Hamed Hassanzadeh | Nano-Science | Best Researcher Award

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Assist. Prof. Dr. Hamed Hassanzadeh | Nano-Science | Best Researcher Award

 Researcher | Ilam University | Iran

Dr. Hamed Hassanzadeh, born in Boukan, Iran, is an accomplished food technologist and academic specializing in food science, dairy technology, and nanoencapsulation. He earned his B.Sc., M.Sc., and Ph.D. from Urmia University, where his doctoral research focused on the development of garlic-based nanoemulsions with physicochemical and antimicrobial applications. Currently, he serves as Assistant Professor and Head of the Department of Food Science and Technology at Ilam University, Iran, while also leading R&D projects at Pamir Cola Co. in Afghanistan. Dr. Hassanzadeh has extensive teaching experience across Iran and Iraq and has made significant contributions to the beverage, dairy, and food preservation industries. He has authored several books in Persian and published  articles in high-quality journals. His research bridges academic inquiry and industrial application, focusing on nanotechnology in food preservation and bioactive compound delivery systems.

Professional Profile

Scholar

Education

Dr. Hassanzadeh completed his B.Sc. in Agricultural Science (Food Science and Technology) at Urmia University between. He then pursued his M.Sc. in Food Science (Dairy Technology) at the same institution, with a thesis on the impact of cheesemaking factors on milk rennet coagulation. Building upon this foundation, he advanced to a Ph.D. in Food Technology at Urmia University. His doctoral research explored the production, physicochemical characterization, antimicrobial properties, and release kinetics of garlic oil-based nanoemulsions, pioneering food nanotechnology applications in Iran. Alongside his degrees, Dr. Hassanzadeh enhanced his academic profile with statistical and computational training, mastering software such as SAS, SPSS, Minitab, and MATLAB. This strong educational foundation positioned him as both a scientific innovator and an industry-oriented researcher, bridging the gap between food science fundamentals and nanotechnology-driven applications in food preservation and functional product development.

Experience

Dr. Hassanzadeh has a diverse professional background in both academia and industry. Since , he has served as Head of the Department of Food Science and Technology at Ilam University, where he also teaches and supervises research. His industrial expertise is reflected in his roles as R&D Manager at Pamir Cola Co, where he developed innovative beverages, dairy products, and energy drinks. He has also taught extensively, serving as a lecturer at Salahaddin University, where he instructed courses in dairy technology, statistics, and food engineering, and at Saba University and Afagh University, focusing on postharvest technology and food preservation. His dual academic-industry roles have equipped him with a unique ability to integrate scientific research into practical applications, particularly in functional food development, food preservation, and nanotechnology-based delivery systems.

Research Focus

Dr. Hassanzadeh’s research primarily focuses on food nanotechnology, edible films, and functional foods. His Ph.D. research on garlic oil nanoemulsions laid the foundation for his ongoing studies into nanoencapsulation and controlled release systems for bioactive compounds. He has extensively investigated the development of antimicrobial active packaging and edible films enriched with essential oils, targeting improved food preservation and safety. His recent work emphasizes the use of nanofibers, nanoemulsions, and nanocomposites to enhance the physicochemical and antimicrobial properties of food products, with applications in dairy systems, beverages, and bakery products. Dr. Hassanzadeh also explores the nutritional and functional enhancement of foods through natural extracts, proteins, and algae-based ingredients. His contributions bridge fundamental science with applied technology, enabling innovations in food preservation, shelf-life extension, and functional product development. His interdisciplinary approach integrates food chemistry, microbiology, and nanotechnology, advancing both academic research and industrial applications globally.

Awards and Honors

Dr. Hassanzadeh has consistently been recognized for academic and research excellence. During his postgraduate studies, he was named the Top Student in his Master’s course, highlighting his commitment to academic distinction early in his career. At Ilam University, he has been honored multiple times as the Top Researcher at the Faculty of Veterinary Science for three consecutive, reflecting his prolific research output and contributions to food science innovation. His achievements extend beyond academia, with notable impact in industry through product development and applied nanotechnology research in food systems. His books and numerous publications in international journals further underscore his scholarly influence. These honors demonstrate his sustained leadership in advancing food science research, mentorship, and innovation, establishing him as one of the leading contributors in the areas of food technology, functional foods, edible films, and nanoemulsions, both within Iran and internationally.

Publication Top Notes

Conclusion

Hamed Hassanzadeh demonstrates a strong research profile, with a focus on food science and technology, and a significant publication record. His leadership and teaching experience demonstrate his commitment to education and industry. With further development of international collaboration and evaluation of citation impact, he could become an even stronger candidate for the Best Researcher Award. His contributions to the field of food science and technology, and his potential for future research, make him a strong contender for this award.

Qiaoxuan Zhang | Nanomaterials | Best Researcher Award

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Dr. Qiaoxuan Zhang | Nanomaterials | Best Researcher Award

Professor | Hebei University | China

Dr. Qiaoxuan Zhang is a faculty member in the Department of Electrical Engineering and Automation at Hebei University of Water Resources and Electric Engineering. With a strong academic foundation in physics and electronic science, she has developed expertise in two-dimensional materials, nanoelectronics, and energy storage applications. She earned her PhD at Beijing University of Posts and Telecommunications, where she focused on advanced materials for electronic and optoelectronic devices. Her research explores cutting-edge topics such as van der Waals heterostructures, electronic transport in two-dimensional semiconductors, and electrode materials for lithium-ion batteries. She has published high-quality first-authored papers in international journals, contributing new insights into nanoscale device engineering and quantum transport phenomena. As a young scholar, Dr. Zhang is committed to combining theoretical modeling with experimental advancements, aiming to bridge material innovations with practical electronic applications. Her teaching role reflects her dedication to mentoring students and advancing research in applied physics and nanoelectronics.

Professional Profile

Scopus

Education

Dr. Zhang’s academic journey reflects a steady pursuit of excellence in physics and electronic science. She began her higher education at Jilin University, where she studied Physics as an undergraduate, gaining a solid foundation in quantum mechanics, materials physics, and solid-state electronics. Motivated by her strong interest in electronic materials, she pursued graduate studies at the Beijing University of Posts and Telecommunications (BUPT). she engaged in postgraduate coursework in Electronics Science and Technology, strengthening her expertise in electronic devices and nanotechnology. She then advanced to a PhD program at where her research focused on the theoretical and computational design of two-dimensional materials and their applications in electronic devices and energy storage systems. During this period, she published several influential papers and collaborated with leading experts in the field, which laid the groundwork for her career as a researcher and educator.

Experience

After completing her doctoral studies, Dr. Zhang joined the Hebei University of Water Resources and Electric Engineering as a permanent teaching staff member in the Department of Electrical Engineering and Automation. In her academic role, she combines research with teaching, offering students both theoretical grounding and exposure to current advances in material science and nanoelectronics. Her teaching responsibilities include subjects related to electronics, semiconductor physics, and automation, where she emphasizes critical thinking and research-oriented learning. In parallel, she continues her research in low-dimensional materials, device simulations, and novel electrode designs for energy storage applications. She has contributed significantly to the understanding of two-dimensional electronic materials and their interfaces, advancing next-generation transistor and memory device concepts. Through active engagement in international scientific publications, collaborations, and student supervision, she has established herself as a promising scholar dedicated to both scientific innovation and the training of future engineers and scientists.

Research Focus

Dr. Zhang’s research centers on two-dimensional materials, electronic devices, and energy storage systems. Her work addresses fundamental and applied challenges in the design and optimization of van der Waals heterostructures, nanoelectronic devices, and magnetic tunnel junctions. She investigates the physical mechanisms governing charge transport, interlayer interactions, and interface engineering in low-dimensional materials, with applications in transistors, memory devices, and spintronic systems. Another strand of her research explores the role of advanced materials in lithium-ion batteries, focusing on metallic and composite nanostructures that enhance energy storage efficiency and stability. She employs a combination of first-principles calculations, simulations, and experimental collaborations, aiming to bridge theory with practical device implementation. Her research contributions are published in high-impact journals, and she actively seeks to expand the scope of nanoelectronics into sustainable energy technologies. Through this focus, Dr. Zhang contributes to the growing field of next-generation electronics and renewable energy solutions.

Awards and Honors

Dr. Zhang has received recognition for her scholarly achievements during her academic and professional career. At Beijing University of Posts and Telecommunications, she earned commendations for academic excellence and research contributions, particularly for her work in two-dimensional materials and electronic devices. Her doctoral research produced several first-authored publications in leading journals such as Nanotechnology, ACS Applied Nano Materials, and Nanomaterials, which established her reputation as a rising researcher in the field of nanoelectronics and material sciences. Her work on metallic MoN layers for lithium-ion batteries and 2D/2D electrical contacts in WSe₂ transistors has been particularly noted for its innovative approach and impact on energy and electronic applications. These accomplishments have positioned her as a valuable contributor to interdisciplinary material research. In her current role, she continues to pursue excellence in teaching and research, striving to integrate her academic achievements into educational development and practical technological advancements.

Publication Top Notes

Conclusion

Both TieJun demonstrate potential as researchers in their respective fields. TieJun Ge’s extensive research experience and publication record make him a strong candidate for the Best Researcher Award. Qiaoxuan Zhang’s research experience and publications in reputable journals also demonstrate her potential. With further development of interdisciplinary collaboration and evaluation of citation impact, they could become even stronger candidates for the award.

Dr Prakhar Sengar | Nanobiomaterials | Best Researcher Award

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Dr Prakhar Sengar | Nanobiomaterials| Best Researcher Award

Dr Prakhar Sengar, Centre of Nanoscience and Nanotechnology, Mexico

Dr. Prakhar Sengar is a prominent figure in the field of Nanoscience and Nanotechnology, known for his significant contributions to research and academia. As a faculty member at the Centre of Nanoscience and Nanotechnology, UNAM (National Autonomous University of Mexico), Dr. Sengar is deeply involved in cutting-edge research that spans the interdisciplinary domains of physics, chemistry, and materials science. His work focuses on the synthesis, characterization, and application of nanomaterials with unique properties, aiming to address pressing challenges in energy, environment, and healthcare. Dr. Sengar is also actively engaged in mentoring and educating the next generation of scientists and engineers, sharing his expertise and passion for nanoscience through teaching and mentorship. His dedication to advancing the frontiers of nanotechnology has earned him recognition and respect within the scientific community, making him a valuable asset to the Centre of Nanoscience and Nanotechnology at UNAM.

 

Professional Profiles:

 

Education:

Dr. Prakhar Sengar is a postdoctoral researcher with a strong academic background in Nanoscience and Nanotechnology. He has been engaged in research and academic activities since 2013, starting with his Ph.D. in material physics (Nanoscience) at the Centro de Investigación Científica y de Educación Superior de Ensenada (CICESE) in Mexico. Dr. Sengar’s research journey continued with roles as a Research Associate in the NANOFAB group and as an Academic External in the PAPIIT-DGAPA project at the Centro de Nanociencias y Nanotecnología (CNyN) at UNAM, Ensenada, Mexico. His expertise extends to biotechnology, as evidenced by his Master’s and Bachelor’s degrees in the field from the Vellore Institute of Technology (VIT) in India. Dr. Sengar’s diverse educational background and research experiences position him as a valuable asset in the field of Nanoscience and Nanotechnology.

Award and Honor:

Dr. Prakhar Sengar is a distinguished academic and researcher with a remarkable track record of achievements and accolades. His recent promotion to Professor de Asignatura-B at the Centro de Nanociencias y Nanotecnología (CNyN) – UNAM in 2023 is a testament to his expertise and dedication to academia. Dr. Sengar’s commitment to advancing knowledge in his field is further demonstrated by his consecutive CONAHCYT Post-Doctoral Academic positions in 2022-2023 and 2021-2022, where he contributed significantly to research and scholarship.

His prestigious recognition as a member of the Sistema Nacional de Investigadores (SNI) by CONACYT, achieving level 1 from 2021 to 2025 and previously from 2019 to 2021, reflects his sustained excellence in research and scholarly activities. Dr. Sengar’s early career was marked by a CONACYT Full-Time Research Fellowship from 2013 to 2017, during which he made notable contributions to the scientific community.

Dr. Sengar’s academic journey includes his qualification in the Graduate Aptitude Test in Engineering (GATE) in Biotechnology in 2013, showcasing his strong foundation in the field. Additionally, his proficiency in English is highlighted by his impressive score of 7.5 in the IELTS English exam in 2012, demonstrating his ability to communicate effectively in an international academic environment.

His academic journey began with an early achievement of being awarded the third prize in an oral presentation during Cognizance (technical fest) at the Indian Institute of Technology (IIT), Roorkee, India, in 2006. This early recognition speaks to his passion for research and his commitment to academic excellence from the outset of his career.

Teaching Experience:

Dr. Prakhar Sengar has made significant contributions to the field of Nanotechnology through his extensive involvement in academia and student training. As part of the Nanomateriales II Caracterizacion and Nanomateriales I:Sintesis courses in the Licenciature en Nanotechnologia at CNyN-UNAM, he has played a crucial role in the characterization and synthesis of biomaterials, imparting practical knowledge to students. His commitment to student development is evident in his mentorship of several research projects and the training of undergraduate and master’s students. Dr. Sengar’s active participation as a committee member for thesis projects demonstrates his dedication to fostering research excellence and academic growth in his students.

Publications Top Notes:

  • 1. P. Sengar, K. Rojas-Baldivia, A.G. Rodríguez-Hernández, G.A. Hirata, Synthesis and optimization of Nd3+doped hydroxyapatite as NIR-to-NIR nanothermometers, Mater Today Commun. 37 (2023) 107117. (I.F. : 3.8)

    2. L.K. Escalante Morales, P. Sengar, A.D. Baeza, R. Vazquez-Duhalt, K. Chauhan, Enhanced laccase activity and stability as crosslinked enzyme aggregates on magnetic copper ferrite nanoparticles for biotechnological processes, ChemCatChem. (2023). (I.F. : 4.5)

    3. C Belman-Rodriguez, P. Sengar, Gustavo A Hirata, Joaquin Manzo-Merino, Marcela Lizano, Mario H Farías, Sergio A Aguila, Synthesis and optimization of photothermal properties of NIR emitting LiGa5O8: Cr3+ and gold nanorods as hybrid materials for theranostic applications, Transl. Oncol. 27(2023) 101584. (I.F. : 5)

    4. P. Sengar, Kanchan Chauhan, Gustavo A Hirata, Progress on carbon dots and hydroxyapatite based biocompatible luminescent nanomaterials for cancer theranostics, Transl. Oncol. 24(2022) 101482. (I.F. :

    5) 5. D.K. Tiwari, J. Villegas, A.V. Coria-Tellez, C.A. Limón Luna, D. Tripathi, P. Sengar, Carbon nanotubes and nano zinc ferrites: a noble combination to enhance biomass and length of sorghum bicolor, Microscopy and Microanalysis. 27 (2021) 2750–2753. (I.F. : 4)

Avraam isayev | Nanocomposites | Best Researcher Award

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Prof Dr avraam isayev | Nanocomposites | Best Researcher Award

Ph.D. in Polymer Engineering and Science – USSR Academy of Sciences, Moscow.

Prof. Dr. Avraam Isayev is a distinguished figure in the field of polymer engineering and education, with a career spanning several decades. He is known for his significant contributions to academia, particularly during his tenure at the University of Akron, Ohio, USA. Throughout his career, Dr. Isayev has held various esteemed positions, including Distinguished Professor Emeritus, Adjunct Professor, Distinguished Professor, Interim Director, Director, Associate Professor, and Professor. Notably, he played a pivotal role as the Director of the Molding Technology Research and Development Center (MOLDTECH) from 1990 to 2009. Dr. Isayev is a member of several prestigious professional societies, including the Society of Plastics Engineers, the Society of Rheology, the Rubber Division of the ACS, the Polymer Processing Society, the American Chemical Society, the American Institute of Chemical Engineers, the American Ceramic Society, and the Tire Society. His exceptional contributions to the field have been recognized through numerous awards and honors, solidifying his reputation as a leading authority in polymer engineering. Dr. Isayev’s work has significantly impacted the field of polymer science and engineering, making him a highly respected figure in his field.

 

Professional Profiles:

 

Education:

 Dr. Avraam Isayev is a highly accomplished scholar and researcher with an extensive academic background in engineering and mathematics. He earned his Master of Science degrees in Chemical Engineering from the Azerbaijan Institute of Oil and Chemistry in Baku, USSR, in 1964, and in Applied Mathematics from the Moscow Institute of Electronic Machine Building in Moscow, USSR, in 1975. His educational journey culminated in a Ph.D. in Polymer Engineering from the Topchiev Institute of Petrochemical Synthesis and Science at the USSR Academy of Sciences in Moscow in 1970. These academic achievements laid the foundation for Dr. Isayev’s illustrious career in the field of polymer engineering, where he has made significant contributions to research, education, and professional development. His expertise and dedication have earned him recognition as a leading authority in his field.

 

Employment:

Dr. Avraam Isayev is a distinguished academician and researcher with a remarkable career spanning over five decades. He has held various prestigious positions in the field of polymer engineering, including Distinguished Professor Emeritus and Adjunct Professor at the University of Akron, Ohio, USA. Dr. Isayev’s journey began with his doctoral studies and research at the Institute of Petrochemical Synthesis of the USSR Academy of Sciences in Moscow, where he later served as a Research Associate. Throughout his career, he has contributed significantly to academia, industry, and research institutions globally, leaving an indelible mark on the field of polymer engineering.

Award and Honor:

Dr. Avraam Isayev is a distinguished figure in the field of polymer engineering, renowned for his extensive contributions to research, academia, and industry. Throughout his illustrious career, Dr. Isayev has been recognized with numerous awards and honors, including the Melvin Mooney Distinguished Technology Award from the Rubber Division of the American Chemical Society (ACS) in 1999 and the George S. Whitby Award for Distinguished Teaching and Research from the ACS in 2011. His innovative work has earned him accolades such as the NorTech Innovation Award for Ultrasonic Devulcanization Extruder and Technology in 2011 and the James L. White Innovation Award from The Polymer Processing Society in 2012. Dr. Isayev’s impact extends beyond the academic sphere, as demonstrated by his 2017 election as a Member of the European Union Academy of Sciences (EUAS) and his nomination for the 2018 ENI Award in Advanced Environmental Solutions. He has also been recognized for his influential contributions to materials science, being ranked among the top 2% of scientists worldwide within his specialty area throughout his career. Dr. Isayev’s remarkable achievements underscore his dedication to advancing the field of polymer engineering and his significant impact on the global scientific community.

Research Interest:

Dr. Avraam Isayev’s research interests span a wide range of topics within the field of polymer engineering. His expertise encompasses polymer processing, rheo-optics, and the rheology of polymers, with a focus on their applications in oil products and disperse systems. Dr. Isayev has made significant contributions to molding technologies, including injection, co-injection, transfer, compression, and gas-assisted injection molding of polymers. His work extends to the development of self-reinforced or in-situ composites based on liquid crystal polymers (LCP), as well as the continuous decrosslinking of thermosets and rubbers. Dr. Isayev is also known for his research in copolymerization of polymer blends using high-power ultrasound, and he has explored the realm of high-temperature and high-performance nanocomposites. Additionally, he has worked on developing constitutive equations and process modeling techniques to enhance the understanding and optimization of polymer processes. Dr. Isayev’s diverse research portfolio underscores his commitment to advancing the fundamental understanding and practical applications of polymer engineering.

Service to the University of Akron:

Dr. Avraam Isayev has played an active role in various administrative and advisory capacities throughout his tenure. He served as a Faculty Observer on the Board of Trustees in 1991/92 and was a member of the Advisory Committee to the President in 1989/90, 1991/92, and 2005/2006. Dr. Isayev was also a part of the University Council from 1988 to 1992 and contributed to the Advisory Committee to the Provost in 1990/91 and 1994/95. His dedication to improving faculty status is evident from his involvement in the Ad Hoc Committee on Mechanisms to Enhance Faculty Status from 1985 to 1987 and the Library Committee from 1989 to 1991. Additionally, he chaired the Faculty Search Committee for the Department of Polymer Engineering on several occasions and was involved in selecting the Dean of the College of Polymer Science and Polymer Engineering in 1988. Dr. Isayev’s commitment to academic excellence is further demonstrated through his participation in various committees, such as the Graduate Admission Committee, College Appeal Committee, Faculty Senate, Campus Facilities and Planning Committee, University Planning and Budget Committee, College Promotion and Tenure Committee, Search Committee for Director of Research and Sponsored Program, Student Policy Committee, and University Distinguished Professor Committee, where he contributed to the enhancement of the university’s academic and research endeavors.

Publications Top Notes:

Rheology: concepts, methods, and applications

Cited by- 958  year- 2022

Injection and compression molding fundamentals

Cited by- 345  year- 2017

Novel ultrasonic technology for devulcanization of waste rubbers

Cited by- 323  year- 1995

Toward a viscoelastic modelling of the injection molding of polymers

Cited by- 312  year- 1987

Ultrasound assisted twin screw extrusion of polymer–nanocomposites containing carbon nanotubes

Cited by- 241  year- 2009

Quiescent polymer crystallization: modelling and measurements

Cited by- 224  year- 1994

Prof Muhammad Qureshi | Bio-Nanotechnology

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Prof  Muhammad  Qureshi: Leading Researcher in Bio-Nanotechnology.
 Prof  Muhammad  Qureshi Department of Biochemistry Deanship of Educational Services Qassim University, Buraydah.

Professor Muhammad Qureshi, affiliated with Qassim University, is a distinguished academic known for his contributions to higher education. With a wealth of expertise, Prof. Qureshi has played a pivotal role in shaping intellectual discourse at the university. His influence extends beyond the lecture halls, encompassing research and mentorship. As a dedicated educator, he fosters an environment of academic excellence, nurturing the intellectual growth of students. Prof. Qureshi’s commitment to advancing knowledge is evident in his scholarly pursuits and leadership at Qassim University, making him a respected figure in both academic and research circles.

 

Professional Profiles:

 

 

The impact of her research is evident in citation metrics and indices from google scholar:

Cited by : All-354

citations- 342

h-index-10

 

Education:

  • PhD, Advanced Technology Research Center for Applied Sciences and Advanced Technology, National Polytechnic Institute 01/2015-12/2018 Mexico City, Mexico -Thesis: “An XPS study of Prussian blue Analogues and Related Coordination Compounds”. Advisor. Scientist Emeritus Edilso F. Reguera Ruiz (edilso.reguera@gmail.com) and Dr. Luis Lartundo (SNI II) (llartundo@ipn.mx)Master’s degree, Advanced Technology Research Center for Applied Sciences and Advanced Technology, National Polytechnic Institute 01/2013-12/2014 Mexico City, Mexico -Thesis: “Study of an atypical transition metal nitroprussides”. Advisor. Scientist Emeritus Edilso F. Reguera Ruiz (edilso.reguera@gmail.com) and Dr. Adela Lemus (SNI II) (alemuss@ipn.mx)Bachelor’s’ degree, Industrial Chemical Engineering Escuela Superior en Ingeniería Química e Industrias Extractivas (ESIQIE), National Polytechnic Institute 08/2008-12/2012 Mexico City, Mexico -Degree obtained with the Master´s thesis: “Study of an atypical transition metal nitroprussides”. Advisor. Scientist Emeritus Edilso F. Reguera Ruiz (edilso.reguera@gmail.com) and Dr. Adela Lemus (SNI II) (alemuss@ipn.mx)

 

Synchrotron Project:

Accepted internal proposal for Beam time run September-October/2022 (1 month) Surface structure and chemical composition study of Nb for quantum materials applications: 3D and 2D resonators Author(s): A. Cano, D. Bafia, Z. Sung, M. Martinello, S. Posen, A. Romanenko, A. Grassellino and J. R. Zuazo European Synchrotron Radiation Facility, Spline Spanish beam-station, ESRF, France Contact: Beam-scientist PhD Juan R. Zuazo, Beam-scientist PhD German Castro Accepted proposal for Beam time run November/2021 (2 year)

Electronic and structural changes in Nb SRF material under cryogenic conditions through combined HAXPES/GIXRD data Author(s): A. Cano, Z. Sung, D. Bafia, T. Spina, M. Martinello, S. Posen, A. Grassellino, A. Romanenko European Synchrotron Radiation Facility, Spline Spanish beam-station, ESRF, France Contact: Beam-scientist PhD Juan R. Zuazo, Beam-scientist PhD German Castro Accepted proposal for Beam time run Feb/2021(1 year)

Tracing microstructural changes in SRF Nb-matrix under cooling/heating cycles through HighResolution XRD powder patterns analysis Author(s): A. Cano, D. Bafia, J. Lee, Z. Sung, M. Martinello, A. Romanenko Advanced Photon Source-Argonne National Laboratory, IL, USA Contact: Beam-scientist Jennia Karapetrova

 

Research Experience:

  • Postdoctoral Research Associate Fermi National Accelerator Laboratory 06/2019-Present Batavia, IL, USA Applied Physics and Superconducting Division (APS/TD) -Research Project: Surface structure and chemical composition of the near-surface of SRF cavities based on Nb and Nb3Sn Superconducting Quantum Materials and System Center (SQMS) -Research Project: Unraveling the local surface structure in 2D and 3D Nb superconducting resonators and examining its potential impact on TLS losses Supervisors: Senior Scientist Alexander Romanenko (aroman@fnal.gov), PhD Martina Martinello (martina9@stanford.edu), Senior Scientist Grigory Eremeev (grigory@fnal.gov) and PhD. Akshay Murthy (amurthy@fnal.gov) -Design of multi-technique surface analysis platform based on X-ray photoelectron spectrometer with HeL manipulator. Supervisors:Senior Researcher Anna Grasellino (annag@fnal.gov), Senior Scientist Alexander Romanenko (aroman@fnal.gov), PhD Mattia Checchin (checchin@stanford.edu) User facilities/Postdoctoral Research Associate European Synchrotron Radiation Facilities 11/2021-10/2022 Grenoble, France Spline Spanish Beamline -Research Project: Surface structure study of Nb for quantum materials applications: 3D and 2D resonators Supervisors: Senior Scientist Alexander Romanenko (aroman@fnal.gov), Beam-scientist PhD Juan R. Zuazo (rubio@esrf.fr), PhD Martina Martinello (martina9@stanford.edu), Senior Scientist Grigory Eremeev (grigory@fnal.gov) User facilities/Postdoctoral Research Associate Advanced Photon Source-Argonne National Laboratory 11/2020-11/2021 Lemont, IL, USA 33-BM-C -Research Project: Tracing microstructural changes in SRF Nb-matrix upon cooling/heating cycles by cryo-GI-XRD Supervisors: Senior Scientist Alexander Romanenko (aroman@fnal.gov), Beam-scientist M. Sc. Evguenia Karapetrova (jenia@anl.gov), PhD Martina Martinello (martina9@stanford.edu), PhD Tiziana Spina (spina.tiziana@as-g.it) User facilities/ Postdoctoral Research Associate Northwestern University 07/2019-Present Evanston, IL, USA NU Atomic and Nanoscale Characterization Experimental Center (NUANCE) -Research Project: Chemical composition mapping of the inner surface of SRF cavities cutouts using Electron Spectroscopies and Microscopy Supervisors:Senior Researcher Anna Grasellino (annag@fnal.gov), PhD Martina Martinello (martina9@stanford.edu) and PhD Xinqi Chen (xchen@northwestern.edu) Integrated Molecular Structure Education and Research Center (IMSERC) -Research Project: Evaluation of the Surface structure of Nb cavities cutouts processed with state-of-the-art RF surface treatments using X-ray diffraction techniques and TG-MS Supervisors: PhD Martina Martinello (martina9@stanford.edu) and Senior Scientist Christos Malliakas (cmalliakas@northwestern.edu) User facilities/ Postdoctoral Research Associate Minnesota University 07/2021-Present Minnesota, MN, USA XPS instrument, Characterization facility, CharFac -Research Project: Thermal evolution of the native oxide layer on Nb3Sn-coated Nb SRF grade. An In-situ angular XPS study Contact: PhD Bing Luo (luox0026@umn.edu), Senior Scientist Grigory Eremeev (grigory@fnal.gov)and Senior Scientist Sam Posen (sposen@fnal.gov) Invited Researcher Research Center for Applied Sciences and Advanced Technology, National Polytechnic Institute 01/2019-06/2019 Mexico City, Mexico National Laboratory in Energy Conversion and Storage, LNCAE -Research collaboration: Mentoring of undergraduate/graduate thesis and Electron spectroscopy (XPS) trainings Contact: Scientist Emeritus Edilso F. Reguera Ruiz (edilso.reguera@gmail.com) Visiting Researcher Institute for Nuclear Research, Hungarian Academy of Sciences 02/2016-07/2016 Debrecen, Hungary Laboratory of Electron Spectroscopy and Materials Science -Research Project: XPS study of Coordination Chemistry at the Nanoparticles Surface Contact: PhD László Kövér (lkover15@gmail.com), PhD József Tóth (toth.jozsef@atomki.mta.hu) Visiting Researcher Malaga University 09/2015-12/2015 Malaga, Spain Department of Inorganic Chemistry.Crystallography and Mineralogy -Developed project: Systematic XPS Study of Molecular Nano-porous Materials with Potential Applications in Renewable Energy Technologies Contact: Dr. Enrique Rodríguez Castellón (castellon@uma.es) Visiting Researcher Center for Nanoscience and Micro/Nanotechnologies, National Polytechnic Institute 06/2014-06/2015 Mexico City, Mexico National Laboratory of characterization of materials and nanostructures -Developed project: Advanced training in Surface Analysis using XPS spectroscopy Contact: PhD Luis Lartundo Rojas (SNI II) (llartundo@ipn.mx) Visiting undergraduate student Research Center for Applied Chemistry, CIQA 01/2012-02/2012 Saltillo, Mexico Department of Plastic Transformation Processes -Developed project: Synthesis, characterization, and monitoring phase inversion of high impact polystyrene (HIPS). Contact: Dr. Graciela E. Morales Balado (SNI II) (graciela.morales@ciqa.edu.mx) and Dr. Florentino Soriano Corral (SNI I), (florentino.soriano@ciqa.edu.mx) Internship undergraduate student Research Center for Applied Chemistry, CIQA 01/2011-02/2011 Saltillo, Mexico Department of organometallic materials synthesis -Developed project: Morphology control of Zn-oxides nanoparticles for automotive applications Contact: Dr. Graciela E. Morales Balado (SNI II) (graciela.morales@ciqa.edu.mx), Dr. Pablo Acuna (SNI I) (pablo.acuna@ciqa.edu.mx)

 

Publications and Top Noted:

First direct observation of nanometer size hydride precipitations on Superconducting Niobium Author(s): Z-H. Sung, A. Cano, A. Murthy, E. Karapetrova, J-Y. Lee, A. Grassellino and A. Romanenko arXiv Preprint arXiv:2305.01022