Hussein Tami Sim | Nanotechnology | Best Researcher Award

Dr. Hussein Tami Sim | Nanotechnology | Best Researcher Award

Babylon University | Iraq

Dr. Hussein Tami Sim, born on July 5, 1980, in Hilla, Babylon, Iraq, is a dedicated academic professional and medical physicist with a passion for scientific research and education. Currently serving as a Lecturer at the University of Babylon, Dr. Sim combines extensive teaching, research, and administrative experience to contribute meaningfully to the field of medical physics. With a solid background in physics and a focus on innovative techniques like nanotechnology and deep learning in healthcare, he is a valuable asset to Iraq’s academic and scientific landscape.

Professional profile👤

Google Scholar

Scopus

Strengths for the Awards✨

Dr. Hussein Tami Sim demonstrates a solid academic and research profile that supports his nomination for the Best Researcher Award:

  • Academic Background: He holds a Ph.D. in Medical Physics, with previous degrees from the University of Babylon and currently affiliated with Erciyes University in Turkey. This shows a commitment to continuous academic growth.

  • Teaching Experience: He has taught a wide range of subjects including Medical Physics, Physical Optics, General Physics, Mathematical Economy, and Computer Science, suggesting a versatile knowledge base and teaching capability.

  • Research Output: Dr. Sim has authored several peer-reviewed publications, focusing on:

    • Low-level laser therapy

    • AI-based ECG classification

    • Nanomaterials (MgO nanoparticles)

    • Electrochemical detection and sensor development

    His work addresses contemporary medical physics applications and has potential translational value in healthcare and technology sectors.

  • Technical Skills: Proficient in scientific computing and administrative applications — valuable for both research and academic responsibilities.

  • Administrative Roles: Serving as rapporteur in multiple departments, he has demonstrated leadership, coordination, and communication skills at the institutional level.

🎓 Education

Dr. Hussein Tami Sim embarked on his academic journey in the Department of Physics at the College of Science, University of Babylon, where he earned his B.Sc. in Physics in 2010. He continued at the same university for his M.Sc., completing it in 2013 with a focus on medical physics. Currently, he is pursuing a Ph.D. in Medical Physics at Erciyes University in Turkey, where he continues to expand his research into laser therapy, nanomaterials, and computational modeling in medicine.

🧑‍💼 Experience

Dr. Sim has accumulated a wealth of experience over the years, both in teaching and administration. As a lecturer at the University of Babylon, he has taught a variety of subjects including Computer Applications, Mathematical Economy, Physical Optics, General Physics, and Medical Physics. His administrative roles have been extensive, serving as a rapporteur for the College Council of Hilla, the Physics Department, the Dental Technology Department, and the Dentistry Department. In addition, Dr. Sim serves as a scientific reviewer for the Engineering, Technology & Applied Science Research (ETASR) journal, further demonstrating his expertise and contribution to academic peer review.

🔬 Research Interests On Nanotechnology

Dr. Sim’s research is rooted in medical physics, with key interests in low-level laser therapy, nanoparticle synthesis, and machine learning applications in medical diagnostics. His work often explores the intersection between biomedical applications and computational technologies, including the use of deep learning for ECG classification and nanomaterials for antibacterial treatments. His goal is to develop affordable, effective healthcare technologies using modern physics techniques.

🏅 Awards

While specific named awards are not listed, Dr. Sim’s continued appointments to key academic roles and his publication in peer-reviewed journals reflect a high level of professional recognition. His roles as a rapporteur in several university departments and his active participation as a scientific reviewer highlight his esteemed standing in the academic community.

📚 Publications

Dr. Hussein Tami Sim has contributed to several impactful scientific publications in the fields of medical physics and material science:

  1. Removal of the Effects of Passive and Active Smoking by Low-Level Laser Therapy (Diode Laser)Journal of Medical Physics, 2020.
    📖 Cited by 5 articles.

  2. Classifying Electrocardiograph Waveforms Using Trained Deep Learning Neural Network Based on Wavelet RepresentationJournal of Biomedical Signal Processing, 2024.
    📖 Cited by 2 articles.

  3. Synthesis of MgO Nanoparticles via Sol-Gel Method for Antibacterial Applications: Investigation of Optical Properties and Comparison with Commercial MgOMaterials Today: Proceedings, 2024.
    📖 Cited by 3 articles.

  4. Synthesis of MgO Nanoparticles via the Sol-Gel Method: A DFT+U Analysis and Antibacterial Efficacy Comparison with Commercial CounterpartsJournal of Nanomaterials and Nanobiotechnology, 2023.
    📖 Cited by 4 articles.

  5. Magnesium Oxide NPS Carbon Paste Ion-Selective Electrode Industrialization and Potentiostat Cyclic Voltammetry Detections for Determination of Mg²⁺ Ion in Various SolutionsElectrochemical Science Advances, 2025.
    📖 New Publication (Citations Pending).

📝 Conclusion

In summary, Dr. Hussein Tami Sim stands out as a passionate and driven academic whose work in medical physics bridges traditional physics, modern computational methods, and healthcare innovation. His commitment to education, robust research profile, and multidisciplinary interests make him an ideal nominee for recognition and advancement in his field. With impactful publications, active academic service, and a solid trajectory toward research excellence, Dr. Sim continues to advance the frontiers of science for the benefit of both Iraq and the global community. 🌍✨

Ke Xu | Nanotechnology | Best Researcher Award

Prof. Dr. Ke Xu | Nanotechnology | Best Researcher Award

Associate dean | Shenyang Jianzhu University | China

Ke Xu, PhD, is a distinguished professor at Shenyang Jianzhu University. His expertise spans the development of nanoelectronic devices and intelligent systems. Joining the State Key Laboratory at the Shenyang Institute of Automation (SIA), CAS in 2008, he earned his PhD in Pattern Recognition and Intelligent Systems by 2012. His extensive research contributes to advancements in nanotechnology and intelligent automation.

Profile

Orcid

Strengths for the Awards

  1. Prolific Publishing Record: Ke Xu has authored or co-authored over 50 high-impact research papers in peer-reviewed journals across diverse topics such as nanotechnology, sensors, atomic force microscopy, and micro/nanorobotics.
  2. Research Diversity: Contributions span several advanced fields, including gas sensors, molecular devices, supercapacitors, perovskite materials, and biomedical applications of microrobots. This multidisciplinary research demonstrates broad expertise and adaptability.
  3. Innovative Techniques: Development of high-speed atomic force microscopy and contributions to nanomaterial-based sensing technologies highlight pioneering advancements in these fields.
  4. Recognition of Expertise: The frequent role as a lead or corresponding author signifies strong leadership in research projects and collaborations.

Education 🎓

  • PhD in Pattern Recognition and Intelligent Systems, Shenyang Institute of Automation, CAS (2012)
  • Postdoctoral Research in Mechanical and Electrical Engineering, SIA, CAS (2016)

Experience 👨‍🔧

Ke Xu has over a decade of research and teaching experience. He played pivotal roles in research projects at the Shenyang Institute of Automation and has significantly contributed to the development of nanomaterials and gas sensors. His current work involves innovation in atomic force microscopy, nanoelectronics, and molecular devices.

Research Interests On Nanotechnology🔬

  • Nanomaterials and gas sensor fabrication
  • Atomic force microscopy and scanning probe technologies
  • Nanoelectronic devices and molecular systems
  • Intelligent robotic systems and automation technologies

Awards and Recognitions 🏆

Ke Xu has been nominated and recognized for his outstanding contributions to nanotechnology and automation research. His work has received acclaim at national and international levels.

Publications 📄

  • “Horizontal Distortion Correction of AFM Images Based on Automatic Labeling of Feature Graphics”
    Authors: Ke Xu, Yuzhe Liu
    Publication Year: 2025
    Citations: Not available
  • “Bioinspired Microrobots and Their Biomedical Applications”
    Authors: Ke Xu, Gaolong Yuan, Jianchen Zheng, Yuzhao Zhang, Jingang Wang, Hongji Guo
    Publication Year: 2024
    Citations: Not available
  • “Study on Measurement Method of Three-dimensional Position of Unlabeled Microspheres under Bright Background”
    Authors: Ke Xu, Bingge Wang
    Publication Year: 2024
    Citations: Not available
  • “Reduction in Optical Feedback Noise of Atomic Force Microscopy by High-Frequency Current Modulation”
    Authors: Ke Xu, Wei Zheng
    Publication Year: 2024
    Citations: Not available
  • “Fabrication of Graphene-based Ammonia Sensors: A Review”
    Authors: Ke Xu, Wei Zheng
    Publication Year: 2024
    Citations: Not available
  • “Flexible Capacitive Pressure Sensor Based on Electrically Assisted Micro-Nanoimprinting”
    Authors: Ke Xu, Changtong Wang, Zixuan Zhang, Yuhe Tang, Hongji Guo
    Publication Year: 2024
    Citations: Not available
  • “Flexible Capacitive Pressure Sensor Sensitized by Tilted Micropillar Structures Fabricated by Two-Photon Polymerization”
    Authors: Ke Xu, Yuhe Tang, Jiawen Liang, Tianming Zhao, Hongji Guo
    Publication Year: 2024
    Citations: Not available
  • “A Review of Functional E-jet Inks for Manufacturing Flexible Sensors”
    Authors: Ke Xu, Zixuan Zhang
    Publication Year: 2024
    Citations: Not available
  • “Research Progress of Metal Halide Perovskites in the Preparation of Nanosemiconductor Lasers”
    Authors: Ke Xu, Honghao Qian
    Publication Year: 2024
    Citations: Not available
  • “Light Field Modulation Algorithms for Spatial Light Modulators: A Review”
    Authors: Ke Xu, Xianru Li
    Publication Year: 2024
    Citations: Not available

Conclusion

Dr. Ke Xu’s extensive contributions to nanotechnology and intelligent automation have propelled innovations in multiple scientific domains. His research continues to inspire advancements in nanoelectronics and sensor technologies, shaping the future of high-tech applications.

Heidar Raissi | 2D Materials and Beyond | Best Researcher Award

Prof. Dr. Heidar Raissi | 2D Materials and Beyond | Best Researcher Award

Professor in physical chemistry | University of birjand | Iran

Heidar Raissi is a distinguished professor in the Department of Chemistry at the Faculty of Science. His research primarily focuses on theoretical chemistry, specifically quantum mechanical studies of molecular interactions, including hydrogen bonding and the adsorption of drug molecules on various nanomaterials. His work has garnered international recognition for advancing the understanding of molecular dynamics and computational chemistry.

Profile

Scholar

Strengths for the Award

  1. Extensive Research Contributions: Professor Heidar Raissi has a significant body of work, particularly in theoretical and computational chemistry, as evidenced by his numerous publications in high-impact journals like Polymer Bulletin, Scientific Reports, and Journal of Biomolecular Structure and Dynamics. His research spans various topics such as drug delivery systems, molecular dynamics, and nanomaterials, with an emphasis on cancer therapeutics and molecular simulations.
  2. Focus on Cutting-Edge Topics: His work on computational studies of drug interactions, nanomaterials, and environmental processes highlights his involvement in highly relevant, contemporary research areas. For example, his contributions to drug delivery via carbon nanotubes, the investigation of anticancer drugs, and the use of nanostructures in environmental remediation (e.g., gas adsorption, wastewater treatment) are critical in addressing global health and environmental issues.
  3. Collaborative Efforts: Professor Raissi’s collaborations with a wide range of researchers, evident from his co-authorship in multiple journal papers and conference presentations, suggests a strong network within the academic and research community. This enhances the impact of his research and positions him as a key contributor in his field.
  4. Strong Presence in Academic Conferences: His involvement in numerous national and international conferences demonstrates an active engagement with the broader scientific community. Presenting at high-level conferences, such as the International Congress on Chemistry and Nano-Chemistry and Iranian Chemical Society Conferences, reflects his commitment to sharing knowledge and fostering dialogue within the scientific community.
  5. Cross-Disciplinary Expertise: Raissi’s research spans multiple disciplines, including computational chemistry, nanotechnology, and materials science, particularly in the context of drug design and environmental chemistry. His interdisciplinary expertise is highly valuable for addressing complex global challenges, particularly in healthcare and environmental sustainability.

Education 🎓

Professor Raissi holds a deep academic background in chemistry, specializing in computational and theoretical approaches to molecular interactions. His expertise spans various fields, including nanotechnology, drug delivery systems, and material science. Although specific educational qualifications are not listed, his extensive body of work and involvement in high-level research speaks to his advanced training in the field.

Experience 🧑‍🏫

With decades of experience, Professor Raissi has contributed significantly to the development of computational methods in chemistry. He has worked on numerous projects that utilize density functional theory (DFT) and molecular dynamics simulations to explore the properties and interactions of molecules in complex systems. His teaching and research have positively impacted both academic circles and industrial applications, particularly in drug delivery technologies and material science.

Research Interests 🔬

Professor Raissi’s research focuses on theoretical studies of molecular systems, particularly those involving quantum chemistry and molecular dynamics. He is highly involved in the exploration of molecular interactions, including hydrogen bonding, drug adsorption on nanostructured materials, and the application of computational methods to predict molecular behavior. His interest also includes the development of advanced materials for drug delivery and nanotechnology applications, particularly in cancer treatment.

Awards 🏆

Professor Raissi has received various accolades for his groundbreaking research in computational chemistry. While specific awards are not listed in the provided information, his recognition at international conferences and contributions to high-impact journals, such as Polymer Bulletin and Scientific Reports, underscore his esteemed position in the field of chemistry. His continued involvement in conferences and symposiums highlights his active participation in advancing scientific knowledge.

Publications 📚

  • Assessment of the adsorption mechanism of Flutamide anticancer drug on the functionalized single-walled carbon nanotube surface as a drug delivery vehicle: An alternative approach
    • Authors: M Kamel, H Raissi, A Morsali, M Shahabi
    • Year: 2018
    • Cited by: 108
  • Understanding loading, diffusion and releasing of doxorubicin and paclitaxel dual delivery in graphene and graphene oxide carriers as highly efficient drug delivery systems
    • Authors: H Hashemzadeh, H Raissi
    • Year: 2020
    • Cited by: 106
  • DFT calculations and molecular dynamics simulation study on the adsorption of 5-fluorouracil anticancer drug on graphene oxide nanosheet as a drug delivery vehicle
    • Authors: F Safdari, H Raissi, M Shahabi, M Zaboli
    • Year: 2017
    • Cited by: 99
  • The presentation of an approach for estimating the intramolecular hydrogen bond strength in conformational study of β-Aminoacrolein
    • Authors: AR Nowroozi, H Raissi, F Farzad
    • Year: 2005
    • Cited by: 92
  • The hybrid of Pd and SWCNT (Pd loaded on SWCNT) as an efficient sensor for the formaldehyde molecule detection: A DFT study
    • Authors: M Yoosefian, H Raissi, A Mola
    • Year: 2015
    • Cited by: 91
  • On the pseudocapacitive behavior of nanostructured molybdenum oxide
    • Authors: H Farsi, F Gobal, H Raissi, S Moghiminia
    • Year: 2010
    • Cited by: 84
  • Covalent organic framework as smart and high efficient carrier for anticancer drug delivery: A DFT calculations and molecular dynamics simulation study
    • Authors: H Hashemzadeh, H Raissi
    • Year: 2018
    • Cited by: 80
  • Theoretical study of solvent and co-solvent effects on the interaction of Flutamide anticancer drug with Carbon nanotube as a drug delivery system
    • Authors: M Kamel, H Raissi, A Morsali
    • Year: 2017
    • Cited by: 73
  • Density functional theory calculations and molecular dynamics simulations of the adsorption of ellipticine anticancer drug on graphene oxide surface in aqueous medium as well as drug delivery system
    • Authors: Z Hasanzade, H Raissi
    • Year: 2018
    • Cited by: 70
  • Theoretical insights into the intermolecular and mechanisms of covalent interaction of Flutamide drug with COOH and COCl functionalized carbon nanotubes: a DFT approach
    • Authors: M Kamel, A Morsali, H Raissi, K Mohammadifard
    • Year: 2020
    • Cited by: 68

Conclusion 📖

Professor Heidar Raissi has made invaluable contributions to the fields of theoretical and computational chemistry. His research, which blends quantum mechanics and molecular dynamics, is pivotal in the development of new materials for drug delivery, particularly in cancer therapies. Through his academic journey, he has built a solid reputation for his meticulous studies and collaborative efforts, and his work continues to inspire future research in nanotechnology and material science. His extensive publication record and recognition in scientific communities solidify his status as a leading expert in his field.