, Ruiling Wang, Bilin Wang, Wenjing Huang, Ana Jorge Sobrido, Xuanhua Li
    • Year: 2023
    • Journal: Nature Energy
    • DOI: 10.1038/s41560-023-01242-7

  7. Title: “Hydrovoltaic Effect-Enhanced Photocatalysis by Polyacrylic Acid/Cobaltous Oxide–Nitrogen Doped Carbon System for Efficient Photocatalytic Water Splitting”

    • Authors: Xu Xin, Youzi Zhang, Ruiling Wang, Yijin Wang, Peng Guo, Xuanhua Li
    • Year: 2023
    • Journal: Nature Communications
    • DOI: 10.1038/s41467-023-37366-3

  8. Title: “Room Temperature Nondestructive Encapsulation via Self-Crosslinked Fluorosilicone Polymer Enables Damp Heat-Stable Sustainable Perovskite Solar Cells”

    • Authors: Tong Wang, Jiabao Yang, Qi Cao, Xingyu Pu, Yuke Li, Hui Chen, Junsong Zhao, Yixin Zhang, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Nature Communications
    • DOI: 10.1038/s41467-023-36918-x

  9. Title: “Single-Atom Iridium on Hematite Photoanodes for Solar Water Splitting: Catalyst or Spectator?”

    • Authors: Qian Guo, Qi Zhao, Rachel Crespo-Otero, Devis Di Tommaso, Junwang Tang, Stoichko D. Dimitrov, Maria-Magdalena Titirici, Xuanhua Li, Ana Belén Jorge Sobrido
    • Year: 2023
    • Journal: Journal of the American Chemical Society
    • DOI: 10.1021/jacs.

Hao Li | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Hao Li | Materials Science | Best Researcher Award

Professor at South China Normal University, China

Hao Li, an accomplished Associate Professor at the South China Academy of Advanced Optoelectronics, South China Normal University, is a distinguished researcher in polymeric chemistry and physics. With over a decade of experience in academia and research, Hao Li specializes in stimulus-responsive polymers, self-assembled polymeric nanosystems, and smart polymeric surfaces/interfaces. His contributions to polymer science have garnered recognition through numerous grants and high-impact publications in prestigious journals like Macromolecular Chemistry and Physics and Journal of Materials Chemistry. As a dedicated academic, he actively mentors students, serves as a reviewer for reputed journals, and contributes to cutting-edge advancements in polymer research.

Professional Profile

Education

Hao Li holds a Ph.D. in Polymeric Chemistry and Physics (2006) from Wuhan University, P. R. China. His doctoral work laid the foundation for his expertise in polymerization techniques and polymeric nanosystems. Prior to this, he earned his Bachelor’s degree in Applied Chemistry (2001) from the same institution, where he cultivated his passion for chemistry and materials science.

Professional Experience

Since 2014, Hao Li has been an Associate Professor at the South China Academy of Advanced Optoelectronics, contributing to research and education in advanced materials. He was previously a lecturer at Sun Yat-sen University (2010–2014), focusing on biomedical polymers, and a postdoctoral fellow specializing in self-assembled nanosystems (2007–2010). His career also includes lecturing at Liaoning University of Traditional Chinese Medicine, where he explored biomedical polymers.

Research Interests

Hao Li’s research centers on stimulus-responsive polymers, self-assembled polymeric micro-/nano-systems, and smart polymeric surfaces/interfaces. His innovative work explores the application of these materials in drug delivery, diagnostic tools, and functional nanomaterials, driving advancements in biomedicine and materials science.

Research Skills

Hao Li is proficient in designing and synthesizing functional polymeric materials and self-assembled nanosystems. He has expertise in advanced polymerization techniques, polymer characterization, and nanofabrication. His skills extend to developing pH-sensitive and MRI-visible nanocarriers, highlighting his aptitude for interdisciplinary applications in chemistry and biomedical engineering.

Awards and Honors

Hao Li has been awarded several prestigious research grants, including the National Natural Science Foundation of China General Program and Youth Foundation. He has led and participated in numerous multimillion-yuan projects, such as the Key Research and Development Program of China, solidifying his reputation as a leading researcher in his field. His dedication and impactful work have positioned him as an influential figure in polymer and nanomaterial research.

Conclusion

Hao Li is a strong candidate for the Best Researcher Award due to his significant contributions to polymer science, particularly in smart polymers and biomedical applications. His extensive funding history, impactful publications, and academic leadership demonstrate excellence in research. To further enhance his candidacy, efforts to boost global collaborations, publish in broader-impact journals, and establish a stronger patent portfolio would solidify his position as an outstanding researcher. Overall, he is a worthy contender for this recognition.

Publication Top Notes

  1. Sheet-on-sheet architectural assembly of MOF/graphene for high-stability NO sensing at room temperature
    • Authors: Yanwei Chang, Jingxing Zhang, Ruofei Lu, Weiran Li, Yuchen Feng, Yixun Gao, Haihong Yang, Fengnan Wang, Hao Li, Yi-Kuen Lee, et al.
    • Year: 2024
  2. Adjusting Interface Action and Spacing for Control of Particle Potential
    • Authors: Mian Qin, Jiangsong Ren, Jiamin Cheng, Ruisi Gao, Linli Li, Yao Wang, Pengfei Bai, Hao Li, Guofu Zhou
    • Year: 2024
  3. One Stone Several Birds: Self‐Localizing Submicrocages With Dual Loading Points for Multifunctional Drug Delivery
    • Authors: Shuxuan Liu, Jifei Wang, Yong Jiang, Yao Wang, Bin Yang, Hao Li, Guofu Zhou
    • Year: 2024
  4. CO2-induced switching between MOF-based bio-mimic slow anion channel and proton pump for medical exhalation detection
    • Authors: Honghao Chen, Xiaorui Yue, Yifei Fan, Bin Zheng, Sitao Lv, Fengnan Wang, Yixun Gao, Hao Li, Yi-Kuen Lee, Patrick J. French, et al.
    • Year: 2024
  5. Si, O-Codoped Carbonized Polymer Dots with High Chemiresistive Gas Sensing Performance at Room Temperature
    • Authors: Yubo Yin, Yixun Gao, Jianqiang Wang, Quan Wang, Fengnan Wang, Hao Li, Paddy J. French, Peerasak Paoprasert, Ahmad M. Umar Siddiqui, Yao Wang, et al.
    • Year: 2024
  6. Optically Tunable Multistable Liquid Crystal Grating for Anti‐Counterfeiting through Multilayer Continuous Phase Analysis
    • Authors: Jingxing Zhang, Rundong Wu, Yancong Feng, Rongzeng Lai, Jinglun Liao, Zhijian Mai, Yao Wang, Ying Xiang, Hao Li, Guofu Zhou
    • Year: 2024
  7. Biomimicking TRPM8: A Conversely Temperature-Dependent Nonionic Retrorse Nanochannel for Ion Flow Control
    • Authors: Tao Yang, Zelin Yang, Weiwen Xin, Yuchen Feng, Xiangyu Kong, Yao Wang, Hao Li, Liping Wen, Guofu Zhou
    • Year: 2024
  8. A bio-inspired and switchable H+/OH− ion-channel for room temperature exhaled CO2 chemiresistive sensing
    • Authors: Honghao Chen, Ruofei Lu, Yixun Gao, Xiaorui Yue, Haihong Yang, Hao Li, Yi-Kuen Lee, Paddy J. French, Yao Wang, Guofu Zhou
    • Year: 2023

 

Yousaf Iqbal | Materials Science | Best Researcher Award

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Yousaf Iqbal | Materials Science | Best Researcher Award

Tenured Associate Professor at University of Poonch Rawalakot, Azad Kashmir, Pakistan.

Dr. Yousaf Iqbal is a Tenured Associate Professor in the Department of Physics at the University of Poonch, Rawalakot, Azad Kashmir, Pakistan. His academic career spans over two decades, with significant contributions in the fields of solid-state physics, environmental physics, and nanotechnology. Specializing in the synthesis and characterization of nanoparticles, particularly for biomedical applications like magnetic hyperthermia and drug delivery, Dr. Iqbal has established himself as an expert in this cutting-edge domain. His research work focuses on developing novel materials for use in medicine, including MRI contrast agents and nanomedicine. He is also a dedicated educator, teaching a wide array of physics courses at undergraduate and graduate levels. Dr. Iqbal’s achievements include prestigious scholarships and international research collaborations, demonstrating both his academic rigor and global engagement.

Profile👤

Scopus

Education📝

Dr. Yousaf Iqbal has a Ph.D. in Solid State Physics with a focus on Biomedical Applications, awarded by Kyungpook National University, South Korea, in 2015. His Ph.D. research focused on the synthesis and characterization of ferrite nanoparticles for magnetic hyperthermia, a promising technique in cancer treatment. He also holds an M.S. in Environmental Physics from the University of Bremen, Germany, where he conducted research on anthropogenic carbon inventories in the North Atlantic Ocean. His M.Phil. in Solid State Physics and M.Sc. in Physics were completed at the University of Peshawar, Pakistan, where he explored topics such as the characterization of Fe-Cr alloys and the effects of crystal imperfections. His foundational education includes a B.Sc. in Physics and Mathematics from Government Degree College, Nowshera, Pakistan.

Experience👨‍🏫

Dr. Yousaf Iqbal is currently a Tenured Associate Professor at the University of Poonch, Rawalakot, where he has served since 2017. He began as an Assistant Professor, a role he held at various institutions, including the University of Azad Jammu and Kashmir. His professional journey is marked by teaching a wide range of physics courses, from undergraduate to Ph.D. programs, including specialized subjects such as Nanoscience, Quantum Mechanics, and Solid State Physics. In addition to his teaching responsibilities, Dr. Iqbal has conducted advanced research in nanoparticle synthesis and biomedical applications. His career progression reflects a commitment to both academic excellence and research innovation, with a focus on developing new materials for medical technologies.

Research Interest🔬 

Dr. Yousaf Iqbal’s research interests lie at the intersection of nanotechnology and biomedicine. His primary focus is on the synthesis and characterization of nanoparticles, particularly magnetic nanoparticles for use in magnetic hyperthermia and drug delivery. His work explores the potential of these materials in cancer treatment, especially in their role as MRI contrast agents and drug delivery systems. Beyond biomedical applications, Dr. Iqbal is also interested in photocatalysis, impedance spectroscopy, and environmental physics. His diverse research portfolio highlights his interest in solving real-world problems through innovative materials science, with applications that range from medicine to environmental conservation.

Awards and Honors🏆

Dr. Yousaf Iqbal has been the recipient of numerous prestigious awards throughout his academic career. Notably, he was awarded the Brain Korea 21st Century (BK-21) Scholarship, a highly competitive funding opportunity for his Ph.D. studies at Kyungpook National University, South Korea, which he held from 2011 to 2015. He also received the Kyungpook National University International Students Honor Scholarship, recognizing his academic excellence during his Ph.D. program. Additionally, he has successfully secured research funding from various international sources, allowing him to carry out cutting-edge research in the fields of nanotechnology and biomedical applications. These accolades underscore his dedication to advancing scientific research on a global scale.

Skills🛠️

Dr. Yousaf Iqbal possesses a diverse and specialized skill set, particularly in the fields of nanotechnology and materials science. He has extensive experience in the synthesis and characterization of nanoparticles, including core-shell structured magnetic nanoparticles for biomedical applications like magnetic hyperthermia and drug delivery systems. His technical proficiency extends to a variety of advanced characterization techniques, including Fourier Transform Infrared Spectroscopy (FT-IR), X-Ray Diffraction (XRD), Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM), and Vibrating Sample Magnetometry (VSM), allowing him to analyze material properties at the nanoscale.

Conclusion 🔍 

Dr. Yousaf Iqbal’s work in nanoparticle synthesis and biomedical applications, paired with his technical skills and international recognition, makes him a strong contender for the Best Researcher Award. Enhancing the profile with more detailed information on publications, the impact of his research, and leadership in funded projects would bolster his nomination.

Publication Top Notes

Optimizing the magnetic field strength and concentration of silica coated cobalt ferrite nanoparticles for magnetic hyperthermia
Authors: Y. Iqbal, W. Hussain Shah, M. Yaqoob Khan, A. Mohamed Khaled, M. Syed Salem
Year: 2024
Citations: 1

Electrical transport and dielectric relaxation mechanism in Zn0.5Cd0.5Fe2O4 spinel ferrite: A temperature- and frequency-dependent complex impedance study
Authors: R. Mumtaz, W.H. Shah, Y. Iqbal, M. R. Abukhadra, A.M. El-Sherbeeny
Year: 2024
Citations: 0

Low loss nickel doped magnesium–manganese ferrite nanoparticles: A study of structural and magnetic properties
Authors: G. Asghar, E. Tariq, S.N. Khisro, K. Safeen, M. Anis-ur-Rehman
Year: 2023
Citations: 2

Small polaron hopping transport mechanism, dielectric relaxation and electrical conduction in NiAl2O4 electro-ceramic spinel oxide
Authors: Y. Iqbal, W.H. Shah, B. Khan, G. Asghar, A. Safeen
Year: 2023
Citations: 9

Crystal Field Splitting, Structural, Mechanical, Electronic, and Magnetic Properties of Spinel-Type Structure Compounds NiRh2S4 and RhNi2S4
Authors: H. Ullah, S. Ali, A. Khan, A.A. AlObaid, T.I. Al-Muhimeed
Year: 2022
Citations: 2

Soukaina Lamnini | Materials Science | Women Researcher Award

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Dr. Soukaina Lamnini | Materials Science | Women Researcher Award

Post-doctorate at Mohammed VI Polytechnic University, Morocco.

Soukaina Lamnini is a dedicated researcher and educator in the field of materials science and engineering. With a Ph.D. in Material Science & Technologies from Obuda University, Hungary, she specializes in synthesizing and characterizing advanced ceramic composites, with a particular focus on mechanical properties. Lamnini’s research interests span a wide range of topics, including the development of innovative materials for CO2 capture and storage, as well as the optimization of printing parameters for advanced ceramics using robocasting techniques. Her contributions to the field are reflected in numerous publications and conference presentations, highlighting her expertise and commitment to advancing knowledge in materials science. Additionally, Lamnini is actively engaged in teaching and mentorship activities, both at Obuda University and MSN/UM6P in Morocco, where she imparts her knowledge and guides students in their academic pursuits. Through her research, teaching, and leadership roles, Lamnini continues to make significant contributions to the scientific community and inspire the next generation of materials scientists and engineers.

Professional Profiles:

Education

Soukaina Lamnini pursued her academic journey with fervor, culminating in significant achievements in the field of materials science and engineering. She attained her Ph.D. in Material Science & Technologies from Obuda University, Hungary, where she delved into the synthesis and characterization of MWCNT reinforced 8YSZ composites. Prior to her doctoral studies, she earned her M.Sc. in Renewable Energy and Storage from Rabat Faculty of Science, Morocco, focusing on modelling and simulating the photovoltaic impact on the distribution grid. Lamnini’s academic foundation was laid during her B.Sc. in Mechanical and Energy Engineering at Rabat Faculty of Science, where she explored the thermo-mechanical behavior of ceramic materials.

Research Experience

Lamnini’s research journey is marked by a diverse array of experiences spanning both academia and industry. As a postdoctoral researcher at Politecnico di Torino, Italy, she contributed to the NewSoc project, optimizing solid oxide cells and stacks performance. Her earlier stint as a postdoc researcher at Mohammed VI Polytechnic University focused on materials for CO2 capture, including the development of functionalized cellulose-based sorbents and valorization of industrial waste for geopolymer synthesis. Lamnini’s doctoral work at the energy research center (MTA-EK) in Hungary involved the synthesis and characterization of 8YSZ -MWCNTs composites and their tribological performances.

Research Interests

Driven by a passion for advancing knowledge and addressing pressing global challenges, Lamnini’s research interests lie at the intersection of materials science, energy, and sustainability. Her work encompasses areas such as nanocomposites, renewable energy technologies, and environmental remediation. Lamnini is particularly intrigued by the development of innovative materials for CO2 capture and storage, as well as the exploration of novel synthesis techniques for enhancing material properties.

Awards and Honors

Lamnini’s dedication and contributions to her field have been recognized through various awards and honors. She was awarded the ECerS Winter Workshop Grant and achieved her Ph.D. with Summa Cum Laude distinction, reflecting her outstanding academic achievements and research excellence. Additionally, Lamnini has actively participated in international conferences and scientific events, further cementing her reputation as a promising researcher in the field of materials science and engineering.

Research Skills

Lamnini possesses a diverse set of research skills honed through her academic training and professional experiences. Her expertise includes materials synthesis and characterization, mechanical testing, tribological analysis, and computational modeling. Lamnini is adept at utilizing a wide range of analytical techniques and software tools, enabling her to conduct rigorous and impactful research across various domains within materials science and engineering.

Teaching Experience

In addition to her research endeavors, Soukaina Lamnini has demonstrated a keen interest in academia, contributing her expertise to the education and mentorship of future scientists and engineers. With a passion for sharing knowledge and fostering learning, Lamnini has engaged in various teaching activities at both undergraduate and graduate levels. During her tenure as a lecturer at Obuda University in Hungary, she was responsible for preparing and delivering instructional material on instrumental methods for material preparation and mechanical testing within the framework of the “Material Science” course for second-year BSc students. Lamnini’s commitment to education extends beyond traditional classroom settings, as evidenced by her practical courses conducted at MSN/UM6P in Morocco, where she imparted hands-on training in granulo laser, FTIR spectroscopy, and paper making techniques to master’s students in Material Science and Engineering. Furthermore, Lamnini has actively participated in the co-supervision of PhD and Master’s students, providing guidance and mentorship to budding researchers as they navigate the intricacies of their academic pursuits.

Publications

Zirconia-Based Ceramics Reinforced by Carbon Nanotubes: A Review with Emphasis on Mechanical Properties

Authors: S. Lamnini, D. Pugliese, F. Baino

Year: 2023

Torsional behaviour of glass-joined, laser-processed Crofer 22 APU interconnect: Unravelling the effect of surface roughness on the shear strength

Authors: F. Smeacetto, E. Zanchi, D. Meena Narayana Menon, H. Javed, M. Ferraris

Year: 2022

Robocasting of advanced ceramics: ink optimization and protocol to predict the printing parameters – A review

Authors: S. Lamnini, H. Elsayed, Y. Lakhdar, F. Smeacetto, E. Bernardo

Year: 2022

Printability of carboxymethyl cellulose/glass-containing inks for robocasting deposition in reversible solid oxide cell applications

Authors: S. Lamnini, F. Baino, G. Montalbano, H. Javed, F. Smeacetto

Year: 2022

Wear mechanism of spark plasma sintered MWCNTs reinforced zirconia composites under dry sliding conditions

Authors: S. Lamnini, C. Balázsi, K. Balázsi

Year: 2019

The role of the attrition milling on the grain size and distribution of the carbon nanotubes in YSZ powders

Authors: S. Lamnini, Z. Fogarassy, Z.E. Horváth, K. Balázsi, C. Balázsi

Year: 2019

Influence of structure on the hardness and the toughening mechanism of the sintered 8YSZ/MWCNTs composites

Authors: S. Lamnini, Z. Károly, E. Bódis, K. Balázsi, C. Balázsi

Year: 2019

Survey on perspectives of PV technology and their applications

Authors: S. Lamnini, P. Kádár

Year: 2017