Shaoshen Wang | Nanoparticles | Best Researcher Award

Published on by Nano Technology

Mr. Shaoshen Wang | Nanoparticles | Best Researcher Award

Department of Cardiology at The Second Affiliated Hospital of Chongqing Medical University |China

Mr. Shaoshen Wang is a dedicated researcher specializing in nanomedicine and cardiovascular disease diagnostics. His work focuses on the design of targeted nanoprobes and multimodal imaging techniques for the early detection and treatment of vulnerable atherosclerotic plaques. He has published impactful research in leading journals such as the Chemical Engineering Journal and Microcirculation and is also the co-inventor of a patented nanoparticle technology for precision imaging of cardiovascular diseases. His contributions bridge nanotechnology and clinical applications, advancing innovative strategies for improved cardiovascular health.

Professional Profile

Scopus Profile

Education

Mr. Shaoshen Wang holds a strong educational foundation in materials science and nanomedicine, with formal advanced training that has shaped his expertise in nanoparticle design and biomedical imaging. His academic journey has prepared him for impactful research in targeted nanoprobes for cardiovascular diagnostics, enabling the development of innovative tools such as osteopontin-functionalized nanoprobes capable of precision imaging and photothermal enhancement.

Experience

Mr. Shaoshen Wang has gained extensive research experience in the fields of nanomedicine, cardiovascular imaging, and biomedical engineering. His work focuses on the design and application of nanoparticle-based probes for the diagnosis and treatment of atherosclerotic plaques and related cardiovascular conditions. He has actively contributed to high-impact research projects, including the development of osteopontin-targeted nanoprobes for precision multimodal imaging and photothermal enhancement. In addition, he has explored the mechanisms of coronary microvascular dysfunction, particularly in the context of COVID-19, demonstrating his interdisciplinary expertise across nanotechnology, pathology, and clinical applications. His professional background also includes patent contributions in nanoparticle imaging technology, highlighting both his academic and translational research achievements.

Research Interests

Mr. Shaoshen Wang’s research interests lie at the intersection of nanomedicine, biomedical engineering, and cardiovascular disease diagnostics. He focuses on the development of targeted nanoprobes and advanced imaging platforms for the early detection and precise treatment of vulnerable atherosclerotic plaques. His work explores the use of surface plasmon resonance and photothermal effects to enhance multimodal imaging, aiming to improve diagnostic accuracy and therapeutic outcomes. In addition, he is deeply interested in the pathophysiology of coronary microvascular dysfunction, particularly in emerging contexts such as COVID-19-related cardiovascular complications. His broader research goals emphasize translating nanotechnology innovations into clinically viable solutions for cardiovascular health.

Publication

Next-generation optical sensing: mesoporous hollow-shell nanostructured one-dimensional photonic crystal sensors for sCD40L detection in acute coronary syndrome

Conclusion

Mr. Shaoshen Wang presents an impressive track record of publications, innovation, and translational research that aligns closely with the criteria of the Best Researcher Award. His ability to bridge nanotechnology with pressing healthcare challenges, combined with his success in securing patents, demonstrates both academic excellence and applied impact. With continued expansion of his global collaborations and leadership roles, he is well-suited for recognition as a distinguished researcher and is a strong candidate for this award.

                                             

Dr. Jonathan Wood | Nanoparticle Awards | Best Researcher Award

Published on by Nano Technology

Dr. Jonathan Wood | Nanoparticle Awards | Best Researcher Award

Dr. Jonathan Wood ,Swinburne University,Australia

Jonathan Wood is an accomplished researcher with over 13 years of experience in Scanning Probe Microscopy. He holds a Doctor of Philosophy in Nanomedicine and Biomedical Devices, a Master’s by Research in Surface and Material Physics, and dual Bachelor’s degrees in Physics and Philosophy. Jonathan has served in various academic and technical roles, including Technical Officer at Swinburne College, Research Associate at the University of South Australia, and Laboratory Demonstrator at La Trobe University. His expertise spans SolidWorks, LabView, Origin data analysis, MATLAB, and managing laboratory environments. Jonathan’s notable contributions to nanostructured materials and antibacterial surface research have been widely recognized and published, underscoring his suitability for high-level research awards

Professional Profile:

Google Scholar

Summary of Suitability for Best Researcher Award: Jonathan Wood:

Jonathan Wood stands out as a highly qualified candidate for the Best Researcher Award due to his extensive experience, significant contributions to the field of nanostructured materials, and robust academic background.

🎓Education:

Jonathan Wood holds a Doctor of Philosophy in Nanomedicine and Biomedical Devices, completed between 2019 and 2022. Prior to this, he earned a Masters by Research in Surface and Material Physics from 2011 to 2017, and an Honours degree in the same field from 2009 to 2011. His academic journey began with a dual Bachelor’s degree in Physics and Philosophy, which he obtained from 2004 to 2009.

🏢Work Experience:

Jonathan Wood has extensive work experience, having held various academic and technical roles throughout his career. In 2023, he served as a Technical Officer and Laboratory Instructor at Swinburne College, where he was responsible for SolidWorks design for 3D printing, LabView, Origin data analysis, MATLAB, equipment maintenance, Arduino and breadboard setup, and teaching the use of digital oscilloscopes, function generators, and DC power supplies. He also acted as the WH&S representative. From 2022 to 2023, Jonathan worked as a Research Associate at the University of South Australia, focusing on the research of emulsions and interfaces, laboratory management, and the analysis of data using Profile Analysis Tensiometer and Wilhelm Balance instrumentation, including SAX/WAX Synchrotron data. Additionally, in 2022, he held the role of University Technical Officer at the University of South Australia, specializing in laboratory maintenance, safety testing, plant inspections, and Atomic Force Microscopy. Earlier, in 2018, he was a Pipette Calibration Technician at Mettler Toledo, where he handled NATA standard calibration, pipette adjustments, repairs, and servicing reports. He also served as a Research Assistant at Deakin University in 2018, assisting in 3D printing and micro-milling for microfluidic devices and researching point-of-care diagnostics. Jonathan’s career includes a long tenure as a Customer Service Officer at Museum Victoria from 2004 to 2018, where he engaged in tour guiding, ticket sales, exhibit guiding, and science demonstrations. From 2009 to 2015, he was a Lab Demonstrator and Technician at La Trobe University Physics Department, demonstrating and training in Atomic Force Microscopy and Scanning Probe Microscopy, supervising XRF, XRD, and SEM research, and demonstrating radiation safety courses

Publication Top Notes:

  1. Long-term antibacterial properties of a nanostructured titanium alloy surface: An in vitro study
    • Cited by: 36
  2. Bio-inspired nanostructured Ti-6Al-4V alloy: the role of two alkaline etchants and the hydrothermal processing duration on antibacterial activity
    • Cited by: 30
  3. Surfaces containing sharp nanostructures enhance antibiotic efficacy
    • Cited by: 18
  4. Spiked titanium nanostructures that inhibit anaerobic dental pathogens
    • Cited by: 14
  5. Antibacterial nanostructured surfaces modulate protein adsorption, inflammatory responses, and fibrous capsule formation
    • Cited by: 12