Rachid Masrour – Materials for energy – Best Researcher Award

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Rachid Masrour – Materials for energy – Best Researcher Award

Prof Dr. Rachid Masrour distinguished academic and researcher in the field Materials for energy, He appears to be highly suitable for the Best Researcher Award.

🌐 Professional Profile

Educations📚📚📚

  • Doctorate in Materials Physics: The person has a strong foundation in physics, particularly in materials physics, which is a significant and impactful research area.
  • Full Professorship and Habilitation: Achieving a full professorship and university habilitation demonstrates a high level of expertise, recognition, and authority in their field of research.

Professional Experience:

  • Research Professor: Over a decade of experience as a research professor at respected institutions shows dedication to both research and teaching. The transition from the National School of Applied Sciences to a prominent role at Sidi Mohamed Ben Abdellah University further highlights their growing influence in the academic world.

Research and Academic Contributions:

  • Responsibilities: The individual’s involvement in various academic and administrative roles, such as heading departments, coordinating programs, and participating in multiple committees, indicates a leadership role in shaping educational and research initiatives. These roles often require one to be a thought leader and innovator in their field.
  • Module Responsibilities: The responsibility for modules on advanced topics like Interaction Radiation Matter, Molecular Spectroscopy, Physics of Phase Transitions, and Optical Transmission Technology suggests deep expertise in cutting-edge areas of physics and engineering, which are critical for research and innovation.

Suitability for Best Researcher Award:

  • Breadth and Depth of Research: The candidate’s extensive experience in both teaching and research, combined with their leadership roles, suggests they are a well-rounded academic with a strong impact on both their field and the institutions they have served.
  • Leadership in Research: The leadership positions, particularly in research committees and academic councils, indicate the individual’s influence extends beyond personal research to shaping the research agenda and standards at their institutions.
📝🔬Publications📝🔬

1. Oudahman, M. , Houmad, M. , Masrour, R. , Rezzouk, A. Materials
Science in Semiconductor Processing , 182, 108647 (2024).
2. Raïâ, M.Y. , R. Masrour, Hamedoun, M. , Kharabach J, Rezzouk A,
Benzakour, N. , Bouslykhane, K. Materials Science in Semiconductor
Processing , 181, (2024) 108649.
3. A. Erraji, R. Masrour, L. Xu. Ionics 2024.DOI10.1007/s11581-024-05632-
z.
4. Heryanto, H. , Tahir, D. , Abdullah, B, Sayyed M.I.; Yunas, Jumril;
Masrour, Rachid; Veeravelan K. Arabian Journal for Science and
Engineering. DOI10.1007/s13369-024-09210-3 (2024).
5. Mennaoui, O. , R. Masrour, Xu, L. , Hlil, E.K. Ionics , 30(5), pp. 2537–
2547 (2024).
6. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Today Communications ,
39, 108713 (2024).
7. Kadim, G. , R. Masrour, Physica Scripta , 99(6), 065988 (2024).
8. Rauf, Ichsan; Heryanto, Heryanto; Tahir, Dahlang; Gaus, Abd; Rinovian,
Asnan; Veeravelan K.; Akouibaa, Ahmed; Rachid Masrour; Akouibaa,
4
Abdelilah. Physica Scripta Open Access Volume 99, Issue 61 (2024) Article
number 065998.
9. Khalis, M, R. Masrour. Indian Journal of Physics , 98(8), pp. 2719–2729
2024.
10. Ramdane, O. , Labidi, M. , Labidi, S. , R. Masrour, Journal of the
Korean Ceramic Society (2024).DOI10.1007/s43207-024-00397-7.
11. Kadim, G. , R. Masrour, Journal of the Korean Ceramic Society
(2024).DOI10.1007/s43207-024-00394-w.
12. Sahdane, T. , R. Masrour, Journal of Cluster Science
(2024).DOI10.1007/s10876-024-02636-7.
13. Ezaier, A. , R. Masrour, Hamedoun, A., M. , Kharbach, J.,
Rezzouk, A., Benzakour, N. , Bouslykhane, K. Journal of Rare Earths
(2024).DOI10.1016/j.jre.2023.05.014.
14. R. Masrour, , Kadim, G. , Ellouze, M. Journal of the Korean
Ceramic Society , 61(3), pp. 411–418 (2024).
15. Akouibaa, A. , R. Masrour, , Mordane, S. , Benhamou, M., El
Assyry, A. , Derouiche, A.. Journal of Drug Delivery Science and Technology
, 95, 105559 (2024).
16. Sahdane, T. , R. Masrour, Polyhedron , 254, 116948 (2024).
17. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Today
Communications , 39, 108713 (2024).
18. Elhnaki, I. , Masrour, R. , Sahdane, T. Computational Materials
Science , 242, 113113 (2024).
19. El Krimi, Y. , R. Masrour, Modern Physics Letters B , 38(17),
24500801 (2024).
20. El Krimi, Y. , R. Masrour, Modern Physics Letters B , 38(17),
24500811 (2024).
21. Meghchouche, H. , Labidi, M. , Amara, A. , Labidi, S. , R. Masrour,
Physica B: Condensed Matter , 686, 416080 (2024).
22. Jerrari, M. , R. Masrour, , Sahdane, T. Materials Science in
Semiconductor Processing , 179, 108506 (2024).

Arnab Das -Manufacturing Technology – Best Researcher Award

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Arnab Das –  Manufacturing Technology – Best Researcher Award

Dr. Arnab Das distinguished academic and researcher in the field Manufacturing Technology. He is currently an Assistant Professor at Swami Vivekananda University in Barrackpore, Kolkata, having joined the institution on March 1, 2024. He completed his Ph.D. in Mechanical Engineering at the Indian Institute of Technology (ISM) Dhanbad, where he conducted his research under the guidance of Prof. Vivek Bajpai.

🌐 Professional Profile

Educations📚📚📚

He completed his Ph.D. in Mechanical Engineering at the Indian Institute of Technology (ISM) Dhanbad in 2023, under the supervision of Prof. Vivek Bajpai, with a thesis titled “Development of high-speed micromachining center and its performance evaluation in micro and diamond turning.” He also holds an M.Tech in Mechanical Engineering with a specialization in Manufacturing Engineering from the same institution, completed in June 2018 under the guidance of Prof. Vivek Bajpai. His M.Tech thesis focused on the “Development of vibration-free machine structure for high-speed micro milling center,” and he graduated with first-class distinction, achieving a CGPA of 9.13. Prior to this, he earned a B.Tech in Mechanical Engineering from the Govt. College of Engineering & Textile Technology, Berhampore, West Bengal, in July 2016, where his project was titled “Refrigeration with the help of Peltier effect” and he graduated with a first-class CGPA of 8.95. He completed his 12th grade at Sree Ramkrishna Sikshalaya in Howrah, West Bengal, in June 2012 with a first division and a percentage of 87.2%, and his 10th grade at the same school in May 2010, also with a first division and a percentage of 84.75%.

Experience

He has extensive research experience in various aspects of mechanical engineering. His research endeavors include the development of dynamically stable high-speed micromachining centers capable of machining complex micro components from difficult-to-machine materials. Additionally, he has worked on introducing high-speed micro turning techniques to enhance the productivity of cylindrical micro components. Furthermore, his research focuses on reducing cutting forces in turning operations through the utilization of micro-structured cutting tools and Minimum Quantity Lubrication (MQL). Moreover, he has contributed to the advancement of diamond turning technology by developing cost-effective methodologies employing ceramic bearing spindles to achieve nano-finished surfaces. In terms of teaching, he has served as an Assistant Professor at Swami Vivekananda University in Barrackpore, Kolkata, since March 2024, and previously held the same position at Camellia Institute of Technology in Madhyamgram from July 2023 to February 2024. He also gained teaching experience as a Teaching Assistant during his M.Tech. and Ph.D. at the Indian Institute of Technology (ISM) Dhanbad, where he assisted in various subjects such as Manufacturing Process Lab, Theory of Metal Forming, Micromanufacturing, Advances in Machining, CNC Programming Lab, and Production Technology Lab.

Research Interests:

He is currently engaged in research spanning various areas of precision engineering and machining. His primary interests lie in micro turning, ultraprecision diamond turning, and high-speed micromachining, where he delves deep into the intricacies of metal cutting processes. Additionally, he focuses on understanding machine tool dynamics to optimize performance. Utilizing finite element modeling (FEM), he investigates the complex interactions within machining systems, aiming to enhance accuracy and efficiency. Beyond conventional methods, he explores unconventional machining techniques and embraces additive manufacturing, continually expanding his expertise and contributing to advancements in manufacturing technology.

📝🔬Publications📝🔬
  • . Arnab Das, Vivek Bajpai, “Turning insert with lubricating passage along the normal plane for
    minimization of friction, cutting force and tool wear”, Journal of Manufacturing Processes
    (2023) vol 101, pp 141-155, 2023. https://doi.org/10.1016/j.jmapro.2023.05.066 (Impact factor:
    5.684, SCI Indexed)
  • Arnab Das, Vivek Bajpai, “Machinability analysis of lead free brass in high speed micro turning
    using minimum quantity lubrication”, CIRP Journal of Manufacturing Science and Technology
    (2023) vol 41, pp 180-195, 2023. https://doi.org/10.1016/j.cirpj.2022.11.023 (Impact factor: 3.56,
    SCI Indexed)
  • Arnab Das, Abisoor Rishi Sharan Mundu, Vivek Bajpai, “Enhancing tribological performance of
    lead free brass in high speed micro turning via hybrid cryogenic cooling technique”, Tribology
    International (2022) vol 179, 108090, 2022. https://doi.org/10.1016/j.triboint.2022.108090
    (Impact factor: 5.62, SCI Indexed)
  • Arnab Das, Shashank Shukla, Mohan Kumar, Chitransh Singh, Madan Lal Chandravanshi, Vivek
    Bajpai, “Development of a vibration free machine structure for high-speed micro-milling center”,
    The International Journal of Advanced Manufacturing Technology, vol 116, 2021, pp 3489-
    3506. https://doi.org/10.1007/s00170-021-07533-1 (Impact factor: 3.563, SCI Indexed)
  • Chitransh Singh, Arnab Das, Vivek Bajpai, and Madan Lal Chandravanshi, “Effects of process
    parameters on tool vibration and force transmissibility in high-speed micro-milling machine”,
    Journal of the Brazilian Society of Mechanical Sciences and Engineering (2023) vol 45: 343,
    pp 1-14, 2023. https://doi.org/10.1007/s40430-023-04266-y (Impact factor: 2.361, SCI Indexed)
  • Arnab Das, Shri Narayan Agnihotri, Vivek Bajpai, “Compensation for Merchant’s Circle Diagram
    to predict cutting force in orthogonal micro turning”, Journal of Micromanufacturing, (Special
    issue on WCMNM 2021) vol 6(2), pp 101-111, 2023. https://doi.org/10.1177/25165984231171896
    (SCOPUS Indexed)
  • Arnab Das, Abisoor Rishi Sharan Mundu, and Vivek Bajpai, “Prediction of friction angle and
    cutting force considering sticking friction in machining process”, Sadhana, vol 48, 261, 2023.
    https://doi.org/10.1007/s12046-023-02312-y (Impact factor: 1.6, SCI Indexed)
  • Arnab Das, Vivek Bajpai, “A laser welding set up with dual focal lens for laser welding of
    dissimilar materials”, Indian Patent, Application no 202331006063 A, The Patent Office Journal
    No. 06/2023 Dated 10/02/2023, pp 9969. (Published)

Mi Tian- Technological Networks- Best Researcher Award

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Mi Tian- Technological Networks- Best Researcher Award

Dr. Mi Tian holds the position of Senior Lecturer and Director of Postgraduate Research in the
Department of Engineering at the University of Exeter, where her focus lies on hydrogen energy,
specifically in the field of solid-state hydrogen storage and transportation. Since her affiliation with the
UoE in 2020, Dr. Tian has been instrumental in securing upwards of £2.7 million in research funding,
with nearly £1 million attributed to her direct initiatives as PI and an additional £1.7 million as Co-I.
Her academic contributions encompass 36 publications in reputable journals, an H-index of 20, two
patents, and a notable contribution to a sector-relevant book. Her recognition in the Top 50 Women in
Engineering in 2020 and subsequent honour as one of the EPSRC Women in Engineering Ambassadors
in 2023 not only underscore her personal achievements but also reflect her commitment to promoting
equality, diversity, and inclusion within the engineering field.

🌐 Professional Profile

Educations📚📚📚

She holds a Ph.D. in Hydrogen Storage from the University of East Anglia, UK, building upon her prior academic achievements. Her journey began with a BEng in Environmental Engineering from Beijing University of Technology, China, where she laid the groundwork for her passion for environmental sciences. Subsequently, she pursued an MSc by Research in Environmental Sciences at the University of East Anglia, further honing her expertise in this field. With each degree, she delved deeper into her fascination with environmental issues, culminating in her doctoral research focused on hydrogen storage, a crucial aspect of renewable energy technology. Through her academic endeavors, she has become a dedicated scholar contributing to the advancement of sustainable solutions for the future.

Awards

She has garnered notable recognition for her contributions to engineering and sustainability, earning accolades such as being named one of the Top 50 Women in Engineering for Sustainability in 2020. Her commitment to advancing the role of women in engineering was further underscored by her appointment as an EPSRC Women in Engineering Ambassador, a position she has held since 2023. Additionally, her expertise and dedication to her field have led to her induction as a Fellow of the Institute of Materials, Minerals, and Mining (IOM3) in 2022, a prestigious honor reflecting her standing among her peers. Through her advocacy, leadership, and scholarly achievements, she continues to inspire and drive positive change in the realms of engineering and environmental sustainability.

 

Academic experience

She brings a wealth of professional experience to her current role as Senior Lecturer and Director of PGRs at the University of Exeter, UK, where she has been serving since 2022. Prior to her current position, she served as a Lecturer at the same institution from 2020 to 2022, where she demonstrated her commitment to academic excellence and student development. Before joining the University of Exeter, she contributed to groundbreaking research as a Research Associate at the University of Bath, UK, from 2017 to 2020. Throughout her career, she has been dedicated to pushing the boundaries of knowledge in her field, fostering the growth of the next generation of researchers, and making impactful contributions to academia and beyond.

Achievements

• Established the Hydrogen Storage Lab at the University of Exeter with 5 PGRs, 2 PDRAs and 1
Research Fellow.
• Secured over £2.7 million in research funding as PI and Co-I from prestigious bodies.
• Published 36 research papers in renowned journals and holds two patents in her field.
• Recognized as one of the Top 50 Women in Engineering
• Honoured as one of EPSRC Women in Engineering Ambassadors.

📝🔬Publications📝

Donglu Shi – Materials science – Best Researcher Award

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Donglu Shi – Materials science – Best Researcher Award

Prof Dr. Donglu Shi distinguished academic and researcher in the field Material ScienceHe has held various esteemed positions throughout his career. Since 2001, he has served as a Professor of Materials Science and Engineering at the University of Cincinnati in Cincinnati, Ohio, United States. Additionally, from 2013 to 2023, he assumed the roles of Chair and Graduate Director of Materials Science and Engineering at the same institution.

His international experience includes a stint as a Visiting Scientist at the Centre National de la Recherche Scientifique in Grenoble, Dauphiné, France, in 2001. Furthermore, in the same year, he was a Fellow at Fitzwilliam College, University of Cambridge, Cambridge, Cambridgeshire, United Kingdom.

Prior to his professorial role, he held the position of Associate Professor at the University of Cincinnati’s Department of Materials Science and Engineering from 1995 to 2001. Earlier in his career, he worked as a Staff Scientist in the Materials Science Division of Argonne National Laboratory, based in Argonne, Illinois, United States, from 1988 to 1995. Preceding this, he served as a Postdoctoral Staff member at the same institution from 1987 to 1988.

🌐 Professional Profiles

Educations📚📚📚

He received his Master of Science in Physics from the University of Massachusetts, Amherst, MA, USA, in May 1983. Following this, he pursued his Doctor of Philosophy (PhD) in Engineering from the same institution, completing it in September 1986. Subsequently, he joined Argonne National Laboratory in Lemont, Illinois, United States, as a Postdoctoral Fellow from July 1987 to September 1988, specializing in Materials Science.

Synergistic Activities

He is actively engaged in teaching and research at the University of Cincinnati, where he teaches undergraduate courses in materials science and graduate courses in solid-state physics. Additionally, he oversees the minor degree programs in Nano Engineering and Materials Engineering.

As part of his commitment to STEM education, he participates in the Summer Institute at the University of Cincinnati, delivering lectures on nanoscience to groups of underrepresented students.

His research endeavors are groundbreaking, focusing on nanoscience, photonics, and magnetism. He investigates the electronic structures of nanomaterials, particularly emphasizing 3D solar harvesting and energy generation. Through his innovative work, he contributes to the development of novel devices, aiming to achieve a net-zero carbon footprint and promote environmental sustainability. Furthermore, he explores the applications of biomaterials in medical diagnosis and therapy.

His contributions to the field have been recognized through various prestigious honors and awards, including being named a Fellow of ASM-International and a Visiting Fellow of Fitzwilliam College, Cambridge University. He has also received accolades such as the Rieveschl Award for Distinguished Scientific Research, the Sarah Grant Barber Outstanding Faculty Advisor Award, the Distinguished Engineering Researcher Award, the Neil Wandmacher Teaching Award, the SIGMA XI Research Recognition Award, and the Honor Roll Professor of Excellence in Teaching Award. Moreover, he has been appointed to editorial positions for several prominent journals, including serving as Editorial Board Member of Journal of Energy and Power Technology, Associate Editor of Nanomaterials, Editor-in-Chief of Nano LIFE, Associate Editor of Nanomaterials, and Editorial Board Member of Biomaterials Advances and Bioengineering.

📝🔬Publications📝🔬

Sergio González Sánchez – Technological Networks – Best Researcher Award

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Sergio González Sánchez – Technological Networks

Dr. Sergio Gonzalez Sanchez  distinguished academic and researcher in the field Technological Networks and Metallurgy. His academic career took root at Northumbria University in the UK, where he held positions as a Lecturer in Mechanical Engineering and Programme Leader for the Engineering Foundation Year from 2015 to 2018. Currently, he serves as a Senior Lecturer/Assistant Professor in Mechanical Engineering at Northumbria University since 2018. The breadth of his expertise and research has been acknowledged globally, with multiple visiting scientist appointments, including stays at the University of Science and Technology Beijing, Helmholtz-Zentrum Hereon, DESY in Germany, and the Erich Schmid Institute of Materials Science in Austria. Additionally, he took a sabbatical at the Diamond Light Source in the UK in February 2022. Throughout his career, he has consistently contributed to the advancement of materials science and engineering, showcasing a remarkable blend of academic dedication and international collaboration.

🌐 Professional Profiles

Educations: 📚🎓

He commenced his academic journey in materials engineering, earning a B.S. from Polytechnic University of Madrid in 2003. Following this, he delved into the industry as a Quality Control Engineer at Rochina-Wescho S.L. before pursuing further studies. His academic pursuits led him to complete a Ph.D. in Materials Physics from Complutense University of Madrid in 2008, conducting research at the National Center for Metallurgical Research (CENIM-CSIC) as an FPI Fellow (Spain).

Post-Ph.D., he embarked on a global research journey, serving as a Visiting Researcher at the University of Sheffield in the UK (2006-2007) and as a Postdoctoral Research Associate at Tohoku University in Japan (2008-2010). During this time, his focus shifted towards alloys with applications in environmentally sustainable transport and biomedical fields.

In 2011, he secured the Juan de la Cierva Fellowship at the Autonomous University of Barcelona in Spain, leading a project on “New Metallic Alloys for Biomedical Applications.” Subsequently, he contributed as a Postdoctoral Research Associate at the University of Manchester (2013-2014), working on the “Sensitization of Aluminium Alloys” as part of the LATEST2 project within the School of Materials.

His academic career took root at Northumbria University in the UK, where he held positions as a Lecturer in Mechanical Engineering and Programme Leader for the Engineering Foundation Year from 2015 to 2018. Currently, he serves as a Senior Lecturer/Assistant Professor in Mechanical Engineering at Northumbria University since 2018. The breadth of his expertise and research has been acknowledged globally, with multiple visiting scientist appointments, including stays at the University of Science and Technology Beijing, Helmholtz-Zentrum Hereon, DESY in Germany, and the Erich Schmid Institute of Materials Science in Austria. Additionally, he took a sabbatical at the Diamond Light Source in the UK in February 2022. Throughout his career, he has consistently contributed to the advancement of materials science and engineering, showcasing a remarkable blend of academic dedication and international collaboration.

ACADEMIC EXPERIENCE AND ADMINISTRATIVE
POSITIONS 

Dr. S. González actively engages in a variety of external activities, demonstrating his commitment to professional development, mentorship, and community involvement. As a committee member of the Institute of Physics (IOP) NE branch since October 2020, he contributes to the regional representation of physicists. Additionally, he founded the Materials Informatics Network within the Institute of Materials, Minerals and Mining (IOM3), showcasing his leadership and interest in advancing materials science. Serving as a mentor for the EPSRC-funded project “Inclusion Matters” at Northumbria University from 2020 to 2021, Dr. González supports early career researchers from traditionally under-represented groups. His leadership extends to chairing research seminars, such as the one on 3D imaging by serial block face scanning electron microscopy in 2015. Dr. González has also played key roles in various committees, including the North East Division of the Institution of Mechanical Engineers (IMechE) and the Aerospace North West Division of IMechE. His contributions as a board member of organizations like IET Aerospace and the Light Metals Division of IOM3 underscore his influence in the engineering and materials science communities. Beyond his professional affiliations, Dr. González is involved in broader science initiatives, such as being a scientific expert for VoYS (Sense About Science) and organizing events for the British Science Association’s National Science and Engineering Week. His expertise is further recognized through his role as an expert evaluator for the National Evaluation and Foresight Agency (ANEP) of the Spanish Ministry of Economy and Competitiveness. Dr. S. González’s multifaceted engagement reflects his dedication to advancing scientific knowledge, fostering collaboration, and supporting the next generation of researchers.

 

He has garnered an impressive array of honors, awards, and recognition throughout his career, showcasing a distinguished commitment to research, academia, and professional service. In 2020, he founded the IOM3 Materials Informatics Network, demonstrating visionary leadership in the field. Serving as an EPSRC Full College Member, he evaluated five proposals in October 2020, contributing to the advancement of cutting-edge research.

He has served as an evaluator for prestigious institutions globally, including the Cyprus Research and Innovation Foundation (RIF) and CONACYT (Mexico). His expertise extends to evaluating projects for the National Science Center Poland and the Universidad Pontificia Comillas in 2019, showcasing a broad international impact.

The recognition of his contributions is further emphasized by being elected as a Fellow of IOM3 in April 2019, highlighting his significant influence in the Institute of Materials, Minerals, and Mining. Additionally, his role as a finalist for the British Engineering Excellence Award in October 2017 underlines his commitment to excellence, particularly in the proposal on “Metallic glass composites with optimum wear and antimicrobial performance.”

He has demonstrated commitment to education, being a Fellow of the Higher Education Academy since July 2016. His editorial roles in various esteemed journals such as Polymers, Annals of Advanced Biomedical Sciences, and the International Journal of Materials Science and Applications illustrate his dedication to disseminating knowledge and shaping academic discourse.

Furthermore, his engagement in professional organizations, including being a Board Member of the Light Metals Division of IOM3 and a Life Member of the American Association for Science and Technology, speaks to his active involvement in shaping the direction of his field.

The extensive list of awards, fellowships, and recognitions, such as the Juan de la Cierva Fellowship and the Marie Curie travel grant, attests to the high regard in which He is held within the academic and scientific community. His contributions have not only earned him accolades but also positioned him as a respected authority in the realm of materials science and engineering.

🔍📚 Research Interests 🌐✨

Dr. S. González has an extensive and diverse research background, spanning multiple years and involving various prestigious funding sources and collaborations. His recent achievements include a 3-year Ph.D. studentship, commencing in April 2024, funded by a multinational company headquartered in London, with a generous grant of approximately £96,000. In 2023-2025, he leads a project titled “Tailoring high entropy grain boundary complexions in CuZr shape memory alloy for enhanced reversibility, thermal stability, and toughness,” funded by The Royal Society International Exchanges. Additionally, Dr. González successfully secured internal funding from Northumbria University-Northern Accelerator for a project titled “Novel cost-effective antimicrobial touch surfaces for public indoor settings” in 2022. His research endeavors also include being the Principal Investigator (PI) for the Innovate UK Smart Grant in 2020, focusing on the design of High Entropy Superalloys using a hybrid experimental-based machine learning approach for the steel sector. Over the years, Dr. González has played key roles in various projects, such as the development of innovative timber panels and connections in collaboration with K. Poologanathan, and the exploration of metallic glass catalysts.

His contributions extend to international collaborations, such as the European Union Framework projects COST ACTION CA15114 and COST ACTION MP1303, as well as the FP7-264635-BioTinet project. Dr. González’s dedication to research is evident through numerous awards, grants, and fellowships, including the Juan de la Cierva Fellowship from the Spanish Ministry of Science and Innovation in 2011-2013. His research has covered a wide range of topics, from shape memory alloys to nanocrystalline materials and bio-compatible titanium-based structures, showcasing his versatility and expertise in materials science and engineering.

 

Membership

-European Materials Characterisation Council (EMCC), Materials Research Society (MRS), Royal Society of Microscopy
(RSM), The Minerals, Metals  Materials Society (TMS), The Institute of Materials, Minerals and Mining (IOM3), Institute
of Physics (IOP), Institute of Science and Technology (IST), Institute of Engineering and Technology (IET), European
Materials Research Society (E-MRS), American Association for Science and Technology (AASCIT), American Chemical
Society (ACS), Spanish Society of Materials (SOCIEMAT), Federation of European Materials Societies (FEMS), British
Science Association, Institution of Mechanical Engineers (IMechE), The Welding Institute (TWI), Institute of Cast Metals
Engineers (ICME).

 

Book Section📚📚

In 2008, S. González completed his PhD thesis at Complutense University of Madrid with the title “Processing and characterization of amorphous, nanocrystalline and submicrometric alloys of the Mg-Ni-Y-RE system” (Catalogue number: T 30751) [1]. This work laid the foundation for his subsequent research endeavors.

Following his doctoral studies, González delved into diverse research areas. In 2013, he collaborated on a publication titled “Biodegradation and mechanical integrity of magnesium and magnesium alloys suitable for implants” [2]. This research, detailed in an In-Tech e-book, explored the intersection of biodegradation and mechanical properties of magnesium alloys, making it a significant contribution to the field.

Continuing his research trajectory, González, along with co-authors, investigated the microstructural analysis of thermal fatigue damage in 316L pipes in 2013 [3]. The publication, EUR 26445, was issued by the Publications Office of the European Union in Luxembourg, emphasizing the international recognition of his work.

In 2016, J.R. Martín and S. González jointly worked on the development, design, and fabrication of a dynamic fin system to enhance heat transfer [4]. This collaborative effort, presented in the Anales: Asociación Ingenieros ICAI, 2016, showcased the practical application of their expertise in the realm of heat transfer dynamics.

Collectively, S. González’s contributions across various domains underscore his multidisciplinary approach and commitment to advancing scientific knowledge in materials engineering and related fields.

Conference or Workshop Item

Dr. S. González has been actively engaged in a series of prominent conferences and workshops, showcasing his expertise in materials science and nanotechnology. Notably, at the 5th International Conference on Materials Research and Nanotechnology (ICMRN) in 2022, he delivered a presentation titled “Tuning the tribological performance of Cu50Zr50 through microalloying,” providing valuable insights into the field. His participation in the World Summit on Materials Science and Technology in 2020 involved a talk on the wear rate of microalloyed Cu50Zr50 shape memory alloy at different temperatures, emphasizing the practical applications of his research. At EUROMAT 2019, Dr. González presented findings on the optimal microalloying strategies to control the stress-induced martensitic transformation of Cu50Zr50 alloy.

In addition to these conferences, he has shared his knowledge in various invited talks and seminars. One notable instance was a presentation at IMDEA Materials in Madrid in July 2021, where he discussed “Metallic materials for biodegradable implants and antimicrobial surfaces.” Dr. González has also contributed to webinars on Materials Science and Nanotechnology, emphasizing collaborative research efforts in the field.

Beyond the academic sphere, Dr. González’s expertise is recognized internationally. For instance, he was invited to present at the World Summit on Nanotechnology and Nanomedicine in 2018 and 2016, discussing topics such as “Strategy for preventing excessive wear rate at high loads in bulk metallic glass composites” and “Novel metallic glass composites with optimum antimicrobial and wear performance.” Furthermore, his involvement in conferences extends to serving as a co-chair for a session at the Innovative Materials Science & Nanotechnology conference in Valencia in 2018.

Dr. González’s consistent participation and contributions to conferences, seminars, and webinars highlight his dedication to advancing materials science and fostering collaboration within the global scientific community.

 📚Top Noted Publication

Noha Amaly – Material science – Best Researcher Award

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Noha Amaly – Material science

Dr.   Noha Amaly  distinguished academic and researcher in the field Material science.She has made significant contributions to the field of separation and purification through her innovative work in developing functionalized, high surface area, high mechanical strength, porous 3D structures based on nanofibers, nanoparticles, and flexible matrices. These matrices have found wide-ranging applications, including chromatographic matrix applications, water treatment, sensors, and protein purification/separation purposes.

Her research has played a crucial role in advancing analytical technologies such as HPLC and GC, enabling more accurate results by designing effective preconcentration matrices for various pollutants, including drugs and inorganic pollutants. This has contributed to the improvement of pollutant control methods in various industries.

Furthermore, she has applied her expertise in the field of water treatment, specifically in addressing wastewater from agricultural, aquacultural, and dairy farm manure. Her work has had a positive impact on the quality control and food production processes, showcasing the practical applications of her research in real-world scenarios.

Through collaborations with the VetMed extension department, she has demonstrated her commitment to real field applications, ensuring that her developed matrices are not only theoretically sound but also effective in practical settings. Overall, her experience, training, and motivation position her as a capable researcher with the expertise needed to successfully carry out proposed research projects in this field

 

Education

She completed her Bachelor of Science degree in Chemistry from Alexandria University, Egypt, in 2008. Continuing her academic journey, she pursued a Master’s degree at Alexandria University, specializing in Organic Chemistry and Polymers, which she successfully completed in 2012. Her passion for research and academic excellence led her to pursue a Ph.D. in Polymeric Materials Development and Functionalization. This advanced academic endeavor took her to the Organic Chemistry Department at Ain-Shams University, Egypt, and the University of California, Davis, USA. In 2019, she successfully earned her Ph.D., marking a significant achievement in her expertise and contributions to the field of polymeric materials.

Professional Profiles:

Positions and Employment

She has an extensive and diverse professional background in academia and research. Currently serving as a Post-doctoral Scholar in the Biological and Agricultural Engineering Department at the University of California, Davis, USA, since 2022, she continues to contribute to cutting-edge research in her field. Prior to her current role, she held the position of Visiting Scholar in the same department from 2017 to 2021, showcasing her commitment to academic exploration and collaboration.

Concurrently, she has been a Researcher at the Polymeric Materials Department in the City of Scientific Research & Technological Applications (SRTA-City), Alexandria, Egypt, since 2021, playing a vital role in advancing the understanding and development of polymeric materials. Her journey in research at SRTA-City began in 2013 when she joined as an Assistant Researcher, and her dedication and expertise led to her progression in the field. Before that, she gained valuable experience as a Lab Assistant at the National Institute for Oceanography & Fisheries in Alexandria, Egypt, from 2012 to 2013. Notably, her academic journey was supported by an M.Sc. scholarship at the Polymeric Materials Department, SRTA-City, Alexandria, Egypt, from 2009 to 2012, showcasing her early commitment to academic excellence and research.

PUBLICATIONS