Peter Hoskins | Medical Hypotheses | Best Researcher Award

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Prof. Peter Hoskins | Medical Hypotheses | Best Researcher Award 

Prof. Peter Hoskins | Medical Hypotheses | Best Researcher Award | Professor | Edinburgh University | United Kingdom 

Prof. Peter Hoskins is a distinguished medical physicist and biomedical engineer whose career spans clinical innovation, academic leadership, and pioneering research in vascular ultrasound, haemodynamics, and biomechanics. Prof. Peter Hoskins completed his foundational education in physics at Oxford University, followed by advanced degrees including an MSc in Medical Physics, a Ph.D. in Medical Physics, a D.Sc., and a PGCert in University Teaching, which collectively reflect his deep academic grounding and lifelong commitment to scientific excellence. His professional experience covers decades of service within the National Health Service as Senior, Principal, and Consultant Medical Physicist, progressing to prominent academic roles such as Professor of Medical Physics and Biomechanics at the University of Edinburgh, Professor of Biomedical Engineering at the University of Dundee, and currently Emeritus Professor and Associate Member of the CRH at the University of Edinburgh. His research interests include Doppler ultrasound, computational arterial modelling, flow dynamics, elastography, and the development of diagnostic and modelling tools for vascular disease, supported by strong research skills in experimental imaging, computational simulation, diagnostic system evaluation, and patient-specific modelling. Prof. Peter Hoskins has supervised numerous Ph.D. students and contributed extensively to standards, guidance documents, conference leadership, peer review, and scientific committees both nationally and internationally. His awards and honors include major recognitions such as the Founders Prize from IPSM, Young Investigator awards in major European scientific societies, multiple oral presentation prizes, poster prizes at internationally recognized conferences, and best paper recognitions across leading biomechanics and bioengineering meetings. His contributions to professional societies such as IPEM, BMUS, IOP, and HEA underline his sustained influence in shaping the technical, educational, and policy दिशा of medical imaging. He has authored over 150 refereed journal papers, six major books, and contributed to high-impact publications with an H-index of 50 and over 8000 citations, demonstrating deep global impact. In summary, Prof. Peter Hoskins embodies academic excellence, research leadership, and long-standing service to the medical physics community, continuing to advance scientific knowledge, mentor emerging researchers, and contribute to innovative developments in ultrasound imaging and vascular biomechanics.

Profile: Scopus 

Featured Publications

  1. Hoskins, P. R., et al. (2023). Nonlinear harmonic distortion of complementary Golay codes. Ultrasonic Imaging. Citations: 4

  2. Hoskins, P. R., et al. (2023). Wall shear stress measurement in carotid artery phantoms with variation in degree of stenosis using plane wave vector Doppler. Applied Sciences Switzerland. Citations: 6

  3. Hoskins, P. R., et al. (2023). Vector flow imaging by plane wave speckle tracking based on different beamformers. Conference Paper. Citations: 2

  4. Hoskins, P. R., et al. (2021). Low shear stress at baseline predicts expansion and aneurysm-related events in patients with abdominal aortic aneurysm. Circulation: Cardiovascular Imaging. Citations: 27

  5. Hoskins, P. R., et al. (2021). Association between erythrocyte dynamics and vessel remodelling in developmental vascular networks. Journal of the Royal Society Interface. Citations: 19

  6. Hoskins, P. R., et al. (2020). Biomechanical assessment predicts aneurysm-related events in patients with abdominal aortic aneurysm. European Journal of Vascular and Endovascular Surgery. Citations: 37

  7. Hoskins, P. R., et al. (2020). Spatiotemporal dynamics of dilute red blood cell suspensions in low-inertia microchannel flow. Biophysical Journal. Citations: 20

 

Qiong Ye | Energy Storage | Best Researcher Award

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Dr. Qiong Ye | Energy Storage | Best Researcher Award  

Dr. Qiong Ye | Energy Storage | Postdoctoral Researcher at CY Cergy Paris University | France

Dr. Qiong Ye is an accomplished materials chemist recognized for her extensive research in inorganic chemistry, phase change materials, and energy storage technologies. Her scientific journey demonstrates a blend of theoretical insight and experimental precision in the development of advanced functional materials for sustainable energy applications. Dr. Ye earned her Ph.D. in Inorganic Chemistry from Le Mans Université, France, where she focused on the synthesis, crystallography, and thermodynamic behavior of complex oxide systems. She also completed her Master’s degree in the same institution, building a strong foundation in materials chemistry and thermodynamic studies. Currently, Dr. Qiong Ye serves as a Postdoctoral Researcher at CY Cergy Paris Université, France, where she investigates phase change materials and ionic conductors for thermal management and energy conversion systems. Her professional experience includes prior administrative leadership in Guangdong Meili Matériaux de Construction Ltd., China, where she coordinated R&D projects and material manufacturing processes before transitioning fully into academic research. Dr. Ye’s research interests encompass phase diagram analysis, solid-state chemistry, ionic conductivity, and numerical simulation of energy materials. She is particularly focused on the synthesis and structural characterization of oxide systems that enhance the performance and efficiency of energy storage and conversion devices. Her research skills include solid-state synthesis, X-ray and electron diffraction, impedance spectroscopy, thermal analysis, and computational modeling, complemented by proficiency in scientific software such as HighScore, FullProf, Jana, and Vesta. Dr. Ye’s interdisciplinary expertise bridges chemistry, physics, and materials engineering, contributing to several peer-reviewed publications in reputable journals such as Journal of Solid State Chemistry, Energy and Buildings, and The European Physical Journal Plus. Her works are indexed in Scopus and recognized for their contributions to advancing the understanding of material behavior under thermal and structural transitions. She has been involved in international collaborations promoting energy-efficient materials and sustainable technologies while demonstrating leadership in laboratory management and mentoring young researchers. Dr. Qiong Ye’s career reflects excellence, innovation, and dedication to advancing global energy materials research. Her achievements and continuous contributions to the scientific community make her a deserving candidate for academic recognition and future leadership in the field of materials chemistry.

Profile: ORCID

Featured Publications

Ye, Q. (2025). Experimental and numerical simulation study on the thermal performance of building envelope structures incorporating the solid–solid phase change material. Energy and Buildings. Citations: 12

Ye, Q. (2023). Phase diagram studies on ternary La₂O₃–MoO₃–CaO system. Journal of Solid State Chemistry. Citations: 8

Ye, Q. (2023). Phase diagram studies on ternary La₂O₃–WO₃–CaO system. Journal of Solid State Chemistry. Citations: 7

Ye, Q. (2022). You certainly know the second law of thermodynamics, do you know its connection to other laws of physics and chemistry? The European Physical Journal Plus. Citations: 15

Ye, Q. (2022). Partial re-investigation of the ternary diagram La₂O₃–Nb₂O₅–CaO, synthesis and characterization of the Ca₂La₃Nb₃O₁₄ and Ca₈La₈Nb₁₄.₄□₁.₆O₅₆ compounds. Journal of Solid State Chemistry. Citations: 10

Ye, Q. (2022). Cation-deficient Ca-doping lanthanum tungstate Ca₂.₀₆La₂.₆₁□₀.₃₃W₂O₁₂: Structure and transport property study. Journal of Solid State Chemistry. Citations: 9

Ye, Q. (2021). Investigation of phase change behavior in lanthanum-based oxide systems for energy storage applications. Materials Chemistry and Physics. Citations: 6

Pietro Giovanni Giordano | Future of Hypotheses | Best Researcher Award

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Prof. Dr. Pietro Giovanni Giordano | Future of Hypotheses | Best Researcher Award

Prof. Dr. Pietro Giovanni Giordano | Future of Hypotheses | Best Researcher Award | Researcher | Hospital Ruber Juan Bravo | Spain

Prof. Dr. Pietro Giovanni Giordano earned his medical degree from the University of Cagliari and completed his MIR training in General and Digestive System Surgery at Hospital Universitario Ramón y Cajal, followed by advanced specialization in hepatic transplantation and minimally invasive bariatric and metabolic surgery. He has held professional appointments in high-volume surgical centers—first as a resident performing hundreds of operations as primary and assistant surgeon, then in robotic surgery teams and endocrine surgery, contributing to both service delivery and surgical innovation. His research interests lie in hepatobiliary oncology, carcinomatosis with HIPEC, metabolic surgery outcomes, surgical robotics, and translational cancer genetics. He has developed strong research skills in clinical trial design, minimally invasive surgical techniques, donor-recipient transplant physiology, intraoperative hyperthermic chemotherapy, and robotic procedural methodology. Among his awards and honors are recognition for surgical excellence, leadership of multidisciplinary tumor boards, and invitations to present at national and international surgical symposia; he has been awarded scholarships for postgraduate specialization and expert titles in hepatobiliopancreatic surgery and transplantation. Prof. Dr. Pietro Giovanni Giordano continues to advance both patient-care and scientific knowledge through peer-reviewed publications, international collaboration, and leadership in surgical education.

Profile: Scopus

Featured Publications

  1. Giordano, P. G. Minimally invasive bariatric surgery outcomes in morbid obesity (2019). Journal of Bariatric Surgery. — 45 citations

  2. Giordano, P. G. HIPEC application in peritoneal carcinomatosis: a clinical series (2020). Annals of Surgical Oncology. — 60 citations

  3. Giordano, P. G. Robotic versus laparoscopic hepatic resection: comparative study (2021). Surgical Endoscopy. — 30 citations

  4. Giordano, P. G. Long-term metabolic effects following sleeve gastrectomy in type 2 diabetes (2018). Diabetes & Metabolic Journal. — 75 citations

  5. Giordano, P. G. Donor-recipient outcomes in living-donor liver transplantation (2022). Liver Transplantation. — 25 citations

  6. Giordano, P. G. Predictors of recurrence in colorectal cancer post-HIPEC (2023). European Journal of Surgical Oncology. — 15 citations

  7. Giordano, P. G. Advances in robotic surgery for hepatobiliary malignancies (2022). Journal of Hepato-Biliary-Pancreatic Sciences. — 20 citations