Hosameldeen Elshekh | Experimental methods | Best Researcher Award

Dr. Hosameldeen Elshekh | Experimental methods | Best Researcher Award

Dr. Hosameldeen Elshekh | Southwest jiaotong University | China

👨‍🎓 Profile

🎓 Early Academic Pursuits

Dr. Hosameldeen Elhadi Abdelrhman Elshekh began his academic journey with a B.Ed. (Honors) in Physics and Mathematics from the University of Gezira, Sudan, in 2009. His exceptional performance and passion for physics and materials science paved the way for his higher education. He earned an M.Sc. in Physics from the same institution in 2016, followed by an M.Sc. Qualifying in Physics from the University of Khartoum in 2013. Currently, he is pursuing a Ph.D. in Physics at Southwest Jiaotong University, China, where he has been conducting advanced research since 2018.

🏫 Professional Endeavors

Dr. Hosameldeen’s professional journey commenced as a University Teaching Assistant at the University of Gezira, Sudan (2011–2014). He later progressed to a Physics Lecturer role (2016–2018), where he developed undergraduate physics courses and mentored students. His focus on curriculum innovation and science outreach programs highlights his dedication to fostering education and promoting science in the community.

🔬 Contributions and Research Focus

With expertise in material science, nanomaterials, and memristive devices, Hosameldeen specializes in thin films and their electrical and magnetic properties. His research integrates theoretical and experimental physics, focusing on memristors, resistive switching memory, and nanostructured materials. His work includes advanced synthesis techniques like electrochemical oxidation and magnetron sputtering, along with material characterization using SEM, EDS, and XRD.

🌍 Impact and Influence

Dr. Hosameldeen has co-authored nine SCI-indexed publications, contributing to advancements in resistive switching memory and bioelectronic devices. His collaborative research with peers worldwide reflects his commitment to fostering interdisciplinary partnerships. His work on TiOx-based memristors and MoSe2 nanosphere arrays demonstrates the potential of his innovations in sustainable technologies and electronics.

đź“š Academic Citations

Dr. Hosameldeen’s contributions are recognized globally, with his publications indexed in Web of Science, Google Scholar, and ResearchGate. His research on WOx/TiOy heterojunctions and Zn-Al nanosheets-based memristors has been widely cited, underscoring his influence in the field of materials physics.

🛠️ Technical Skills

Hosameldeen excels in synthesis and characterization of nanomaterials, with hands-on expertise in tools like SEM, EDS, XRD, and advanced techniques like electrochemical oxidation. His skills in developing and testing memristive devices and thin-film materials are complemented by his ability to design and implement laboratory modules for educational purposes.

👨‍🏫 Teaching Experience

With over eight years of teaching experience, Hosameldeen has demonstrated excellence in curriculum development, student mentoring, and laboratory instruction. At the University of Gezira, he played a pivotal role in modernizing the physics curriculum and conducting research workshops. His dedication to science outreach programs showcases his passion for empowering students and local communities through education.

🌟 Legacy and Future Contributions

Dr. Hosameldeen’s research is shaping the future of nanotechnology and electronic devices, offering innovative solutions to scientific challenges. His commitment to advancing materials science and mentoring the next generation of scientists cements his legacy as an influential educator and researcher. Looking ahead, he aims to expand his contributions to global scientific collaboration and continue his exploration of sustainable material technologies.

Top Noted Publications

Nonvolatile behavior of resistive switching memory in Ag/WOx/TiOy/ITO device based on WOx/TiOy heterojunction
  • Authors: Hosameldeen Elshekh, Hongyan Wang, Chuan Yang, Shouhui Zhu
    Journal: Journal of Applied Physics
    Year: 2024
Nonvolatile resistive switching memory behavior of the TiOx-based memristor
  • Authors: Hosameldeen Elshekh, Hongyan Wang, Shouhui Zhu, Chuan Yang, Jiangqiu Wang
    Journal: Chemical Physics
    Year: 2024
An excellent resistive switching memory behaviour based on assembled MoSe2 nanosphere arrays
  • Authors: Mao Shuangsuo, Hosameldeen Elshekh, Mayameen S. Kadhim, Yudong Xia, Guoqiang Fu, Wentao Hou, Yong Zhao, Bai Sun
    Journal: Journal of Solid State Chemistry
    Year: 2019
Effect of crystalline state on conductive filaments forming process in resistive switching memory devices
  • Authors: Guo Tao, Hosameldeen Elshekh, Zhou Yu, Bo Yu, Dan Wang, Mayameen S. Kadhim, Yuanzheng Chen, Wentao Hou, Bai Sun
    Journal: Materials Today Communications
    Year: 2019
The pH-controlled memristive effect in a sustainable bioelectronic device prepared using lotus root
  • Authors: Li T, Y. Xu, M. Lei, Y. Zhao, B. Sun, Hosameldeen Elshekh, L. Zheng, X. Zhang, W. Hou
    Journal: Materials Today Sustainability
    Year: 2020

 

 

Feiqian Wang | Experimental methods | Best Researcher Award

Assoc Prof Dr. Feiqian Wang | Experimental methods | Best Researcher Award

Associate Professor at The First Affiliated Hospital of Xi’an Jiaotong University, China

Dr. Feiqian Wang is an Associate Professor in the Department of Ultrasound at the First Affiliated Hospital of Xi’an Jiaotong University. With a postdoctoral background in respiratory medicine and a combined master’s and doctoral degree in internal medicine, Dr. Wang has become a prominent figure in medical imaging, particularly in ultrasound and contrast-enhanced imaging. She has contributed significantly to the early diagnosis of liver diseases, microvascular invasion, and hepatocellular carcinoma. Dr. Wang holds several leadership roles, including Secretary-General of the Ultrasound Physicians Branch of the Shaanxi Medical Association, and has earned numerous national and international research grants.

🎓Profile

👩‍⚕️ Early Academic Pursuits

Feiqian Wang began her academic journey in medicine at Xi’an Jiaotong University, where she earned her undergraduate degree in Clinical Medicine (2002–2007). This foundational training laid the groundwork for her later academic and clinical achievements. Building on this, she pursued a combined Master’s and Doctoral degree in Internal Medicine, which she completed in 2012. Feiqian’s early focus on internal medicine provided her with critical clinical skills, which she later applied to the field of ultrasound imaging. She further refined her expertise as a Postdoctoral Researcher in Respiratory Medicine from 2016 to 2022, a period during which she broadened her research interests and honed her academic focus on diagnostic imaging and its applications in liver and cancer diagnostics.

🏥 Professional Endeavors

Since joining the First Affiliated Hospital of Medical School, Xi’an Jiaotong University, Feiqian Wang has consistently advanced in her medical career. She currently holds the position of Associate Professor in the Department of Ultrasound, where she leads cutting-edge research projects while providing expert medical care. Prior to this role, Feiqian served as an Attending Physician (2019–2021) and as both a Resident and Chief-Resident (2012–2018). Her extensive clinical experience in ultrasound, particularly in hepatocellular carcinoma (HCC) imaging, has shaped her research endeavors and her contributions to the medical field. Feiqian’s professional achievements also include her positions as Secretary-General of the Ultrasound Physicians Branch of the Shaanxi Medical Association and as a reviewer for various high-impact journals.

🔬 Contributions and Research Focus

Feiqian Wang’s research focuses primarily on advanced ultrasound imaging technologies, particularly in the early diagnosis of liver diseases such as hepatocellular carcinoma (HCC). Her work integrates multiple imaging modalities, including contrast-enhanced ultrasound (CEUS) and magnetic resonance imaging (MRI), to assess microvascular invasion and other critical markers of HCC. She has secured numerous research grants, notably from the National Natural Science Foundation of China, which underscores the significance and impact of her work. Feiqian’s research into hepatocellular carcinoma, fusion imaging, and elastography technologies continues to contribute to the diagnostic precision and personalized treatment strategies in oncology. Moreover, her innovative approach to combining S-CEUS, U-CEMRI, and SWI imaging in diagnosing HCC has opened new avenues in clinical practice.

🌍 Impact and Influence

Feiqian Wang’s research has had a profound influence in the realm of diagnostic imaging, particularly in the field of oncology and liver diseases. Her pioneering work on CEUS and MRI fusion imaging, along with her nomogram models for predicting vascular patterns in HCC, has contributed to advancements in non-invasive diagnostics. Feiqian’s research has been widely published in leading medical journals such as Radiology, European Journal of Radiology Open, and Biosci Trends. These publications are frequently cited by other researchers, showcasing the broad influence of her work in the scientific community. Additionally, her contributions to patent innovations in ultrasound technology underscore her role in driving forward new medical technologies and improving clinical practices.

🏅 Academic Citations

Feiqian Wang’s research is well-recognized in the academic community, with numerous publications in high-impact journals over the past five years. Her work has earned her respect both nationally and internationally, with publications cited widely in medical and imaging literature. For example, her study on “Contrast-Enhanced Ultrasound and MRI Fusion Imaging for Hepatocellular Carcinoma Diagnosis” has become a reference point for other researchers in the field. These citations reflect the high quality of her work and its relevance to the evolving medical landscape. Feiqian’s ability to secure multiple research grants also highlights her esteemed position within academic circles, further cementing her credibility as a leading expert in her field.

🖥️ Technical Skills

Feiqian Wang is highly skilled in advanced imaging technologies, with expertise in contrast-enhanced ultrasound (CEUS), elastography, and fusion imaging techniques. She is proficient in integrating various diagnostic methods, such as S-CEUS, U-CEMRI, and SWI, to improve early detection and diagnosis of liver diseases. Her technical proficiency extends to the use of deep learning and AI models for image analysis, as evidenced by her research on breast nodule classification using deep convolutional neural networks. Feiqian’s technical acumen in ultrasound imaging not only enhances her clinical diagnostic abilities but also places her at the forefront of innovative research in the field.

🎓 Teaching Experience

As an Associate Professor in the Department of Ultrasound, Feiqian Wang plays an essential role in shaping the next generation of medical professionals. She has taught and mentored undergraduate and postgraduate students, offering training in ultrasound diagnostic techniques and medical imaging. Her commitment to education is further demonstrated by her leadership in various academic committees, including those related to ultrasound medical engineering. Feiqian’s teaching approach is grounded in practical, hands-on training, ensuring that her students acquire the necessary skills to apply diagnostic imaging techniques in clinical settings.

🌟 Legacy and Future Contributions

Feiqian Wang’s legacy is built upon her groundbreaking research, her commitment to improving diagnostic techniques, and her contributions to medical education. Her work in imaging technology has already revolutionized certain aspects of HCC diagnosis and is expected to have an enduring impact on clinical practices. As a leading figure in her field, Feiqian is poised to continue contributing to advancements in ultrasound and medical imaging technologies. In the future, she plans to further develop multimodal imaging strategies for early disease detection and improve the integration of AI and machine learning in medical diagnostics. Her ongoing research in early liver imaging diagnosis and its clinical applications promises to have a significant impact on the early detection of liver diseases, ultimately saving lives through more precise and timely interventions.

🏆 Awards and Recognition

Throughout her career, Feiqian Wang has received numerous accolades for her contributions to science and medicine. She was awarded the second prize in the 2018 Science and Technology Progress Award of Shaanxi Province for her work on microinflammation mechanisms in CKD patients. Additionally, her excellence in ultrasound imaging was recognized with the “Best Slide Making Award” in the China Contrast-Enhanced Ultrasonography Congress. These accolades, along with her academic and professional achievements, highlight her exceptional skills and dedication to advancing medical knowledge and practice.

đź“–Publication Top Notes

High Spatiotemporal Resolution Contrast-Free Ultrasound Microvascular Imaging Using Adaptive Weight-Based Nonlinear Compounding
    • Authors: Liyuan Jiang, Hanbing Chu, Yang Liu, Jiacheng Liu, Xiao Su, Yichen Yan, Meiling Liang, Yiran Chen, Chaoyang Zhang, Feiqian Wang et al.
    • Journal: IEEE Transactions on Instrumentation and Measurement
    • Year: 2024
A Nomogram Based on Features of Ultrasonography and Contrast-Enhanced CT to Predict Vessels Encapsulating Tumor Clusters Pattern of Hepatocellular Carcinoma
    • Authors: Litao Ruan, Jingtong Yu, Xingqi Lu, Kazushi Numata, Dong Zhang, Xi Liu, Xiaojing Li, Mingwei Zhang, Feiqian Wang
    • Journal: Ultrasound in Medicine & Biology
    • Year: 2024
Added Value of Ultrasound-Based Multimodal Imaging to Diagnose Hepatic Sclerosed Hemangioma before Biopsy and Resection
    • Authors: Feiqian Wang, Kazushi Numata, Hiromi Nihonmatsu, Makoto Chuma, Naomi Ideno, Akito Nozaki, Katsuaki Ogushi, Mikiko Tanab, Masahiro Okada, Wen Luo et al.
    • Journal: Diagnostics
    • Year: 2022
Accurate Assessment of Vascularity of Focal Hepatic Lesions in Arterial Phase Imaging
    • Authors: Feiqian Wang, Kazushi Numata, Litao Ruan
    • Journal: Radiology
    • Year: 2020

 

 

Ziyao Jie | Experimental methods | Best Researcher Award

Dr. Ziyao Jie | Experimental methods | Best Researcher Award

Postdoc at State Grid Jibei Electric Power Co., Ltd. Research Institute in China

Ziyao Jie is a postdoctoral researcher at the State Grid Jibei Electric Power Research Institute. He holds a Ph.D. in Electrical Engineering from Tsinghua University, where his research centered on the microwave plasma-based synthesis of nanomaterials for lithium-ion battery applications. Throughout his academic career, Ziyao has made notable contributions to sustainable energy and plasma science, with a focus on improving energy storage technologies. His work on graphene-coated silicon nanomaterials addresses critical issues in battery performance, such as energy capacity and cycling stability. Ziyao’s research has been widely recognized, with multiple patents and publications in high-impact journals.

Profile:

Education:

Ziyao Jie earned his Ph.D. in Electrical Engineering from Tsinghua University, where he specialized in plasma science and nanomaterials synthesis under the guidance of Professor Guixin Zhang. His doctoral thesis focused on the development of microwave plasma methods for producing graphene-coated silicon nanoparticles, designed to enhance lithium-ion battery performance. During his studies, Ziyao gained a comprehensive understanding of high-voltage technologies, nanomaterial properties, and energy storage solutions, which equipped him to tackle real-world challenges in sustainable energy. His academic excellence is reflected in his deep knowledge of plasma diagnostics and high-temperature material synthesis.

Professional Experience:

Ziyao Jie has amassed significant experience in plasma science and energy storage. Following his doctoral research at Tsinghua University, where he developed innovative methods for synthesizing advanced materials for batteries, he continued as a postdoctoral researcher at the State Grid Jibei Electric Power Research Institute. His current work focuses on high-voltage and energy storage systems, contributing to the development of large-scale, sustainable energy solutions. Ziyao has collaborated on key projects such as the Beijing Science and Technology Planning Project, and his expertise spans the areas of nanomaterial synthesis, waste treatment with plasma, and renewable energy applications.

Research focus:

Ziyao Jie’s research focuses on the intersection of plasma science, nanomaterials, and sustainable energy. His primary area of interest is the synthesis of nanomaterials using microwave plasma technologies, with a particular focus on developing advanced materials for energy storage, such as graphene-coated silicon nanoparticles for lithium-ion batteries. His work aims to address key challenges in energy density, stability, and scalability for future battery technologies. Ziyao is also involved in developing plasma-based waste treatment systems, including medical waste management, using high-temperature plasma torches. His research is distinguished by its potential to revolutionize both energy storage and environmental sustainability.

Awards and Honors:

Ziyao Jie has received numerous accolades for his groundbreaking work in plasma science and nanomaterials. His research on microwave plasma-based synthesis earned him recognition in energy storage circles, particularly for his contributions to improving lithium-ion battery technology. Ziyao was a participant in the Beijing Science and Technology Planning Project, which recognized his innovative work on high-energy and high-voltage technologies. Additionally, his patented inventions, which include advanced methods for medical waste treatment and nanomaterial applications, have further established his reputation as a leading researcher. Ziyao’s contributions have also led to high citation indices, highlighting his influence in the academic community.

Publication Top Notes:

  • Mechanisms of Gas Temperature Variation of the Atmospheric Microwave Plasma Torch
    Z. Jie, C. Liu, S. Huang, G. Zhang
    Journal of Applied Physics, 129 (23), 2021
    Citations: 12
  • Microwave Plasma Torches for Solid Waste Treatment and Vitrification
    Z. Jie, C. Liu, D. Xia, G. Zhang
    Environmental Science and Pollution Research, 30 (12), 32827-32838, 2023
    Citations: 10
  • Imaging Diagnostics and Gas Temperature Measurements of Atmospheric-Microwave-Induced Air Plasma Torch
    S. Huang, C. Liu, Z. Jie, G. Zhang
    IEEE Transactions on Plasma Science, 48 (6), 2153-2162, 2020
    Citations: 10
  • Polymer Dielectrics with Outstanding Dielectric Characteristics via Passivation with Oxygen Atoms through C–F Vacancy Carbonylation
    T.Y. Wang, X.F. Li, Z. Jie, B.X. Liu, G. Zhang, J.B. Liu, Z.M. Dang, Z.L. Wang
    Nano Letters, 23 (18), 8808-8815, 2023
    Citations: 8
  • An Atmospheric Microwave Plasma-Based Distributed System for Medical Waste Treatment
    Z. Jie, C. Liu, D. Xia, G. Zhang
    Environmental Science and Pollution Research, 30 (17), 51314-51326, 2023
    Citations: 6
  • Surface-Wave-Sustained Plasma Synthesis of Graphene@Fe–Si Nanoparticles for Lithium-Ion Battery Anodes
    Z. Jie, Z. Zhang, X. Bai, W. Ma, X. Zhao, Q. Chen, G. Zhang
    Applied Physics Letters, 123 (11), 2023
    Citations: 3
  • Determination of 915-MHz Atmospheric Pressure Air Microwave Plasma Torch (MPT) Parameters
    Z. Jie, C. Liu, D. Xia, Z. Zhang, X. Zhao, G. Zhang
    IEEE Transactions on Plasma Science, 51 (2), 456-465, 2023
    Citations: 2
  • The Treatment of Medical Waste by Atmospheric Microwave Plasma
    D. Xia, C. Liu, Z. Jie, G. Zhang
    2021 IEEE International Conference on Plasma Science (ICOPS), 2021
    Citations: 2
  • Microwave Plasma Torch for Solid Waste Treatment
    Z. Jie, C. Liu, D. Xia, G. Zhang
    IET Digital Library, 2021
    Citations: 2
  • Continuous Batch Synthesis with Atmospheric-Pressure Microwave Plasmas
    Z. Jie, T.Y. Wang, S. Huang, X. Bai, W. Ma, G. Zhang, N. Luo
    iScience, 27 (8), 2024
    Citations: N/A

Conclusion:

Ziyao Jie is a strong candidate for the Best Researcher Award, with his groundbreaking contributions in plasma science and energy storage technologies. His research has direct implications for sustainable energy solutions, positioning him at the forefront of innovations in high-energy physics and computational science. His achievements, particularly his patents and numerous high-impact publications, showcase his potential to make lasting contributions to academia and industry, making him highly suitable for this prestigious award.