Dr Junyong Hu | Materials Characterization Techniques | Best Researcher Award

Dr Junyong Hu | Materials Characterization Techniques | Best Researcher Award

Dr. Junyong Hu is a researcher and lecturer at Taiyuan University of Technology, specializing in refrigeration and cryogenic engineering, reverse electrodialysis, and waste heat utilization technologies. He brings together theoretical modeling and experimental systems to create novel solutions in desalination, pollutant removal, and low-grade heat recovery. Through extensive postdoctoral work in collaboration with Taiyuan Boiler Group Co., Ltd., he has driven forward applied research in clean energy systems and environmental remediation.

Dr Junyong Hu | Taiyuan University of Technology | China

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Education

Dr. Hu earned his B.Sc. in Thermal Energy and Power Engineering from Henan University of Science and Technology, followed by M.Sc. and Ph.D. degrees in Refrigeration and Cryogenic Engineering from Dalian University of Technology. His academic path showcases deep engagement with thermodynamic systems and renewable energy applications. His doctoral research laid the foundation for his advanced work in hybrid desalination and power generation systems, emphasizing energy efficiency and sustainability.

Experience

Dr. Hu is currently a lecturer at Taiyuan University of Technology and completed a postdoctoral fellowship at Taiyuan Boiler Group Co., Ltd. His work spans experimental design, industrial R&D, and funded scientific projects focused on reverse electrodialysis, air-gap diffusion distillation, and multi-effect desalination systems. As principal investigator for several national and provincial grants, he has led projects targeting denitrification and advanced thermal systems. His hands-on contributions bridge laboratory innovation and field application.

Contributions

Dr. Junyong Hu has led and participated in multiple high-impact research projects focused on thermal energy recovery and clean energy systems. As Principal Investigator, he directed projects funded by the China Postdoctoral Science Foundation and the Shanxi Basic Research Program for Youth, exploring reverse electrodialysis heat engines and denitrification via flue gas waste heat. He also led an industrial R&D project optimizing air-gap diffusion distillation devices. Additionally, he contributed to a National Key R&D Program targeting clean combustion and flexible power generation from low-calorific-value coal. These projects reflect his leadership in applied energy and environmental technologies.

Research Focus 

Dr. Hu’s research centers on reverse electrodialysis, waste heat-driven power systems, and hybrid desalination. He aims to optimize energy conversion processes and deepen understanding of membrane-based power generation under low-grade thermal conditions. His focus areas such as pollutant removal, mixed working fluids, and energy recovery serve both environmental and industrial goals. This interdisciplinary approach fosters innovation in sustainable energy and clean water technologies.

Conclusion

Dr. Junyong Hu is a technically accomplished and innovative researcher with clear contributions to sustainable energy systems and thermal energy recovery technologies. His record of high-quality publications, funded projects, and patented inventions positions him as  a strong contender for the Best Researcher Award. With increased international collaboration
and research leadership, he is well poised to become a leading figure in energy and environmental engineering.

Publications

Experimental Performance Comparison of Helium-Gap Diffusion Distillation and Air–Gap Diffusion Distillation
Authors: Junyong Hu, Yukun Sun, Jiajie Zhang, Suxia Ma, Xuemao Guo, Jianfei Wang
Journal: Energy Conversion and Management (2022)

Influence of Output Current on Decolorization Efficiency of Azo Dye Wastewater by a Series System with Multi-Stage Reverse Electrodialysis Reactors
Authors: Xu S., Leng Q., Wu X., Xu Z., Hu J., et al.
Journal: Energy Conversion and Management (2021)

Experimental Study on Hydrogen Production with RED Reactor Powered by Concentration Gradient Energy
Authors: Xu S., Liu Z., Wu X., Zhang Y., Hu J., et al.
Journal: CIESC Journal (2020)

Heat and Mass Transfer Evaluation of Air-Gap Diffusion Distillation by ε-NTU Method
Authors: Xu L., Xu S., Wu X., Wang P., Hu J., et al.
Journal: Desalination (2020)

Experimental Investigation on the Performance of Series Control Multi-Stage Reverse Electrodialysis
Authors: Junyong Hu, Shiming Xu, Xi Wu, et al.
Journal: Energy Conversion and Management (2020)

Air-Gap Diffusion Distillation: Theory and Experiment
Authors: Xu S., Xu L., Wu X., Hu J., et al.
Journal: Desalination (2019)

Exergy Analysis for the Multi-Effect Distillation – Reverse Electrodialysis Heat Engine
Authors: Junyong Hu, Shiming Xu, et al.
Journal: Desalination (2019)

Mr Ankur Aggarwal | Materials Characterization Techniques | Best Researcher Award

Mr Ankur Aggarwal | Materials Characterization Techniques | Best Researcher Award

Mr. Ankur Aggarwal 🧑‍🔬 is a dedicated research scholar at Banaras Hindu University (BHU) 🏛️, specializing in Dairy Science & Food Technology 🥛. With B.Tech and M.Tech degrees in Dairy Technology and Chemistry from NDRI, Karnal 📘, he is UGC-NET (JRF), CSIR-JRF, ICAR-SRF, and ASRB-NET qualified. His research focuses on functional dairy products, metabolomics, and value-added foods 🌾. A recipient of several Best Oral Presentation Awards 🥇 and an active reviewer in top journals, he combines innovation with impact in food research. His work contributes to nutrition enhancement, sustainability, and public health 🍽️💡.

Mr Ankur Aggarwal, Banaras Hindu University, India

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🎓 Education 

Mr. Aggarwal completed his B.Tech in Dairy Technology 🎓 and M.Tech in Dairy Chemistry 🧪 from the National Dairy Research Institute (NDRI), Karnal. Currently, he is pursuing his Ph.D. at Banaras Hindu University (BHU) 🏫 in the Department of Dairy Science and Food Technology. He has qualified several national-level competitive exams including UGC-NET with JRF, CSIR-JRF, ICAR-SRF, and ASRB-NET 📚✅. His academic journey reflects a strong foundation in dairy technology, food chemistry, and scientific research, preparing him well for advanced interdisciplinary work in food science and nutrition 🥛🔬.

💼 Experience 

Mr. Ankur Aggarwal has extensive experience in experimental research, focusing on the development of functional foods using millets, flaxseeds, black wheat, and probiotics 🌾🧫. He has published in high-impact journals, participated in multiple national/international conferences, and delivered award-winning presentations 🏆. He’s skilled in HR-MS, HPLC, GC-MS, FTIR, and electrophoresis techniques, with knowledge of food safety protocols (FSSAI) and product development 🧪🍶. He also serves as a peer reviewer for reputed journals like Food Control and Food Research International, reflecting his engagement in the wider scientific community 🌍📖.

🏆 Award

Mr. Ankur Aggarwal has earned multiple prestigious awards for his impactful oral and poster presentations at national and international conferences 🌐. His research covers eco-friendly synthesis, millet-based functional foods, probiotic dairy innovations, and shelf-life enhancement of traditional snacks 🥛🌾🧄. He secured 1st position at conferences like IEEC-BHU, AAVASILES, and AMIFOST, and won Best Oral/Poster Presentation Awards 🥇🥈🥉 at ASHAA, Agro-tech, and Amity University events. His recognized works reflect scientific rigor, food innovation, and dedication to sustainable nutrition and agri-food technology 🍽️🔬🌍—marking him as a leading young voice in food science research.

🔬 Research Focus 

Mr. Aggarwal’s research is centered on nutraceutical and functional dairy innovations 🥛✨. He works on fermented dairy products, probiotic formulations, and plant-based food enhancements using millets, flaxseeds, and black wheat 🌾🧪. His studies employ metabolomics, mass spectrometry, and protein characterization to analyze health benefits, bioavailability, and shelf-life improvement. He aims to create sustainable, health-promoting foods by integrating traditional ingredients with modern food processing tools. His work aligns with global nutrition goals, addressing challenges in malnutrition, lifestyle disorders, and eco-friendly packaging solutions 🧬🥗🌍.

📚 Publications

Metabolomics and Microscopic Profiling of Flaxseed Meal-Incorporated Peda

Authors: S. Maurya, T. Verma, A. Aggarwal, M.K. Singh, A.D. Tripathi, A. Trivedi
Journal: Food Chemistry: Molecular Sciences

Exploring the Probiotic and Prebiotic Dynamics of Cheese: An Updated Review

Authors: A. Aggarwal, A. Parmar, S.P. Panigrahi, T. Verma, P. Dhyano, S.L. Bajya, et al.
Journal: Annals of Phytomedicine

Preservation Approaches for Milk and Milk Products: A Review

Authors: T. Verma, A. Aggarwal, A.D. Tripathi, D.C. Rai, S. Jaspal
Journal: Indian Journal of Dairy Science

Formulation and Quality Attributes of Nutrient-Enriched Black Wheat Rusks

Authors: R. Devpal, T. Verma, A. Aggarwal, R. Sharma
Journal: Journal of Cereal Science

Development of Herbal Ice Cream Parameters Using Response Surface Methodology and Its Storage Studies

Authors: S. Shakya, A. Aggarwal, D.C. Rai, T. Verma, K. Nagar, A. Singh, B. Singh
Journal: Journal of Stored Products Research

Optimization of Soya-Enriched Burfi by Using Response Surface Methodology and Its Impact on Biochemical Parameters in Albino Rats

Authors: T. Verma, J. Singh, A. Aggarwal
Journal: Food Chemistry Advances

Mr Sudhansu Sekhar Hota | Materials Science | Best Researcher Award

Mr Sudhansu Sekhar Hota | Materials Science | Best Researcher Award

Mr. Sudhansu Sekhar Hota is a passionate materials scientist 🧪⚙️ and research scholar at the Multifunctional Research Laboratory, ITER, SOA University 🏫. His expertise lies in nanoceramics, dielectric materials, polymer composites, and energy storage devices 🔋🔬. With over 30 SCI/SCOPUS-indexed publications 📚 and awards for best paper presentations 🏅, he is advancing research on lead-free electroceramics and perovskite-based functional materials. Skilled in XRD, Raman, SEM, and simulation tools 📈🖥️, Mr. Hota combines theory and experimentation to develop sustainable solutions for next-gen electronics 🌱💡.

Mr Sudhansu Sekhar, Hota SOA UNIVERSITY, India

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🎓 Education

Mr. Hota is currently pursuing a Ph.D. in Physics (Material Science) at SOA University (ITER), Bhubaneswar 🧪🎓. He completed his M.Sc. in Physics from Berhampur University (2017–2019) with a stellar CGPA of 8.52 📘🔬. His undergraduate studies were in Physics (Hons.) at Dhenkanal Autonomous College, affiliated with Utkal University, where he scored 83.66% 🧠📏. He completed his Intermediate from BJB Junior College, Bhubaneswar (73%) 📚, and his Matriculation from Saraswati Vidya Mandir, Bhawanipatna, achieving an impressive 91.66% 🏆✍️. His academic journey reflects a strong and consistent dedication to science and learning.

🏫 Experience

Since January 2022, Mr. Sudhansu Hota has been working as a Research Scholar at the Multifunctional Research Laboratory, ITER, SOA University, Bhubaneswar 🏫🔬. His role involves advanced research in nanostructured electroceramics, dielectric and ferroelectric materials, and multifunctional composites ⚡🧲. He actively performs material synthesis, characterization (XRD, SEM, Raman), and electrical property measurements using modern instrumentation ⚙️🧪. His contributions support cutting-edge developments in energy storage and sensor applications 🔋📟. As a hands-on researcher, Mr. Hota integrates theoretical modeling with practical experimentation to drive innovations in sustainable material science 🌱💡.

🏅Achievements 

Mr. Hota has been consistently recognized for his research excellence on national and international platforms 🏅🌍. He received the Best Paper Presentation Award at the prestigious 2nd International Conference APSIT 2023, organized by IEEE 🎤📘. Additionally, he secured Second Position in Poster Presentation at the International Conference on Advanced Materials and Applications 2022 for his work on next-generation functional materials 🧪📊. These accolades underscore his innovative research in dielectric materials, energy storage ceramics, and nanocomposites, highlighting his ability to translate complex science into impactful technological applications ⚡🔬.

🌱 Scientific Skills 

Mr. Hota possesses advanced expertise in material characterization and fabrication tools essential for functional ceramics and composite research 🔬🧪. His skillset includes XRD, SEM, Raman, FTIR, UV-Vis spectroscopy, and ferroelectric loop tracers for detailed structural and electrical analysis 📊. He is proficient with instruments like Keithley electrometers, LCR meters, and magnetoelectric systems ⚡🧲. For materials processing, he utilizes ball mills, spin/dip coaters, muffle/vacuum furnaces, and temperature-controlled polling units 🔥🌀. His hands-on command of these tools enables cutting-edge research in energy storage and multifunctional materials 🌱🔋.

🔬 Research Focus

Mr. Hota’s research centers on advanced ceramic materials and nanostructured composites 🔬⚙️, with a strong emphasis on dielectric and ferroelectric behavior for energy applications 🔋. He specializes in X-ray diffraction (XRD) analysis, multiferroics, polymer-based composites, and thin films used in capacitors, sensors, and multifunctional devices 📊📏. His work integrates optical studies, material characterization, and device fabrication, aiming to develop eco-friendly, high-performance energy storage systems 🌱💡. Through innovations in nanomaterials and structure-property correlation, he contributes to next-gen technologies for smart electronics and sustainable energy devices 🌐📡.

📚 Publications

Synthesis and Characterization of Co-doped (Li/W) Distorted Perovskite Bismuth Manganite (Bi₁/₂Li₁/₂)(Mn₁/₂W₁/₂)O₃ for Electronic Devices
Authors: Sudhansu Hota
Journal: Brazilian Journal of Physics (2025)

Dielectric Characteristics and Energy Storage Capabilities of PVDF-Based Composite Incorporating 2D GnP Nanofiller
Authors: Sudhansu Hota
Journal: Results in Engineering (2025)

Fabrication, Structural, Microstructural, Topological and Electrical Characteristics of Powellite Calcium Molybdate for Suitable Electronic Application
Authors: Sudhansu Hota
Journal: Transactions on Electrical and Electronic Materials (2025)

Absorption-Dominant Electromagnetic Interference Shielding of Polymer Nanocomposite PVDF/LiNbO₃ for High-Frequency Microwave Application
Authors: Sudhansu Hota
Journal: ACS Applied Electronic Materials (2025)

Prof Ki Hyung Kim | Materials Science | Best Researcher Award

Prof Ki Hyung Kim | Materials Science | Best Researcher Award

Prof. Dr. Ki Hyung Kim is a leading expert in gynecologic oncology and robotic surgery 🧬🤖. With an MD and Ph.D. from Pusan National University and a visiting professorship at Yale University 🌍🎓, he has authored over 200 scientific publications and led multiple cancer research projects 🔬📚. His research addresses ovarian cancer, endometriosis, and minimally invasive techniques. He holds a U.S. patent for an anti-cancer drug innovation 💊 and has published five medical textbooks. As an educator, innovator, and clinician, Prof. Kim advances women’s health through global research and medical excellence 👩‍⚕️🌟.

Prof Ki Hyung Kim, Pusan National University School of Medicine, South Korea

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🎓 Education 

Prof. Dr. Ki Hyung Kim earned his MD (1985–1991) and Ph.D. in Medicine (1999–2001) from Pusan National University School of Medicine 🎓⚕️. He completed his residency in Obstetrics and Gynecology at Pusan National University Hospital (1995–1999) 🏥👨‍⚕️. His academic career began as an Assistant Professor (2001), followed by promotion to Associate Professor (2005) and then Professor (2011–present) 📘🏅. Notably, he expanded his global expertise during his tenure as a Visiting Professor at Yale University School of Medicine (2006–2008) 🌍🔬. His educational journey reflects a lifelong commitment to women’s health and clinical excellence.

👩‍⚕️ Experience

Prof. Ki Hyung Kim has over three decades of medical and academic expertise in obstetrics, gynecology, and oncology 🩺🎓. After earning his MD (1991) and Ph.D. (2001) from Pusan National University, he completed a residency in OB-GYN and began his academic career as Assistant Professor (2001), rising to Associate Professor (2005) and then Full Professor (2011–present) at Pusan National University School of Medicine 🏥📚. His international profile was enriched through a Visiting Professorship at Yale University (2006–2008) 🌍🧬. Prof. Kim’s career reflects deep commitment to teaching, research, and clinical excellence in women’s health 👩‍⚕️🔬.

📖 Books 

Prof. Ki Hyung Kim has authored five influential medical textbooks focused on gynecology, endoscopic surgery, and chronic pelvic pain 📚🩺. His works include Chronic Pelvic Pain (2023) 📖, a detailed exploration of diagnostic and therapeutic approaches, and Gynecology (5th and 6th editions, 2015 & 2021) 🧬, widely used in medical education. Gynecologic Oncology (2020) 🎗️ covers clinical and surgical management of women’s cancers, while Endoscopic Surgery in Obstetrics and Gynecology (2018) 🤖 guides minimally invasive procedures. These books are essential references for clinicians, researchers, and students in advancing women’s healthcare knowledge and surgical practice globally 🌍📘.

🏆 Contributions 

Prof. Kim has led pioneering advancements in gynecologic oncology and minimally invasive surgery 🧬🤖, notably in pelvic pain management and robotic techniques. His impactful research has earned Best Paper Awards 🏆 and national recognition. As an editorial board member of SCI(E) journals 📖🌐, he influences global scientific dialogue. Through active roles in medical societies 🩺👥, he drives clinical innovation and surgical training. His work has improved patient care outcomes 🏥💡 and expanded evidence in women’s health, especially through novel surgical approaches and multidisciplinary collaboration for endometriosis and gynecologic cancer treatment 🔍👩‍⚕️.

🔍 Research Focus

Prof. Kim’s research centers on gynecologic oncology, minimally invasive and robotic surgery, and the management of chronic pelvic pain disorders such as endometriosis and adenomyosis 🧬🤖🩺. His work explores clinical innovation in ovarian, cervical, and uterine cancers, emphasizing laparoscopic and robotic techniques for safer, more effective treatment outcomes 🔍👩‍⚕️. He integrates clinical trials, translational research, and multidisciplinary collaboration to develop advanced protocols for diagnosis, prevention, and therapy 💉🔬. With a focus on personalized medicine, surgical precision, and improved patient recovery, Prof. Kim contributes extensively to global advancements in women’s reproductive health 🌍💡.

📚 Publications

Comparison of Surgical Outcomes Between Single-Site Laparoscopic Adenomyomectomy and Fundusectomy: Experience from a Single Center
Authors: Jeong, J.H.; Kim, Y.R.; Kim, B.R.; Lee, J.W.; Oh, S.Y.; Yun, J.H.; Han, M.S.; Song, Y.J.; Kim, K.H.
Journal: Journal of Clinical Medicine (2025)

Ribosomal Proteins Mediate Non-Canonical Regulation of Gut Inflammatory Signature by Crop Contaminant Deoxynivalenol
Authors: Kim, J.; Song, B.; Kim, K.H.; Moon, Y.
Journal: Ecotoxicology and Environmental Safety (2025)

Clinical Outcomes of Poly(ADP–Ribose) Polymerase Inhibitors as Maintenance Therapy in Patients with Ovarian Cancer in the Southeastern Region of Korea
Authors: Ha, H.I.; Yoon, H.J.; Song, C.; Kim, E.T.; Suh, D.S.; Kim, K.H.; Na, Y.J.; Song, Y.J.
Journal: Current Oncology (2024)

Leveraging Xenobiotic-Responsive Cancer Stemness in Cell Line-Based Tumoroids for Evaluating Chemoresistance: A Proof-of-Concept Study on Environmental Susceptibility
Authors: Kim, K.H.; Lee, S.J.; Kim, J.; Moon, Y.
Journal: International Journal of Molecular Sciences (2024)

Pulmonary Cryptococcosis Masquerading as Lung Metastasis in Gynecologic Cancers: Two Case Reports
Authors: Lee, S.Y.; Song, Y.J.; Lee, G.; Yoon, H.J.; Choi, K.U.; Suh, D.S.; Kim, K.H.
Journal: Medicine (2023)

Preoperative Haematologic Markers for the Differentiation of Endometrial Cancer from Benign Endometrial Lesions in Postmenopausal Patients with Endometrial Masses
Authors: Song, Y.J.; Kim, H.G.; Yoon, H.J.; Choi, K.U.; Suh, D.S.; Kim, K.H.
Journal: Cancer Management and Research (2023)

The Discrepancy Between Preoperative Tumor Markers and Imaging Outcomes in Predicting Ovarian Malignancy
Authors: Shin, K.H.; Kim, H.H.; Yoon, H.J.; Kim, E.T.; Suh, D.S.; Kim, K.H.
Journal: Cancers (2022)

Mrs Rosemary Qummouh | Materials Science | Best Researcher Award

Mrs Rosemary Qummouh | Materials Science | Best Researcher Award

Mrs. Rosemary Qummouh 🎓 is a lecturer at Western Sydney University 🇦🇺 and a practicing mental health social worker 🧠. With over a decade of experience in academia and practice, she focuses on trauma, mental health, and refugee well-being 🌍. Currently pursuing her PhD, she has completed 5 research projects and is engaged in 4 ongoing studies 📊. Her work includes 6 journal publications 📚, 6 patents 🧪, and multiple cross-institutional collaborations 🤝. Passionate about social justice and culturally responsive care, she bridges research and real-world impact to uplift marginalized communities 💬🌱.

Mrs Rosemary Qummouh, Western Sydney University, Australia

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Education 🎓

Mrs. Rosemary Qummouh holds a strong academic foundation in social sciences and mental health. She earned her Bachelor of Arts in Sociology from the University of New England (1991–1994) 🏛️, followed by a Bachelor of Social Work from Western Sydney University – Bankstown Campus 📚. To deepen her expertise in mental health care, she further pursued a Master’s in Counselling at the same university 🧠💬. Her diverse educational background equips her with a multidisciplinary approach, essential for addressing complex societal issues, especially in areas like trauma, refugee support, and cross-cultural mental health care. 🌍💡👩‍🎓

Experience 💼

Since February 2011, Mrs. Rosemary Qummouh has been serving as an Academic at the School of Social Sciences, Western Sydney University – Parramatta Campus 📍. With over a decade of experience in higher education, she has contributed significantly to teaching, mentoring, and curriculum development in social sciences and counselling 🧠📖. Her academic role is rooted in practical social work, and she actively integrates real-world issues into her teaching, particularly focusing on trauma, refugee mental health, and culturally responsive practices 🌐💬. Her long-term commitment demonstrates a passion for education, equity, and community empowerment. 🎓🤝💼

Research Contributions 📘

Mrs. Rosemary Qummouh has made impactful contributions to the fields of social work, mental health, and refugee support. Her research explores critical issues such as the effects of COVID-19 on social work practices 🦠📚 and the development of culturally tailored support for Syrian and other refugees in Australia 🏠🕊️. She has led studies on self-care among social work students and the link between trauma and chronic illness in refugee women 💔🧬. Her work fosters collaborative care models, strengthens professional identity, and enhances the well-being and community integration of vulnerable populations 🤝🌱💡.

Research Focus🌱

Mrs. Rosemary Qummouh’s research centers on enhancing social work practices in the fields of mental health and refugee support 🤝🧠. She investigates the impact of COVID-19 on social work methodologies 🦠📖, develops tailored support systems for refugees in Australia 🏠🕊️, and leads innovative projects on self-care for social work students 🌿🎓. Her work also delves into the relationship between trauma and chronic illness in refugee women 💔🩺. Through these efforts, she aims to improve service delivery, strengthen professional identity, and foster collaborative practices that uplift vulnerable communities and support their well-being and integration 🌈🏘️.

Publications 📚

Psychosocial Interprofessional Perinatal Education: Design and Evaluation of an Interprofessional Learning Experience to Improve Students’ Collaboration Skills in Perinatal Care
Authors: H. Keedle, V. Stulz, J. Conti, R. Bentley, T. Meade, R. Qummouh, P. Hay, et al.
Journal: Women and Birth, Vol. 36(4), e379–e387, 2023

Discourses and Practices in Social Work and Trauma-Focused Work with Syrian and Other Refugees
Authors: R. Qummouh, S. Linnell
Book: Handbook of Critical Whiteness: Deconstructing Dominant Discourses Across Professions, 2024

COVID-19 in the UAE: Social Work, Human Rights, and Mental Health
Authors: A. Albrithen, L. Briskman, R. Qummouh
Journal: Journal of Human Rights and Social Work, Vol. 9(2), 304–316, 2024

Social Work Students’ Reflections on Self-Care While Completing Field Education During the COVID-19 Pandemic
Authors: S. Harris, R. Qummouh, M.V. Dalziel
Journal: Australian Social Work, Vol. 78(1), 71–82, 2025

My Pillow Is Filled with Tears… Syrian Refugees’ Journey to Australia: Narratives of Human Courage and Resilience
Authors: R. Qummouh, S. Linnell, S. Slewa-Younan, S. Harris
Journal: International Journal of Environmental Research and Public Health, Vol. 22(5), 691, 2025

A Practical Guide to Therapeutic Work with Asylum Seekers and Refugees
Review by: R. Qummouh
Publisher: Jessica Kingsley Publishers

Prof Laiyuan Wang | Materials Characterization Techniques | Best Researcher Award

Prof Laiyuan Wang | Materials Characterization Techniques | Best Researcher Award

Prof. Laiyuan Wang is a leading researcher in nanoelectronics, optoelectronic materials, and device physics 🎓. He is an Associate Professor at Sun Yat-Sen University, specializing in van der Waals materials, memristors, and neuromorphic computing ⚛️🧠. He completed his Ph.D. in Optoelectronic Materials and Devices in 2017 and conducted postdoctoral research at UCLA. His groundbreaking studies on phase transition mechanisms, molecular intercalation, and high-resolution nanodevice characterization have been published in Nature, Science, Advanced Materials, and more 📚. With global collaborations, prestigious awards, and pioneering contributions to energy-efficient computing and flexible electronics, he is a strong candidate for the Best Researcher Award 🏆🔬.

Prof Laiyuan Wang, Sun Yat-Sen University, China

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Academic and professional Background 🎓

Prof. Laiyuan Wang is an Associate Professor at Sun Yat-Sen University (since 2023), specializing in nanoelectronics and optoelectronic materials . He completed his postdoctoral research at UCLA with Prof. Xiangfeng Duan, focusing on nanodevices and in-situ characterization. He earned his Ph.D. in Optoelectronic Materials and Devices in 2017 under Academician Wei Huang . His research on phase transitions, atomic-scale TEM, and molecular intercalation has been published in Nature, Science, Nano Letters, and Advanced Materials . He has received prestigious awards, including the RSC Stephanie L. Kwolek Prize and China’s National Overseas High-Level Young Talent Award .

Research & Innovations 🚀

Prof. Laiyuan Wang is a distinguished researcher specializing in nanoelectronic devices, memristors, and two-dimensional atomic crystals. His ongoing project, “Ideal Interface Integration and Performance of Nano Electronic Devices”, under the National Overseas High-Level Young Talent Program in China, focuses on optimizing nanoelectronics for next-generation computing. His completed project, “High-Performance Memristors Based on Metalloporphyrin-Regulated Ionic Migration” (National Natural Science Youth Foundation, 61904150), has revolutionized neuromorphic computing. Additionally, his “Molecular Intercalation Approach to Superlattices and Bulk Monolayer Materials (U.S. DOE-BES Grant DE-SC0018828) has advanced 2D material engineering. His research bridges nanotechnology, artificial intelligence, and quantum computing. 🚀💡

Research Focus 🔬

Prof. Laiyuan Wang is a leading researcher in micro-nano optoelectronic devices, in-situ characterization techniques, and novel semiconductor materials. His work explores high-performance transistors, neuromorphic devices, and spintronic systems for next-generation computing. He specializes in microscopic in-situ device characterization using Cs-STEM, 4D-STEM, STM, and Raman spectroscopy, enabling precise analysis of nanoscale materials. Additionally, his research advances semiconductor fabrication, processing, and modification for improved optoelectronic performance. His expertise bridges quantum computing, AI-driven materials, and advanced semiconductor technologies, contributing to the future of high-speed, energy-efficient electronics. 🚀📡💡

Publications 📚

📖 “Highly Stretchable van der Waals Thin Films for Adaptable and Breathable Electronic Membranes”
👥 Z. Yan, D. Xu, Z. Lin, P. Wang, B. Cao, H. Ren, F. Song, C. Wan, L. Wang, et al.
📜 Published in: Science (2022) 🌍

📖 “Signal Filtering Enabled by Spike Voltage-Dependent Plasticity in Metalloporphyrin-Based Memristors”
👥 Z. Wang, L. Wang, Y. Wu, L. Bian, M. Nagai, R. Jv, L. Xie, H. Ling, Q. Li, et al.
📜 Published in: Advanced Materials (2021) 🧠💡

📖 “Two-Dimensional Conjugated Microporous Polymer Films: Fabrication Strategies and Potential Applications”
👥 Z. Liu, Y. Yin, M. Eginligil, L. Wang, J. Liu, W. Huang
📜 Published in: Polymer Chemistry (2021) 🏗️⚛️

📖 “Interlayer Reconstruction Phase Transition in van der Waals Materials”
👥 J. Zhang, L. Wang, J. Lü, Z. Wang, H. Wu, G. Zhu, N. Wang, F. Xue, X. Zeng, et al.
📜 Published in: Nature Materials (2020) 🔬🌱

📖 “Programmable Devices Based on Reversible Solid-State Doping of Two-Dimensional Semiconductors with Superionic Silver Iodide”
👥 S.J. Lee, Z. Lin, J. Huang, C.S. Choi, P. Chen, Y. Liu, J. Guo, C. Jia, Y. Wang, et al.
📜 Published in: Nature Electronics (2020) 💾⚡

His research revolutionizes 2D materials, memristors, and nanoelectronics, contributing to neuromorphic computing, stretchable electronics, and phase transition studies 🚀💡.

Dr Jiageng Guo | Microstructure and Properties | Best Researcher Award

Dr Jiageng Guo | Microstructure and Properties | Best Researcher Award

Dr Jiageng Guo, Guangxi university of Chinese Medicine, China

Dr. Jiageng Guo is a distinguished researcher at Guangxi University of Traditional Chinese Medicine, specializing in pharmacology and cancer research. He has made significant contributions to liver cancer therapy, focusing on natural compounds like cinnamaldehyde and cinnamic acid. His work spans cutting-edge areas, including network pharmacology, bioinformatics, and both in vitro and in vivo experimental techniques. With high-impact publications in journals like Frontiers in Pharmacology, Dr. Guo integrates Traditional Chinese Medicine with modern pharmacology. His interdisciplinary approach offers innovative solutions for cancer therapy and drug discovery. 🌿🔬🧬💡📚

Publication Profile

Scopus

Skills

Guo Jiageng is highly skilled in network pharmacology and bioinformatics analysis, essential for understanding complex biological systems and drug interactions. He is proficient in various in vitro cell experimental techniques, including flow cytometry, cell proliferation, apoptosis, migration, invasion, and cell cycle analysis 🧬. Additionally, he has hands-on experience with in vivo experimental models, such as constructing zebrafish PDX models, performing zebrafish seahorse detection 🐟, and establishing mouse tumor-bearing models 🐭. These techniques are critical for advancing research in pharmacology and cancer therapy.

Education🎓

Dr. Guo is a distinguished academic at Guangxi University of Traditional Chinese Medicine, where he combines the rich heritage of traditional Chinese medicine with modern scientific research methodologies. His diverse academic background allows him to integrate a wide range of scientific knowledge, especially in the fields of pharmacology and holistic healing. With expertise in both traditional practices and contemporary research, Dr. Guo is well-positioned to explore and advance the understanding of Chinese medicine in the modern scientific landscape. His work bridges the gap between ancient wisdom and cutting-edge medical innovations. 🌿📚💡

Experience

From September 2022 to September 2024, Guo Jiageng dedicated his efforts to research on the therapeutic mechanisms of cinnamaldehyde and cinnamic acid in liver cancer treatment. His work explored crucial energy metabolism pathways and the EGFR pathway, aiming to uncover their potential in combating cancer cells 🧬. Through these studies, he contributed valuable insights into the molecular processes involved in liver cancer therapy, paving the way for novel treatments and therapeutic strategies 🍃.

Research Focus Area 🌱🧬

Dr. Jiageng Guo’s research primarily focuses on Traditional Chinese Medicine (TCM), pharmacology, and its applications in health restoration. His work includes investigating natural compounds like cinnamaldehyde 🌿 and Cinnamomi Cortex 🍃 for therapeutic effects, particularly in skin barrier restoration and cancer treatment. Dr. Guo explores the molecular mechanisms underlying these herbal treatments, such as the role of GSK-3β in liver cancer through the PI3K/AKT pathway ⚖️. His research bridges traditional herbal medicine with modern biomedical advancements 🩺, highlighting the potential of TCM in improving skin health and combating diseases.

Publication Top Notes📄✨

Insights from Traditional Chinese Medicine for Restoring Skin Barrier Functions

Visual analysis of knowledge graph for research progress on medicinal and edible traditional Chinese medicine Cinnamomi Cortex based on VOSviewer and CiteSpace

Evaluation of the effect of GSK-3β on liver cancer based on the PI3K/AKT pathway

Advances in pharmacological effects and mechanism of action of cinnamaldehyde

Conclusion🔍

Dr. Jiageng Guo is undoubtedly a suitable candidate for the Best Researcher Award, given his extensive research background, significant publications in top journals, mastery of diverse experimental techniques, and his impactful contributions to both modern cancer research and traditional medicine. His work is poised to make meaningful advancements in therapeutic development, particularly for liver cancer, and his multi-disciplinary approach offers considerable promise for future breakthroughs.