Chun-Wang Ma | Nuclear Physics | Best Scholar Award

Published on by Physicist Particle

Best Scholar Award

Chun-Wang Ma
Affiliation Henan Normal University
Country China
Scopus ID 8723805700
Documents 190
Citations 2,117
h-index 24
Subject Area Nuclear Physics
Event Global Particle Physics Excellence Awards
ORCID 0000-0001-9372-518X

Chun-Wang Ma

Professor Chun-Wang Ma is a nuclear physicist affiliated with Henan Normal University, China, whose research has contributed to the understanding of heavy-ion collisions, projectile fragmentation reactions, nuclear symmetry energy, neutron-rich isotopes, photonuclear reactions, and modern computational approaches in nuclear science. His scholarly work spans theoretical modeling, experimental nuclear physics, information entropy applications, and machine learning methodologies for nuclear reaction analysis. Through extensive publication activity and international collaboration, he has contributed to advancing contemporary nuclear and particle physics research.[1][2]

Abstract

The Best Scholar Award recognizes researchers whose sustained academic contributions demonstrate scientific excellence, innovation, and measurable impact. Chun-Wang Ma has established a notable research profile in nuclear physics through studies involving heavy-ion collisions, projectile fragmentation, neutron-rich nuclei, nuclear symmetry energy, photonuclear reactions, and data-driven methodologies. His publication record, citation performance, and leadership in funded research projects reflect continued engagement with important scientific questions in nuclear science and technology. The breadth of his scholarly activities supports his recognition within the international nuclear physics community.[1][3]

Keywords

Nuclear Physics, Heavy-Ion Collisions, Projectile Fragmentation, Nuclear Symmetry Energy, Neutron-Rich Isotopes, Photonuclear Reactions, Rare Isotopes, Machine Learning in Physics, Bayesian Neural Networks, Information Entropy, Nuclear Analysis, Particle Physics.

Introduction

Nuclear physics remains fundamental to understanding the structure, interactions, and evolution of matter. Researchers in this field investigate nuclear reactions, isotope production, radiation effects, and particle interactions that have implications for both fundamental science and technological applications. Within this landscape, Chun-Wang Ma has developed a research portfolio focused on heavy-ion reaction mechanisms, neutron-rich nuclear systems, and quantitative approaches for interpreting complex nuclear phenomena. His investigations integrate experimental observations with theoretical and computational techniques, contributing to improved predictive capabilities in nuclear reaction studies.[1][4]

Research Profile

Chun-Wang Ma serves as Professor in the College of Physics at Henan Normal University and has additionally held leadership responsibilities within the Institute of Nuclear Science and Technology of the Henan Academy of Sciences. His academic background includes studies in physics and nuclear physics, supporting a career dedicated to nuclear reaction dynamics, isotope production, and advanced nuclear measurement techniques.[1]

  • Professor, College of Physics, Henan Normal University.
  • Research interests include heavy-ion collisions, photonuclear physics, nuclear radiation applications, and nuclear analysis.
  • Principal investigator and participant in multiple nationally funded scientific projects.
  • Author of a substantial body of peer-reviewed publications in internationally recognized journals.

Research Contributions

Professor Ma’s contributions encompass several interconnected domains of nuclear physics. His work on projectile fragmentation reactions has improved understanding of fragment production mechanisms and isotope distributions. He has also investigated neutron-skin thickness, symmetry energy behavior, and isospin effects in nuclear reactions, providing analytical frameworks useful for interpreting experimental observations.[5]

A notable aspect of his research is the integration of machine learning and Bayesian neural network methodologies into nuclear physics. These approaches have been applied to fragment production prediction, charge-radius estimation, spallation reaction analysis, and nuclear data evaluation, illustrating the growing role of artificial intelligence in modern physics research.

His investigations into information entropy and heavy-ion collisions have also contributed to the quantitative characterization of nuclear reaction systems, linking statistical concepts with observable nuclear phenomena.

Publications

Selected publications representative of Chun-Wang Ma’s research activities include:

  • Nuclear Fragments in Projectile Fragmentation Reactions (Progress in Particle and Nuclear Physics, 2021).
  • Systematic Behavior of Fragments in Bayesian Neural Network Models for Projectile Fragmentation Reactions (Physical Review C, 2023).
  • Determination of Neutron-Skin Thickness Using Configurational Information Entropy (Nuclear Science and Techniques, 2022).
  • Shannon Information Entropy in Heavy-Ion Collisions (Progress in Particle and Nuclear Physics, 2018).
  • A Novel Bayesian Neural Network Approach for Nuclear Root-Mean-Square Charge Radii (IEEE Transactions on Nuclear Science, 2025).
  • Bubble 36Ar and its New Breathing Modes (Physics Letters B, 2024).
  • A Possible Probe to Neutron-Skin Thickness by Fragment Parallel Momentum Distribution in Projectile Fragmentation Reactions (2024).

Research Impact

The research impact of Chun-Wang Ma is reflected in a substantial publication portfolio, more than two thousand scholarly citations, and an h-index of 24. His studies have appeared in journals including Physical Review C, Physical Review Letters, Physics Letters B, Progress in Particle and Nuclear Physics, Nuclear Science and Techniques, Chinese Physics C, and IEEE Transactions on Nuclear Science. These publications contribute to ongoing discussions regarding nuclear structure, rare isotope production, reaction dynamics, and advanced computational modeling.[2]

His participation in competitive research grants further demonstrates scientific leadership and sustained engagement with nationally significant research initiatives focused on rare isotopes, projectile fragmentation, and neutron-rich nuclear systems.[3]

Award Suitability

The nomination of Chun-Wang Ma for the Best Scholar Award is supported by several indicators of academic achievement. These include a sustained publication record, recognized contributions to nuclear physics research, successful acquisition of competitive research funding, interdisciplinary integration of machine learning methods, and active participation in advancing understanding of nuclear reaction mechanisms. His work demonstrates both depth within specialized areas of nuclear physics and adaptability to emerging computational techniques, characteristics frequently associated with scholarly distinction and research excellence.[1][3]

Conclusion

Chun-Wang Ma has established a respected academic profile through sustained contributions to nuclear physics, particularly in the areas of heavy-ion collisions, projectile fragmentation, neutron-rich nuclei, and computational nuclear science. His combination of theoretical insight, experimental engagement, and methodological innovation has produced a body of work that continues to influence ongoing research in the field. Based on his scholarly achievements, research productivity, and scientific impact, he represents a strong candidate for recognition through the Best Scholar Award presented at the Global Particle Physics Excellence Awards.

References

  1. ORCID. (n.d.). Chun-Wang Ma (0000-0001-9372-518X) researcher profile. ORCID.
    https://orcid.org/0000-0001-9372-518X
  2. Elsevier. (n.d.). Scopus author details: Chun-Wang Ma, Author ID 8723805700. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=8723805700
  3. National Natural Science Foundation of China. Research funding projects led and participated in by Chun-Wang Ma.
    https://orcid.org/0000-0001-9372-518X
  4. Ma, C.-W. et al. (2021). Nuclear Fragments in Projectile Fragmentation Reactions. Progress in Particle and Nuclear Physics.
    DOI: https://doi.org/10.1016/j.ppnp.2021.103911
  5. Ma, C.-W. et al. (2022). Determination of Neutron-Skin Thickness Using Configurational Information Entropy. Nuclear Science and Techniques.
    DOI: https://doi.org/10.1007/s41365-022-00997-0

Algazy Zhauyt | Theoretical Advances | Best Researcher Award

Published on by Physicist Particle

Best Researcher Award

Algazy Zhauyt
Algazy Zhauyt
Affiliation Almaty University of Power Engineering and Telecommunication
Country Kazakhstan
Scopus ID 36240229200
Documents 210
Citations 3,105
h-index 27
Subject Area Theoretical Advances
Event Global Particle Physics Excellence Awards
ORCID 0000-0003-3905-6928

The recognition of Algazy Zhauyt through the Best Researcher Award reflects sustained scholarly engagement in theoretical advances and interdisciplinary scientific development within the broader field of particle physics and applied physical sciences. Affiliated with the Almaty University of Power Engineering and Telecommunication in Kazakhstan, the researcher has contributed to a substantial body of indexed scientific literature and has demonstrated measurable academic influence through citations and international scholarly visibility.[1] The award consideration under the Global Particle Physics Excellence Awards acknowledges scholarly productivity, scientific relevance, and contribution to theoretical scientific progress in internationally indexed research environments.[2]

Abstract

This academic recognition article presents an overview of the scholarly profile and research significance of Algazy Zhauyt, whose scientific activities have contributed to theoretical advances within physics-related disciplines. The profile emphasizes publication performance, citation metrics, indexed academic visibility, and sustained contributions to interdisciplinary theoretical research. The recognition through the Global Particle Physics Excellence Awards illustrates the increasing importance of measurable scientific productivity and international collaboration in evaluating contemporary research excellence.[1][3]

Keywords

Particle physics, theoretical advances, scientific research, citation impact, academic recognition, Scopus indexing, interdisciplinary science, international collaboration, higher education research, scholarly productivity.

Introduction

Academic awards in the sciences often serve as indicators of sustained scholarly productivity, international visibility, and contributions to emerging theoretical frameworks. Researchers working within interdisciplinary and theoretical domains contribute significantly to scientific progress by expanding conceptual understanding and supporting future technological and analytical developments.[4] Algazy Zhauyt has established a notable research presence through indexed scientific publications and citation performance. With more than 200 indexed documents and an h-index reflecting consistent citation engagement, the researcher’s profile demonstrates measurable academic influence across scientific communities.[1] Recognition through international award platforms further reflects the growing role of global scholarly evaluation systems in identifying impactful research contributions.[2]

Research Profile

The academic profile of Algazy Zhauyt is characterized by sustained research productivity, indexed publication activity, and interdisciplinary theoretical engagement. Affiliated with the Almaty University of Power Engineering and Telecommunication, the researcher has contributed to scientific literature relevant to advanced theoretical methodologies and scientific modeling approaches.[1]

  • More than 210 indexed scholarly documents across international databases.
  • Citation count exceeding 3,100 references from academic publications.
  • An h-index of 27 indicating sustained citation relevance and research continuity.
  • Research involvement associated with theoretical advances and interdisciplinary scientific applications.
  • Participation in internationally visible scholarly communication networks.

Research Contributions

Theoretical research frequently provides the conceptual basis for future developments in computational analysis, particle modeling, and scientific simulation. Researchers operating within this framework contribute to the advancement of mathematical interpretation, analytical modeling, and cross-disciplinary scientific understanding.The scholarly contributions associated with Algazy Zhauyt demonstrate continued participation in these areas through publication output and collaborative academic engagement. Citation performance and document indexing suggest that the researcher’s work has been referenced by diverse scholarly communities, indicating broader relevance within scientific research ecosystems.[1]

  • Development of theoretical analytical methodologies.
  • Contribution to interdisciplinary scientific communication and collaboration.
  • Publication of research within internationally indexed journals and conference proceedings.
  • Support for advancing conceptual understanding in theoretical sciences.

Publications

Publication activity represents a central indicator of scholarly communication and research dissemination. The researcher’s indexed documents reflect sustained academic productivity and participation in peer-reviewed scientific dialogue.[1]

  1. Peer-reviewed journal articles focused on theoretical scientific analysis and advanced methodologies.
  2. Collaborative interdisciplinary publications involving international scientific networks.
  3. Conference papers addressing theoretical and computational scientific developments.
  4. Research outputs indexed within Scopus and associated international academic databases.

Research Impact

Research impact is frequently evaluated through citation metrics, scholarly visibility, collaborative influence, and publication dissemination. The citation profile associated with Algazy Zhauyt reflects continued academic engagement from the scientific community and suggests ongoing relevance within theoretical and interdisciplinary research domains.[1] An h-index of 27 indicates that multiple publications have received sustained citation attention, which is commonly interpreted as a marker of scholarly continuity and scientific recognition. International indexing further enhances the accessibility and discoverability of the researcher’s work within global academic networks.[4]

Award Suitability

The Best Researcher Award under the Global Particle Physics Excellence Awards recognizes sustained scientific contribution, academic visibility, and measurable scholarly influence. Algazy Zhauyt’s research metrics, indexed publication record, and interdisciplinary theoretical engagement collectively align with criteria commonly associated with international research distinction.[2]

  • Consistent scholarly publication activity.
  • Strong citation and indexing performance.
  • Contribution to theoretical scientific advancement.
  • International academic visibility and recognition.
  • Engagement with interdisciplinary scientific research environments.

Conclusion

The academic profile of Algazy Zhauyt demonstrates sustained participation in theoretical scientific research supported by measurable scholarly output and citation visibility. Recognition through the Best Researcher Award under the Global Particle Physics Excellence Awards reflects the importance of interdisciplinary scientific contribution, indexed publication activity, and ongoing engagement with the international academic community. The researcher’s profile represents a continuing contribution to theoretical advances and scholarly communication within contemporary scientific research.[1][2]

References

  1. Elsevier. (n.d.). Scopus author details: Algazy Zhauyt, Author ID 36240229200. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=36240229200
  2. Global Particle Physics Excellence Awards. (2026). International academic recognition and award framework.
    https://physicistparticle.com/
  3. ORCID. (n.d.). ORCID profile record for Algazy Zhauyt.
    https://orcid.org/0000-0003-3905-6928
  4. Google Scholar. (n.d.). Google Scholar profile for Algazy Zhauyt.
    https://scholar.google.com/citations?user=lCkrZvNYEPMC&hl=en

Osvaldo Civitarese | Weak Interactions | Research Excellence Award

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Prof. Dr. Osvaldo Civitarese | Weak Interactions | Research Excellence Award

Emeritus Professor | Universitynof La Plata | Argentia   

Dr. Osvaldo Civitarese is a distinguished researcher in theoretical nuclear physics, electroweak interactions, neutrino physics, and astroparticle physics. Affiliated with Universidad Nacional de La Plata, he has made internationally recognized contributions to nuclear double beta decay and neutrino-related theoretical models. His scholarly impact is reflected through highly cited publications in leading journals including Physics Reports, Physical Review C, Physics Letters B, and Nuclear Physics A. With more than one thousand citations on landmark studies related to weak interactions and nuclear matrix elements, his work has significantly influenced modern nuclear and particle physics research. Professor Civitarese has collaborated extensively with international physicists and researchers, contributing to advancements in understanding neutrino mass mechanisms, Gamow states, and quasiparticle random phase approximation models. His long-standing dedication to scientific excellence, theoretical innovation, and advanced nuclear research establishes him as a globally respected scholar within the international scientific community and a strong candidate for prestigious research recognition awards worldwide.

Professional Profile

Education

Osvaldo Civitarese developed a strong academic foundation in physics and theoretical nuclear science through advanced higher education and specialized research training in Argentina. His academic career has been closely associated with Universidad Nacional de La Plata, one of the leading scientific institutions in Latin America recognized for excellence in physical sciences and advanced research. Through rigorous academic preparation, he specialized in nuclear structure theory, electroweak interactions, neutrino physics, and astroparticle phenomena. His educational background enabled him to pursue highly sophisticated theoretical investigations involving nuclear matrix elements, double beta decay, and quantum many-body systems. Over the years, his academic expertise has expanded through collaborations with internationally recognized researchers and institutions working in modern particle physics and theoretical nuclear models. His continuous engagement in advanced scientific investigations demonstrates a lifelong commitment to academic excellence, analytical reasoning, and scientific discovery. The depth of his educational preparation has significantly contributed to his influential role in developing theoretical frameworks widely referenced in contemporary nuclear and neutrino physics research across the global scientific community today.

Professional Experience

Osvaldo Civitarese has built an exceptional professional career as a senior academic and researcher in theoretical nuclear physics at Universidad Nacional de La Plata. His extensive professional experience includes advanced teaching, postgraduate supervision, scientific mentoring, and high-level theoretical research in nuclear and particle physics. Throughout his career, he has collaborated with internationally recognized physicists on groundbreaking studies involving neutrino properties, electroweak interactions, nuclear matrix elements, and double beta decay mechanisms. His professional contributions extend beyond teaching responsibilities into active participation in international scientific collaborations, peer-reviewed publications, and theoretical model development. Professor Civitarese has contributed significantly to strengthening scientific understanding of weak interactions and neutrino observability through influential theoretical frameworks cited extensively by researchers worldwide. His long-term engagement with advanced nuclear theory demonstrates strong leadership within the scientific community and continued commitment to academic research excellence. Through decades of scholarly service, he has helped inspire young physicists and contributed meaningfully to the advancement of modern theoretical and astroparticle physics internationally.

Research Interest

The primary research interests of Osvaldo Civitarese include theoretical nuclear physics, neutrino physics, electroweak interactions, astroparticle physics, and nuclear structure theory. His investigations particularly focus on double beta decay processes, neutrinoless beta decay, nuclear matrix elements, quasiparticle random phase approximation methods, and Gamow state formulations. His work has contributed substantially to understanding neutrino mass spectra, orbital occupancies, proton-neutron pairing effects, and suppression mechanisms in beta decay transitions. Professor Civitarese has published influential studies in internationally respected journals such as Physics Reports, Physics Letters B, Journal of Physics G, and Physical Review C. His collaborations with globally recognized scientists have advanced theoretical approaches explaining weak interaction phenomena and the role of neutrinos in nuclear transformations. In addition, his interdisciplinary interests connect nuclear physics with astrophysical observations and particle phenomenology. His research continues to influence contemporary theoretical investigations in high-energy physics, nuclear decay mechanisms, and neutrino observability studies, strengthening global scientific understanding of fundamental interactions governing subatomic particles and nuclear matter.

Award and Honor

Osvaldo Civitarese has earned significant international recognition through the extraordinary scientific impact of his research contributions in theoretical nuclear physics and neutrino science. His landmark publication on weak interaction and nuclear structure aspects of nuclear double beta decay has received more than one thousand citations, demonstrating exceptional influence within the global physics research community. Multiple highly cited publications in renowned journals including Physics Reports, Physics Letters B, and Nuclear Physics A reflect the academic importance and scientific reliability of his theoretical models. His research achievements have strengthened understanding of electroweak interactions, neutrino mass mechanisms, and nuclear matrix element calculations. Through extensive collaborations with internationally respected physicists, he has contributed to globally recognized advancements in particle and astroparticle physics. Although specific formal awards are not listed, his remarkable citation record, international scientific reputation, influential collaborations, and longstanding contributions to nuclear theory serve as strong indicators of distinguished academic recognition and scholarly excellence within the international physics and scientific research community over several decades of impactful professional dedication.

Conclusion

Osvaldo Civitarese is highly deserving of recognition for his exceptional contributions to theoretical nuclear physics, neutrino science, and electroweak interaction research. His influential publications, remarkable citation impact, and international collaborations have advanced global understanding of nuclear decay mechanisms and particle physics. Through decades of scientific excellence, academic leadership, and theoretical innovation, he continues to inspire researchers worldwide and remains a highly respected figure in modern nuclear and astroparticle physics research communities.

Publications Top Notes

Weak-interaction and nuclear-structure aspects of nuclear double beta decay
Authors: J. Suhonen, O. Civitarese
Year: 1998
Citation: Physics Reports 300(3–4), 123–214
Impact: Highly influential publication with 1068 citations focusing on nuclear structure theory and weak-interaction mechanisms in nuclear double beta decay research.

Suppression of the two-neutrino double β decay
Authors: O. Civitarese, A. Faessler, T. Tomoda
Year: 1987
Citation: Physics Letters B 194(1), 11–14
Impact: Landmark theoretical contribution explaining suppression mechanisms in two-neutrino double beta decay processes with significant international scientific recognition.

Challenges of using blooms of Microcystis spp. in animal feeds: A comprehensive review of nutritional, toxicological and microbial health evaluation
Authors: L. Chen, J.P. Giesy, O. Adamovsky, Z. Svirčev, J. Meriluoto, G.A. Codd, et al.
Year: 2021
Citation: Science of The Total Environment 764, 142319
Impact: Comprehensive interdisciplinary review addressing toxicological and environmental challenges associated with Microcystis species in animal feed systems.

Short-range correlations and neutrinoless double beta decay
Authors: M. Kortelainen, O. Civitarese, J. Suhonen, J. Toivanen
Year: 2007
Citation: Physics Letters B 647(2–3), 128–132
Impact: Significant contribution investigating short-range nuclear correlations influencing neutrinoless double beta decay theoretical calculations and observability studies.

Physical and mathematical aspects of Gamow states
Authors: O. Civitarese, M. Gadella
Year: 2004
Citation: Physics Reports 396(2), 41–113
Impact: Influential theoretical study presenting mathematical formulations and physical interpretations of Gamow states within advanced nuclear physics frameworks.

Review of the properties of the 0νβ−β− nuclear matrix elements
Authors: J. Suhonen, O. Civitarese
Year: 2012
Citation: Journal of Physics G: Nuclear and Particle Physics 39(12), 124005
Impact: Widely cited review analyzing nuclear matrix element properties associated with neutrinoless double beta decay phenomena and neutrino physics.

Probing the quenching of gA by single and double beta decays
Authors: J. Suhonen, O. Civitarese
Year: 2013
Citation: Physics Letters B 725(1–3), 153–157
Impact: Important theoretical investigation examining axial-vector coupling quenching effects in single and double beta decay nuclear transitions.

Is the single-state dominance realized in double-β-decay transitions?
Authors: O. Civitarese, J. Suhonen
Year: 1998
Citation: Physical Review C 58(3), 1535
Impact: Significant research exploring single-state dominance mechanisms within nuclear double beta decay transition models and theoretical predictions.

Neutron-proton pairing in the BCS approach
Authors: O. Civitarese, M. Reboiro, P. Vogel
Year: 1997
Citation: arXiv preprint nucl-th/9702047
Impact: Advanced theoretical study investigating neutron-proton pairing interactions using the BCS framework in nuclear many-body systems.

Francesco Inchingolo | Experimental Methods | Excellence in Research

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Prof. Dr. Francesco Inchingolo | Experimental Methods | Excellence in Research

Professore ordinario at Università degli studi di Bari (Aldo Moro), Italy

Prof. Francesco Inchingolo, MD, DMD, OMFS, MPH, is a distinguished academic and clinical professional specializing in Odontostomatological Diseases and Maxillofacial Surgery. Born on September 12, 1958, in Andria, Italy, he serves as a Full Professor at the University of Bari “Aldo Moro.” With over four decades of experience, he directs the School of Specialization in Orthodontics (2019–2026) and leads the International Master in Advanced Oral and Implant Surgery. A prolific researcher and educator, Prof. Inchingolo has significantly contributed to interdisciplinary medicine, publishing extensively and delivering lectures worldwide. He has held pivotal roles in academic leadership and editorial boards of international journals, reflecting his commitment to advancing medical and dental sciences globally.

Professional Profile

Education

Prof. Inchingolo holds a Medical Doctorate (MD) and multiple advanced degrees, including a Doctor of Dental Medicine (DMD), a Master’s in Public Health (MPH), and a specialization in Maxillofacial Surgery (OMFS). He also pursued advanced training in Hygiene, Preventive Medicine, Odontostomatology, and Experimental Medicine at the prestigious National Council of Research (CNR). Recognized as a Full Professor in Odontostomatological Diseases and Maxillofacial Surgery by the Italian Ministry of Education, he combines rigorous academic preparation with specialized expertise in clinical and research fields.

Professional Experience

Prof. Inchingolo is a Full Professor and researcher at the Interdisciplinary Department of Medicine at the University of Bari “Aldo Moro.” He has served as Principal Investigator in numerous research projects funded by Bari University and collaborated on international research initiatives. As Director of the Orthodontics specialization program, he oversees academic and clinical training for emerging dental specialists. His teaching extends to Ph.D. mentorship and postgraduate specialty courses in Maxillofacial Surgery. His career also includes substantial editorial and peer-review contributions to leading international medical journals, showcasing his influence in shaping global medical research and education.

Research Interests

Prof. Inchingolo’s research spans interdisciplinary fields, including stem cells, platelet-derived growth factors, oral and maxillofacial surgery, implantology, orthodontics, and biotechnology. He has explored innovative treatments in oral biology, immunology, and regenerative medicine, with significant contributions to geriatric and pediatric dentistry. His focus also extends to public health and preventive medicine, addressing pressing global health challenges. His work integrates advanced biochemistry and microbiology methodologies, emphasizing evidence-based approaches and the translational application of research to clinical settings.

Awards and Honors

Prof. Inchingolo has earned multiple accolades, including the prestigious “Sant’Apollonia Award” from the Italian Dentists National Association (ANDI) in 1999, recognizing his excellence in clinical and scientific reporting. He has been an invited speaker at renowned national and international conferences, reflecting his global reputation for innovation and expertise. As a prominent figure in academic and clinical circles, his achievements have positioned him as a leader in advancing medical and dental sciences. These honors underscore his enduring impact on interdisciplinary research and education.

Conclusion

Prof. Francesco Inchingolo exemplifies a distinguished career marked by significant contributions to medical, dental, and maxillofacial research and education. His robust academic leadership, diverse research interests, and recognized expertise in interdisciplinary medicine position him as a strong candidate for the Research Excellence in Research award. With a sharper focus on impactful outcomes and high-profile collaborations, his profile could reach an even higher level of distinction.

Publications Top Noted

📄 The Use of Ozone Therapy for the Treatment and Post-Surgical Management of Patients Treated with Bilateral Extraction of the Included Third Mandibular Molars
👤 Memè, L., Pizzolante, T., Saggiomo, A.P., Inchingolo, F., Rastelli, S.
🗓 2024
🔢 Citations: 0
📕 ORAL and Implantology, 16(3), pp. 124–132

📄 Orthopedic Devices for Skeletal Class III Malocclusion Treatment in Growing Patients: A Comparative Effectiveness Systematic Review
👤 Inchingolo, A.M., Inchingolo, A.D., Trilli, I., Inchingolo, F., Dipalma, G.
🗓 2024
🔢 Citations: 0
📕 Journal of Clinical Medicine, 13(23), 7141

📄 Effectiveness of Liquid Rubber Dam in Improving Dental Isolation: An In Vitro Study
👤 Kharouf, N., Jmal, H., Hadra, R., Haikel, Y., Kaloustian, M.K.
🗓 2024
🔢 Citations: 0
📕 International Journal of Adhesion and Adhesives, 135, 103819

📄 Integrated AI Medical Emergency Diagnostics Advising System
👤 Aityan, S.K., Mosaddegh, A., Herrero, R., Santacroce, L., Gargiulo Isacco, C.
🗓 2024
🔢 Citations: 0
📕 Electronics (Switzerland), 13(22), 4389

📄 The Diagnosis and Management of Infraoccluded Deciduous Molars: A Systematic Review
👤 Dipalma, G., Inchingolo, A.D., Memè, L., Palermo, A., Inchingolo, A.M.
🗓 2024
🔢 Citations: 0
📕 Children, 11(11), 1375

📄 Effectiveness and Personalized Approaches in the Correction of Gummy Smile: A Systematic Review of Orthodontic and Surgical Treatments
👤 Inchingolo, A.D., Inchingolo, A.M., Viapiano, F., Inchingolo, F., Dipalma, G.
🗓 2024
🔢 Citations: 0
📕 Journal of Clinical Medicine, 13(22), 6843

📄 Osteonecrosis of the Jaw in Patients with Metastatic Renal Carcinoma: Systematic Review and Meta-Analysis
👤 Memè, L., Bambini, F., Pizzolante, T., Bianchi, A., Mummolo, S.
🗓 2024
🔢 Citations: 4
📕 ORAL and Implantology, 16(2), pp. 79–87

📄 The Effects of Radiofrequency Electromagnetic Radiation Emitted by Mobile Phones on Rat Parotid Gland Histology – An Experimental Study
👤 Matei, L.I., Neag, M.A., Mocan, L.P., Dipalma, G., Melincovici, C.S.
🗓 2024
🔢 Citations: 0
📕 European Review for Medical and Pharmacological Sciences, 28(20), pp. 4405–4419

📄 Soft Tissue Facial Morphology in Growing Patients with Different Occlusal Classes
👤 Cenzato, N., Farronato, M., Tartaglia, F.C., Maspero, C., Inchingolo, F.
🗓 2024
🔢 Citations: 0
📕 Journal of Personalized Medicine, 14(10), 1042

📄 The Effectiveness of Curcumin in Treating Oral Mucositis Related to Radiation and Chemotherapy: A Systematic Review
👤 Dipalma, G., Inchingolo, A.M., Latini, G., Palermo, A., Inchingolo, A.D.
🗓 2024
🔢 Citations: 0
📕 Antioxidants, 13(10), 1160

 

Rayhan Hossain | Material Chemistry | Best Researcher Award

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Dr. Rayhan Hossain | Material chemistry | Best Researcher Award 

Dr. Rayhan Hossain, University of Michigan, United States

Dr. Rayhan Hossain is a Visiting Assistant Professor at the University of Michigan, Department of Chemistry. With extensive teaching and research experience across several institutions, his work focuses on materials chemistry, nanotechnology, and sustainable solutions for energy and environmental challenges. Dr. Hossain is a skilled educator and researcher, known for his contributions to the synthesis and characterization of semiconductor materials, photocatalytic water splitting, and wastewater treatment. He has received numerous awards for academic excellence and research contributions.

PROFILE

Orcid Profile

Google Scholar Profile 

Educational Details

Ph.D. in Materials Chemistry – The University of South Dakota (2017–2019)
Dissertation: “Synthesis and Characterization of Metal-Doped and Metal-Attached TiO2 Nanocrystals for Photocatalytic Water Splitting”

Master’s Degree in Chemistry – Bangladesh University of Engineering and Technology (2013–2015)
Focus: Development of hybrid nanomaterials for sensor applications

Bachelor’s Degree in Chemistry – University of Dhaka, Bangladesh (2008–2012)

Professional Experience

Visiting Assistant Professor – University of Michigan, Department of Chemistry (2024–Present)
Responsible for teaching undergraduate courses in general, physical, and analytical chemistry and mentoring students in advanced chemistry research.

Graduate Teaching Assistant and Adjunct Faculty – Oklahoma State University, Department of Chemistry (2020–2023)
Taught a wide range of chemistry laboratory courses, guiding undergraduate students through theoretical workflows and experiments.

Graduate Research and Teaching Assistant – The University of South Dakota, Department of Materials Chemistry (2017–2019)
Conducted research on semiconductor nanomaterials and taught general chemistry lab courses.

Lecturer – North South University, Chemical Engineering Department (2015–2016)
Taught undergraduate courses in chemistry and mentored students in understanding core concepts of chemical engineering.

Academic Appointments

Visiting Assistant Professor – University of Michigan (2024–Present)

Lecturer – North South University (2015–2016)

Teaching Experience

University of Michigan (2024–Present)

Courses taught: CHEM 136 (General Chemistry II), CHEM 368 (Physical Chemistry I), CHEM 469 (Physical Chemistry II), CHEM 344 (Quantitative Analysis), CHEM 493 (Chemistry Seminar).

Responsibilities included proctoring exams, grading, and laboratory instruction.

Oklahoma State University (2020–2023)

Courses taught: General Chemistry and Physical Chemistry laboratories.

Guided theoretical and practical sessions for undergraduate students.

The University of South Dakota (2017–2019)

Conducted laboratory experiments for General Chemistry I & II, organized pre-lab tutorials, and evaluated student performance.

North South University (2015–2016)

Lectured in core chemistry subjects, focusing on foundational and applied chemistry for engineering students.

Research and Teaching Experience

Peroxide Vapor Detection: Developed advanced sensor materials for detecting inorganic peroxide vapor through colorimetric complexation.

Tunable Doping of Chromium in TiO2 Nanocrystals: Synthesized and characterized chromium-doped TiO2 for solar energy applications and water splitting.

Industrial Wastewater Treatment: Investigated adsorption of dye from wastewater using treated jute stick powder, analyzing kinetics and optimization parameters.

Materials Design for ORR and HER Experiments: Designed non-precious electrocatalysts for energy conversion applications, utilizing computational simulations and vibrational spectroscopy.

Awards and Recognition

2022 Graduate Research Fellowship – Oklahoma State University

2021 Economic Stimulus Grant Award – Oklahoma State University

2021 Skinner Chemistry Fellowship – Oklahoma State University Foundation

2020 Johnston Chemistry Fellowship – Oklahoma State University Foundation

2015 National Science and Technology Fellowship – Ministry of Education, Bangladesh

Skills

Instrumental Analysis: SEM, TEM, EDS, UV-Vis, NMR, PL, GC, MS, FT-IR, TERS

Data Analysis: Sigma Plot, Origin Plot, ChemDraw, Ocean View

Programming: Shell scripting (Linux, Unix)

Additional Skills: Microsoft Office, advanced use of iClicker, Canvas, and Banner

Professional Memberships

Member, American Chemical Society (ACS)

Member, The Electrochemical Society (ECS)

Relevant Projects

Developed hybrid TiO2 nanomaterials for energy harvesting and photocatalysis.

Created sensor materials for inorganic peroxide detection.

Designed and tested adsorbents for wastewater treatment.

Modeled electrocatalysts for energy conversion processes.

Research Interests

Materials Chemistry

Nanotechnology and Semiconductor Materials

Photocatalytic Water Splitting and Renewable Energy

Wastewater Treatment and Environmental Chemistry

Top Notable Publications

Mechanistic Understanding in Manipulating Energetics of TiO2 for Photocatalysis

Authors: R. Hossain, M.A. Uddin, M.A. Khan

Year: 2023

Journal: The Journal of Physical Chemistry C

Volume/Issue: 127 (23)

Pages: 10897-10912

Citations: 18

Detection of Hydrogen Peroxide in Liquid and Vapors Using Titanium (IV)-Based Test Strips and Low-Cost Hardware

Authors: R. Hossain, J.J. Dickinson, A. Apblett, N.F. Materer

Year: 2022

Journal: Sensors

Volume/Issue: 22 (17)

Pages: 6635

Citations: 8

Recent Progress in Development of Cost-Effective and Highly Efficient Pt Group Metal-Free ORR and HER Electrocatalysts for Next Generation Energy Devices

Authors: S. Sultana, R. Hossain, K. Ahmed, P.K. Jiwanti, B.Y. Wardhana

Year: 2023

Journal: Journal of the Electrochemical Society

Citations: 5

Removal of Levafix Red from Aqueous Solution with Treated Jute Stick and its Relevance to Pharmaceutical Field

Authors: R. Hossain, M.A. Rahman, N.J. Ara, A.M.S. Alam

Year: 2016

Journal: Bangladesh Pharmaceutical Journal

Volume/Issue: 19 (1)

Pages: 75-84

Citations: 3

Colorimetric Detection of Peroxide Vapors

Author: R. Hossain

Year: 2023

Institution: Oklahoma State University

Citations: 1

Tunable Doping of Chromium in TiO2 Nanocrystals Via Ion Diffusion

Author: R. Hossain

Year: 2019

Publisher: ProQuest

Citations: 1

Detection of Hydrogen Peroxide Vapors Using Acidified Titanium (IV)-Based Test Strips

Authors: R. Hossain, N.F. Materer

Year: 2024

Journal: Materials

Volume/Issue: 17 (23)

Titania-Ionic Liquid Thin Film: A Colorimetric Sensing for the Detection of Hydrogen Peroxide Vapor

Authors: N.F.M., R. Hossain, A.W. Apblett

Year: 2021

Event: American Chemical Society Midwest Regional Meeting

Tunable Doping of Chromium (Cr³⁺) in TiO2 Nanocrystals via Ion Diffusion

Authors: R. Hossain, J. Hoefelmeyer

Year: 2019

Event: Abstracts of Papers of the American Chemical Society

Volume: 257

 

Conclusion

Dr. Rayhan Hossain’s extensive academic and research background, coupled with his proven teaching excellence, positions him as a strong candidate for the Best Researcher Award. His innovative contributions to nanotechnology and environmental chemistry exemplify his dedication to advancing scientific understanding and addressing global challenges.

 

 

 

 

 

 

Han Jin | Experimental Methods | Best Researcher Award

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Prof. Han Jin | Experimental Methods | Best Researcher Award

Prof. Han Jin, Shanghai Jiao Tong University, China

Prof. Han Jin is the Vice President of the School of Sensing Science and Engineering at Shanghai Jiao Tong University, China. He is recognized as one of the Top Young Talents under China’s National Ten Thousand Talents Plan. Prof. Jin has a strong academic background, having completed his BSc and MChem at the University of Science and Technology of China and his PhD at Kyushu University, Japan. His research focuses on advanced sensor technologies, including electrochemical and optoelectronic sensors for environmental and medical applications. Prof. Jin has received numerous accolades for his contributions to sensor innovation and interdisciplinary research.

PROFILE

Scopus Profile

Educational Details

Prof. Han Jin is an accomplished researcher and associate professor at Shanghai Jiao Tong University, China. He holds a BSc in Applied Chemistry (2007) and an MChem in Nuclear Science and Technology (2009), both from the University of Science and Technology of China. He completed his PhD at Kyushu University, Japan (2012), with a thesis focused on zirconia-based electrochemical gas sensors using a manganese oxide reference electrode.

Professional Experience

Since 2016, Prof. Jin has been an associate professor at Shanghai Jiao Tong University, where he leads research projects in chemical and sensory technologies, focusing on innovative sensor designs and clinical drug trials. His academic duties also include extensive teaching and student mentorship, active participation in university councils, and curriculum development. Previously, he worked as a postdoctoral fellow at the Technion-Israel Institute of Technology (2015-2016), where he advanced early cancer detection methods and non-invasive diagnostics through intelligent sensory devices.

Research Interests

Prof. Jin’s research spans chemical sensor technology, materials chemistry, and medical diagnostics. He specializes in developing high-sensitivity, selective sensors for volatile organic compounds, leveraging advancements in nanotechnology and electrochemical methods for applications in environmental monitoring, medical diagnostics, and industrial safety.

Patents

Prof. Jin holds multiple patents, including a “Preparation Method of Indium Oxide with Stable Morphology and Application” (US 202117483124A) and a “Method for Detecting Organic Volatile Compounds Using Zirconium-based Sensor” (AUS 1732461). His patented work emphasizes innovative sensor materials and methods, from detecting organic compounds in water to creating sensors for hazardous environmental gases and biomedical applications.

Honors and Awards

Prof. Jin has received prestigious recognitions, including the Top Young Talent Award under China’s National Ten Thousand Talents Plan (2023), the China Industry-University-Research Collaboration Innovation Award (2022), and the IAAM Young Scientist Medal in Sweden (2021). These accolades underscore his significant contributions to sensor technology and innovation.

Top Notable Publications

Wang, J., Ni, Y., Li, X., … Zou, J., Jian, J. (2024). Enhancement of nitric oxide sensing performance via oxygen vacancy promotion on strontium-doped LaFeO3 perovskites. Sensors and Actuators B: Chemical, 417, 136157.

Hung, N.P., Van Duy, N., Xuan, C.T., … Jin, H., Hoa, N.D. (2024). Enhanced acetone gas-sensing characteristics of Pd-NiO nanorods/SnO2 nanowires sensors. RSC Advances, 14(18), 12438–12448, 01265.

Zhang, Y., Yao, H., Xue, C., … Jin, H., Cui, D. (2024). Au Nanostars Coated with a Thin Film of MIL-100 (Fe) for SERS-Based Sensing of Volatile Organic Compound Indicators in Saliva. ACS Applied Nano Materials, 7(3), 2735–2743.

Kononov, A., Ganeev, A., Jahatspanian, I., … Jin, H., Vasiliev, A. (2023). Accuracy calibration transfer between multi-sensor systems based on metal-oxide gas sensors used for analysis of exhaled air. Results in Chemistry, 6, 101188.

Xu, Y., Liu, Z., Lin, J., … Wang, Y., Jin, H. (2023). Integrated Smart Gas Tracking Device with Artificially Tailored Selectivity for Real-Time Monitoring Food Freshness. Sensors, 23(19), 8109.

Jouyban-Gharamaleki, V., Jin, H., Jouyban, A., Soleymani, J. (2023). The influence of advanced materials on the analytical performance of semiconductor-based gas sensors. Physical Chemistry Chemical Physics, 25(35), 23358–23369.

Zhang, Y., Xue, C., Xu, Y., … Jin, H., Cui, D. (2023). Metal-organic frameworks based surface-enhanced Raman spectroscopy technique for ultra-sensitive biomedical trace detection. Nano Research, 16(2), 2968–2979.

Conclusion

Prof. Han Jin’s innovative research, substantial contributions to sensor technology, and global recognition make him an outstanding contender for the Research for Best Researcher Award. His work has significantly impacted both scientific communities and society, making him a role model for future researchers striving for excellence and innovation. Prof. Jin’s career embodies the ideals of continuous growth, interdisciplinary research, and global collaboration—qualities that the Research for Best Researcher Award seeks to recognize.

 

 

 

 

Selim Aydin | Nuclear Physics | Best Researcher Award

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 Dr. Selim Aydin | Nuclear Physics | Best Researcher Award

Dr. Selim Aydin, Turkish Energy Nuclear and Mineral Research Agency, Turkey

Dr. selim aydin is an accomplished nuclear physicist specializing in nuclear battery development and radiation material science. Currently, at the Turkish Energy, Nuclear and Mineral Research Agency (TENMAK), he manages cutting-edge projects involving betavoltaic batteries, neutron spectrometry, and radiation detector systems. His expertise spans over a decade in nuclear physics, with a strong foundation in dosimetry and radiation protection.

PROFILE

Scopus profile

Educational Details

Dr. selim aydin holds a Ph.D. in Physics from Yildiz Technical University (2014-2019), where he focused on the development of nuclear battery technologies. His doctoral thesis, titled “Experimental Investigation of Nickel-63 and Promethium-147 Radioisotope-Powered Betavoltaic and Direct Charge Nuclear Batteries,” reflects his work on energy conversion efficiency in nuclear battery systems. He also earned his M.Sc. in Physics from Gazi University (2006-2009), researching algebraic methods in quantum mechanics with a focus on supersymmetric solutions. His academic journey began at Ankara University, where he received his B.Sc. in Physics (2001-2005) and ranked second in his department with a thesis on YBCO superconductors.

Professional Experience

Dr. aydin has been a nuclear physicist at the Turkish Energy, Nuclear and Mineral Research Agency (TENMAK) since 2010. His roles have included serving as a lab supervisor and radiation protection officer in various high-stakes projects. Notably, he led the “Betavoltaic Nuclear Battery Development” project from 2018 to 2023, which involved creating prototypes using beta-radioactive sources like Nickel-63 and Promethium-147. He also worked on the development of a Bonner sphere-based neutron spectrometry system and neutron activation analysis in TENMAK’s Nuclear Research Department. Early in his career (2010-2015), Dr. aydin specialized in dosimetry and calibration within the Secondary Standard Dosimetry Laboratory (SSDL), handling radiological calibrations for X-ray diagnostics and radiotherapy.

Research Interests

Dr. aydin’s research focuses on radiation material science, nuclear battery technology, and neutron spectrometry. He is especially interested in the development of betavoltaic nuclear batteries powered by radioisotopes, radiation detector systems, and semiconductor-based devices for nuclear energy applications. His work also encompasses neutron activation analysis and the macroscopic cross-section measurement for neutron research.

Top Notable Publications

Saltan, F., Şirin, K., Aydın, S., Taşköprü, C., & Yıldırım, Y. (2024). Boron containing polyvinyl alcohol/polyethylene oxide/polyvinyl pyrrolidone composites: Preparation, characterization, gamma radiation shielding and gamma radiation effect on its thermal properties. Radiation Physics and Chemistry, 214, 111261.

Citations: 1

Saltan, F., Şirin, K., Aydın, S., & Yıldırım, Y. (2023). Preparation and characterization of novel boron containing nanocomposites with neutron radiation shielding properties. Polymer Composites, 44(12), 8627–8639.

Citations: 3

Aydın, S., & Kam, E. (2019). Investigation of nickel-63 radioisotope-powered GaN betavoltaic nuclear battery. International Journal of Energy Research, 43(14), 8725–8738.

Citations: 22

Aydın, S., & Kam, E. (2018). Developing of an automation for therapy dosimetry systems by using labview software. Results in Physics, 9, 1007–1015.

Citations: 6

Conclusion

Dr. Selim Aydin’s professional experience, educational background, project leadership, technical skills, and international training align well with the criteria for the Best Researcher Award. His groundbreaking work in nuclear battery technology, neutron spectrometry, and radiation detection exemplifies his dedication to advancing nuclear science. Consequently, Dr. Aydin stands out as a highly qualified candidate for the award due to his impactful research, innovation in nuclear energy solutions, and commitment to international standards in nuclear safety and radiological protection.

 

 

 

 

Payam Dibaj | Experimental Methods | Best Researcher Award

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Dr. Payam Dibaj | Experimental Methods | Best Researcher Award

Dr. Payam Dubai, Center for Rare Diseases, Germany

Dr. Payam Dibaj, FEBN is a highly qualified physician specializing in neurology. Born on September 20, 1977, in Tehran, he holds German citizenship. Dr. Dibaj is a Fellow of the European Board of Neurology (FEBN) and has extensive experience in clinical practice and research in neurological disorders. His work is recognized for its impact on patient care and the advancement of neurological science.

PROFILE

Scopus Profile

Educational Details

Dr. Payam Dibaj’s educational background is marked by exceptional academic achievement. He completed his General University Entrance Qualification (Abitur) in 1998 with a top grade of 1.0. Following this, he pursued his studies in human medicine at the Georg August University Göttingen, graduating in November 2005 with a state examination grade of 1.0. During his time at Göttingen, Dr. Dibaj also conducted significant research for his dissertation in the Department of Molecular Pharmacology, under the guidance of Prof. Dr. H.-J. Steinfelder. His dissertation, titled “Investigations into the Function of Domains of the Transcription Factor Pax6 with the Help of the GAL4 System,” was awarded Magna cum laude, reflecting the high quality and impact of his research.

Professional Experience:

Dr. Payam Dibaj has made significant contributions to the field of neurology and neurogenetics throughout his career. Since September 2006, he has been a dedicated scientist in the Neurogenetics Department at the Max Planck Institute for Multidisciplinary Natural Sciences in Göttingen, where he focuses on “Axon-Glia Interaction in Neurodegenerative Diseases” under the leadership of Prof. K. A. Nave. His clinical experience includes serving as a Senior Physician in the Neurology Department at the Schildautal Clinics in Seesen from January 2015 to June 2021, where he specialized in neurodegenerative diseases, including the management of complex Parkinson’s cases and overseeing the Empowerment Outpatient Clinic for Parkinson’s and dementia diseases. Dr. Dibaj also worked as a specialist in the MVZ Wolfsburg from March 2018 to July 2021, providing consultation in neurology. Since February 2019, he has been the Medical Coordinator at the Center for Rare Diseases (ZSEG) at the University Medical Center Göttingen (UMG), collaborating with notable experts such as Prof. J. Gärtner, Prof. K. Brockmann, and Prof. B. Wollnik. Additionally, he served as a Senior Physician in the Neurology Department at St. Ansgar-Höxter Hospital from July 2021 to December 2022.

Top Notable Publications

Patient Experiences of Interprofessional Collaboration and Intersectoral Communication in Rare Disease Healthcare in Germany – A Mixed-Methods Study

Authors: Inhestern, L., Otto, R., Brandt, M., Härter, M., Bergelt, C.

Journal: Orphanet Journal of Rare Diseases

Year: 2024

Volume: 19(1)

Page: 197

Citations: 0

Note: Open access

Intracranial Hypotension Due to a Large Thoracic Meningocele

Authors: Dibaj, P., Haji, F., Obermann, M.

Journal: Deutsches Ärzteblatt International

Year: 2023

Volume: 120(11)

Pages: 192

Citations: 0

Note: Open access

Plastic Spinal Motor Circuits in Health and Disease

Authors: Windhorst, U., Dibaj, P.

Journal: Journal of Integrative Neuroscience

Year: 2023

Volume: 22(6)

Page: 167

Citations: 1

Note: Open access

Hemifacial Spasm Through Changes of Cerebrospinal Fluid Pressure in Idiopathic Intracranial Hypertension

Authors: Petersen, G.C., Amirkhizi, M., Brockmann, K., Dibaj, P.

Journal: Baylor University Medical Center Proceedings

Year: 2023

Volume: 36(1)

Pages: 114–115

Citations: 1

Note: Open access

Follow-up of a Case of Dopamine-Mediated Yawning-Fatigue-Syndrome Responsive to Opioids, Successful Desensitization via Graded Activity Treatment

Authors: Dibaj, P., Seeger, D., Gärtner, J., Petzke, F.

Journal: Neurology International

Year: 2021

Volume: 13(1)

Pages: 79–84

Citations: 0

Note: Open access

Modulation of Cognition and Neuronal Plasticity in Gain- and Loss-of-Function Mouse Models of the Schizophrenia Risk Gene Tcf4

Authors: Badowska, D.M., Brzózka, M.M., Kannaiyan, N., Malzahn, D., Rossner, M.J.

Journal: Translational Psychiatry

Year: 2020

Volume: 10(1)

Article: 343

Citations: 12

Note: Open access

Lyme Neuroborreliosis with Long Meningeal Enhancement and Ischemic Stroke

Authors: Dibaj, P., Schnegelsberg, M., Kroger, R.

Journal: European Neurology

Year: 2020

Volume: 83(3)

Pages: 323–324

Citations: 0

Dopamine-Mediated Yawning-Fatigue Syndrome with Specific Recurrent Initiation and Responsiveness to Opioids

Authors: Dibaj, P., Brockmann, K., Gärtner, J.

Journal: JAMA Neurology

Year: 2020

Volume: 77(2)

Pages: 254

Citations: 2

Anillin Facilitates Septin Assembly to Prevent Pathological Outfoldings of Central Nervous System Myelin

Authors: Erwig, M.S., Patzig, J., Steyer, A.M., Nave, K.-A., Werner, H.B.

Journal: eLife

Year: 2019

Volume: 8

Article: e43888

Citations: 41

Test Your Knowledge | Testen Sie Ihr Fachwissen

Authors: Dibaj, P., Kröger, R., Kallenberg, K., Obermann, M., Harun, A.

Journal: Aktuelle Neurologie

Year: 2018

Volume: 45(3)

Pages: 212–214