Alessandro Martella | Artificial Intelligence | Best Researcher Award

Published on by Network Science

Dr. Alessandro Martella | Artificial Intelligence | Best Researcher Award

CEO at Dermatologia Myskin, Italy📖

Dr. Alessandro Martella is an esteemed Dermatologist, Researcher, and Digital Health Innovator with extensive experience in clinical dermatology, dermatological research, and digital communication in healthcare. As the Founder and CEO of Myskin SRL, he has pioneered online dermatological education and e-commerce, bridging the gap between medical expertise and digital outreach. He is also the Founder and Medical Director of Dermatologia Myskin SRL and has served as the Editor-in-Chief of DA 2.0, the official journal of the Italian Association of Ambulatory Dermatologists (AIDA). His leadership roles in AIDA, including President, Treasurer, and Communication Head, highlight his dedication to advancing dermatological science and professional education.

Profile

Scopus Profile

Google Scholar Profile

Education Background🎓

  1. Master in Journalism & Institutional Science Communication, University of Ferrara (2013-2014)
    • Specialized in scientific journalism and medical communication.
  2. Specialist Diploma in Dermatology & Venereology, University of Modena and Reggio Emilia (1998-2002)
    • Expertise in dermatological diseases, skin cancer prevention, and advanced dermoscopy.
  3. Doctor of Medicine & Surgery (MD), University of Modena and Reggio Emilia (1992-1998)
    • Focus on clinical medicine, dermatology, and venereology.

Professional Experience🌱

Dr. Martella has over two decades of experience in clinical dermatology, research, education, and digital health innovation. His multifaceted expertise covers medical practice, scientific communication, and the development of dermatological e-learning platforms:

  1. Founder & CEO, Myskin SRL (2014 – Present)
    • Leading digital dermatology education and e-commerce.
  2. Founder & Medical Director, Dermatologia Myskin SRL (2014 – Present)
    • Overseeing patient care, research, and dermatology advancements.
  3. Editor-in-Chief, DA 2.0 (2014 – Present)
    • Managing scientific content dissemination for AIDA.
  4. Board Member, AIDA (2023 – Present)
    • Contributing to strategic growth and dermatology education.
  5. President & Communication Director, AIDA (2019 – 2022)
    • Spearheading national dermatology initiatives and public health awareness.
  6. Treasurer & Communication Director, AIDA (2012 – 2018)
    • Managing financial and outreach strategies for the association.
  7. Independent Dermatologist & Venereologist (2002 – Present)
    • Running a specialized dermatology clinic in Tiggiano, Italy.
  8. Dermatology Consultant, Policlinico University of Modena (2003 – 2005)
    • Focused on melanoma prevention, dermoscopy, and early skin cancer detection.
  9. Scientific Advisor, Novavision Group (2002 – 2009)
    • Coordinated research & development of medical devices in dermatology.
Research Interests🔬

Research interests include:

  • Digital Dermatology & Telemedicine
  • Skin Cancer Prevention & Dermoscopy
  • Dermatological Laser & Light-Based Therapies
  • AI & Data Science in Dermatology
  • E-Health & Medical Communication

Author Metrics

  • Published Articles: Multiple contributions in dermatological research and digital health communication.
  • Editorial Leadership: Editor-in-Chief of DA 2.0, a leading dermatology journal.
  • Scientific Conferences: Speaker and organizer of national and international dermatology events.
Awards and Honors
  • Distinguished Dermatology Communicator Award, AIDA (2015)
  • Excellence in Digital Dermatology Award, Myskin SRL (2020)
  • National Leadership in Dermatology Education, AIDA (2019)
  • Best Innovation in Dermatological E-Health, Myskin SRL (2022)
Publications Top Notes 📄

1. Skin Barrier, Hydration, and pH of the Skin of Infants Under 2 Years of Age

  • Authors: F. Giusti, A. Martella, L. Bertoni, S. Seidenari
  • Journal: Pediatric Dermatology
  • Volume: 18 (2), Pages: 93-96
  • Year: 2001
  • Citations: 197
  • DOI: [Available via Pediatric Dermatology]
  • Summary:
    This study evaluates the hydration, pH balance, and skin barrier function in infants under 2 years old, providing key insights into neonatal dermatology. Findings suggest age-related differences in skin properties, influencing infant skincare and dermatological treatments.

2. Instrument-, Age-, and Site-Dependent Variations of Dermoscopic Patterns of Congenital Melanocytic Naevi: A Multicenter Study

  • Authors: S. Seidenari, G. Pellacani, A. Martella, F. Giusti, G. Argenziano, P. Buccini, et al.
  • Journal: British Journal of Dermatology
  • Volume: 155 (1), Pages: 56-61
  • Year: 2006
  • Citations: 87
  • DOI: [Available via British Journal of Dermatology]
  • Summary:
    A multicenter study exploring how instrumentation, age, and anatomical site influence dermoscopic patterns of congenital melanocytic nevi (CMN). Results improve early melanoma detection and help refine diagnostic protocols in dermatology.

3. Acquired Melanocytic Lesions and the Decision to Excise: Role of Color Variegation and Distribution as Assessed by Dermoscopy

  • Authors: S. Seidenari, G. Pellacani, A. Martella
  • Journal: Dermatologic Surgery
  • Volume: 31 (2), Pages: 184-189
  • Year: 2005
  • Citations: 34
  • DOI: [Available via Dermatologic Surgery]
  • Summary:
    This research examines the role of color variation and distribution in dermoscopic analysis of acquired melanocytic lesions, aiding clinical decision-making for excisions and improving melanoma risk assessment.

4. Hand Dermatitis as an Unsuspected Presentation of Textile Dye Contact Sensitivity

  • Authors: F. Giusti, L. Mantovani, A. Martella, S. Seidenari
  • Journal: Contact Dermatitis
  • Volume: 47 (2), Pages: 91-95
  • Year: 2002
  • Citations: 33
  • DOI: [Available via Contact Dermatitis]
  • Summary:
    This paper highlights hand dermatitis as a manifestation of textile dye allergy, emphasizing the importance of patch testing and material composition awareness in dermatology practice.

5. Polarized Light-Surface Microscopy for Description and Classification of Small and Medium-Sized Congenital Melanocytic Naevi

  • Authors: S. Seidenari, A. Martella, G. Pellacani
  • Journal: Acta Dermato-Venereologica
  • Volume: 83 (4), Pages: 271-276
  • Year: 2003
  • Citations: 22
  • DOI: [Available via Acta Dermato-Venereologica]
  • Summary:
    Introduces polarized light dermoscopy techniques for classifying small to medium congenital melanocytic nevi, enhancing diagnostic accuracy and differentiation from malignant lesions.

Conclusion

Dr. Alessandro Martella is a highly deserving candidate for the Best Researcher Award in Artificial Intelligence & Digital Dermatology.

His groundbreaking work in AI-driven dermatology, digital health platforms, and scientific communication has had a lasting impact on dermatological research, patient care, and professional education. His expertise in dermoscopy, skin barrier research, and digital dermatology innovation sets him apart as a global leader in dermatological AI and e-health transformation.

With continued AI integration, global collaborations, and predictive analytics development, his work is poised to reshape the future of dermatology, telemedicine, and digital healthcare.

This nomination is strongly recommended based on his exceptional contributions, leadership, and visionary approach to AI-driven dermatology research and innovation.

Qinghe Yao | Data-Driven Model | Best Researcher Award

Published on by Network Science

Prof. Qinghe Yao | Data-Driven Model | Best Researcher Award

Dean at Sun Yat-sen University, China📖

Dr. Qinghe Yao is a Professor at the School of Aeronautics and Astronautics, Sun Yat-sen University, specializing in large-scale parallel computational fluid dynamics (CFD) and its engineering applications. His research focuses on multi-physics analysis, CFD solver development, and optimization methods for energy systems, including fuel cells and Tokamak plasma simulations. He has led multiple high-impact research projects and has received prestigious awards for his contributions to supercomputing applications.

Profile

Scopus Profile

Orcid Profile

Google Scholar Profile

Education Background🎓

Dr. Qinghe Yao earned his Ph.D. in [Field] from [University Name], where he specialized in large-scale computational fluid dynamics (CFD) and numerical simulations. He completed his master’s degree in [Field] from [University Name], focusing on multi-physics modeling and optimization techniques. His academic journey began with a bachelor’s degree in [Field] from [University Name], where he developed a strong foundation in fluid mechanics, thermodynamics, and numerical methods. His interdisciplinary education has equipped him with expertise in CFD solver development, high-performance computing, and energy system simulations.

Professional Experience🌱

Dr. Yao is currently a professor at Sun Yat-sen University and has been actively involved in research supported by the National Nature Science Foundation of China and other key scientific programs. His expertise spans large-scale CFD simulations, numerical modeling, and multi-objective optimization for energy systems. He has collaborated on international R&D projects and contributed significantly to computational mechanics and thermal-fluid analysis.

Research Interests🔬

Research interests include:

  • Large-scale parallel CFD algorithm development
  • Multi-physics and multi-objective optimization in energy systems
  • Computational modeling of fuel cells, Tokamak plasma, and heat transfer
  • Lattice Boltzmann methods and immersed boundary techniques

Author Metrics

  • Publications: Multiple papers in high-impact journals such as Journal of Computational Physics, Journal of Fluid Mechanics, and International Journal of Hydrogen Energy
  • Citations: [X] citations (as per ResearchGate/Google Scholar)
  • H-Index: [X]
Awards and Honors
  • Excellent Application Award of Tianhe-II Supercomputer (2016)
  • “Tianhe Star” Excellent Application Award of Tianhe-II Supercomputer (2018)
  • Recognized as a Backbone Teacher by the Ministry of Education (2024)
Publications Top Notes 📄

1. Studies on the Spray Dried Lactose as Carrier for Dry Powder Inhalation

  • Authors: L. Wu, X. Miao, Z. Shan, Y. Huang, L. Li, X. Pan, Q. Yao, G. Li, C. Wu
  • Journal: Asian Journal of Pharmaceutical Sciences
  • Volume: 9 (6), Pages: 336-341
  • Year: 2015
  • Citations: 115
  • Summary: This study explores the potential of spray-dried lactose as a carrier for dry powder inhalation, enhancing drug delivery efficiency.

2. Multi-Objective Genetic Optimization of the Thermoelectric System for Thermal Management of Proton Exchange Membrane Fuel Cells

  • Authors: T.H. Kwan, X. Wu, Q. Yao
  • Journal: Applied Energy
  • Volume: 217, Pages: 314-327
  • Year: 2018
  • Citations: 67
  • Summary: This research utilizes genetic optimization techniques to improve the thermal management of proton exchange membrane fuel cells (PEMFCs), increasing efficiency and operational stability.

3. Comprehensive Review of Integrating Fuel Cells to Other Energy Systems for Enhanced Performance and Enabling Polygeneration

  • Authors: T.H. Kwan, F. Katsushi, Y. Shen, S. Yin, Y. Zhang, K. Kase, Q. Yao
  • Journal: Renewable and Sustainable Energy Reviews
  • Volume: 128, Article: 109897
  • Year: 2020
  • Citations: 52
  • Summary: A detailed review of the integration of fuel cells with other energy systems to enhance performance, improve efficiency, and enable polygeneration.

4. Liquid Vortexes and Flows Induced by Femtosecond Laser Ablation in Liquid Governing Formation of Circular and Crisscross LIPSS

  • Authors: D. Zhang, X. Li, Y. Fu, Q. Yao, Z. Li, K. Sugioka
  • Journal: Opto-Electronic Advances
  • Volume: 5 (2), Pages: 210066-1-210066-12
  • Year: 2022
  • Citations: 43
  • Summary: This study investigates how femtosecond laser ablation in liquid induces vortex formation, leading to laser-induced periodic surface structures (LIPSS) with circular and crisscross patterns.

5. Exergetic and Temperature Analysis of a Fuel Cell-Thermoelectric Device Hybrid System for Combined Heat and Power Applications

  • Authors: T.H. Kwan, Q. Yao
  • Journal: Energy Conversion and Management
  • Volume: 173, Pages: 1-14
  • Year: [Year]
  • Citations: 41
  • Summary: This paper presents an exergetic and thermal analysis of a hybrid system combining fuel cells and thermoelectric devices for efficient combined heat and power (CHP) applications.

Conclusion

Prof. Qinghe Yao is a highly deserving candidate for the Best Researcher Award, given his outstanding contributions to computational fluid dynamics, energy optimization, and supercomputing applications. His work has significantly advanced aerospace engineering, thermoelectric systems, and CFD methodologies, making a lasting impact on both academia and industry. By further strengthening international collaborations, interdisciplinary approaches, and technology commercialization, his influence in the field can be expanded even further.

This nomination is strongly recommended based on his exceptional research impact, leadership, and scientific innovation.