Geraldo Wilson Fernandes | Ecologia | Best Academic Researcher Award

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Dr. Geraldo Wilson Fernandes | Ecologia | Best Academic Researcher Award

Professor Titular,University of Minas Gerais ,Brazil

 

Prof. Geraldo Wilson Afonso Fernandes stands out as an internationally respected ecologist with over four decades of contributions to science. He is a thought leader in ecosystem restoration, biodiversity conservation, and ecological interactions. His CNPq 1A fellowship, global collaborations, and leadership in impactful ecological projects make him a model candidate for any high-level research award.

 

Profile:

Scopus

Education:


Geraldo Wilson Afonso Fernandes holds a Bachelor’s degree in Biological Sciences from the Federal University of Minas Gerais (UFMG), Brazil, earned in 1983. He completed both his M.Sc. (1987) and Ph.D. (1992) in Ecology and Evolutionary Ecology at Northern Arizona University (NAU), USA, under the supervision of Dr. Peter W. Price. His postgraduate research focused on the distribution patterns and mechanisms of gall-forming insects. He has also completed two postdoctoral fellowships: one at Stanford University (2015–2016), where he served as a Tinker Professor, and another at the University of Seville (2019–2020), supported by CAPES.

Professional Experience;


Fernandes is a highly respected ecologist and a CNPq Level 1A Research Productivity Fellow in Brazil. Over his career, he has held visiting professorships at the University of Alberta (2011), Stanford University (2016), and the University of Seville (2020). He is affiliated with several graduate programs in Brazil, including Ecology, Conservation and Wildlife Management, Genetics (both at UFMG), Biodiversity and Natural Resource Use (UNIMONTES), and the Recovery of Degraded Areas (UFV). Internationally, he collaborates with research programs in Mexico, including INECOL, UNAM, and the University of Seville.

Research Focus:


His research is centered on biodiversity, ecosystem services, community ecology, herbivory, environmental monitoring, ecological restoration, climate change, chemical ecology, and ecological interactions. He has made significant contributions to understanding the ecological roles of gall-forming insects and the biogeography of biodiversity patterns. He also leads a major international project under the CYTED program (Spain), focusing on the role of protected areas in supporting ecosystem services, particularly the ecological and economic implications of pollinator declines.

Skills:


Fernandes is an expert in ecological monitoring, biodiversity assessment, and ecosystem service evaluation. His skillset also includes field-based ecological research, data analysis, bioprospecting, and the development of phytotherapeutic and biodiversity-based products. His interdisciplinary expertise spans environmental science, chemical ecology, and climate-related ecological modeling.

Awards and Recognition:


In 2018, Fernandes was elected a full member of the Brazilian Academy of Sciences—one of the highest academic honors in the country. He has received multiple fellowships and awards from Brazilian research agencies, including CNPq and CAPES. His academic distinction is further underscored by his long-standing role as a top-tier CNPq researcher (Level 1A).

Publications:

Conclusion:

Dr. Xiang Que demonstrates an excellent balance of academic rigor, research innovation, and potential for Prof. Geraldo W. A. Fernandes is exceptionally qualified for the Best Researcher Award, and his career reflects the award’s ideals of global scientific leadership, innovation in ecological research, and long-standing academic excellence. Any recognition bestowed upon him would not only be deserved but would also uplift the visibility of critical ecological and biodiversity research in the Global South.

Natalia Ramírez Giraldo | biomateriales | Young Researcher Award

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Mrs. Natalia Ramírez Giraldo | biomateriales | Young Researcher Award

Central University of Valle del Cauca ,Colombia

 

Natalia Ramírez Giraldo is a promising young researcher in biomedical engineering with demonstrated dedication to advancing knowledge in biomaterials and drug delivery. Her hands-on involvement in multidisciplinary research and commitment to scientific development make her a strong candidate for early-career research recognition.

 

Profile:

orcid

 

Education

Natalia Ramírez Giraldo is a Colombian biomedical engineering professional who has pursued extensive academic and complementary training. She completed various diploma courses at the Unidad Central del Valle del Cauca, including “Investigative Tools for Academic Writing” (2022), “Biomaterials with Emphasis on Tissue Engineering and Regenerative Medicine” (2023), and the “Permanent Research Chair” (2023). Additionally, she engaged in technical training in electronics from institutions such as the Carlos Slim Foundation and P4H Bionics Academy. She has also completed English language training between 2017 and 2020. In 2024 and 2025, she expanded her knowledge further through courses at the National Autonomous University of Mexico (UNAM) and Politécnico Superior de Colombia, focusing on biorobotics, FTIR analysis, cell viability, electrospinning, and academic didactics.

Experience

Natalia has participated in numerous national and international scientific events as a speaker, assistant, and organizer. She presented technical works on the development and analysis of orally disintegrating polymeric films (ODFs) for drug delivery at events such as the REDCOLSI research meetings, REDBIOT Congress, and institutional biomedical weeks. She has collaborated with organizations like Universidad de Cartagena, Universidad Libre, Universidad Santiago de Cali, UNAM, and Unidad Central del Valle del Cauca, where she also contributed as an event organizer.

Skills

Natalia possesses a multidisciplinary skill set that spans biomedical engineering, biomaterials, tissue engineering, and medical device development. Her technical expertise includes drug delivery systems, electrospinning, solvent casting, in vitro cell viability assessment, and FTIR spectroscopy. She also demonstrates proficiency in academic research writing and university-level teaching methodologies, supported by her didactics training.

Awards

Her academic excellence has been recognized multiple times. She received the “Buena Nota” student awards from the Unidad Central del Valle del Cauca in 2023 and 2024, and was honored with the “Excelencia SENA” award in 2021 by the SENA Agropecuario Center in Valle del Cauca.

Research Focus

Natalia Ramírez Giraldo’s research is centered on biomedical engineering, particularly the design and evaluation of biopolymer-based drug delivery systems such as orally disintegrating films. Her work explores the physicochemical properties and release profiles of pharmaceutical compounds like acetaminophen. She emphasizes methods like solvent casting, electrospinning, and additive manufacturing for film development. Her recent peer-reviewed publication in Applied Sciences (MDPI) investigates the in vitro dissolution of polysaccharide-based ODFs.

Publications:

  • Title: Physicochemical Properties and In Vitro Dissolution of Orally Disintegrating Films Based on Polysaccharides: The Case of Acetaminophen

  • Journal: Applied Sciences

  • Year: 2025

 

  • Title: Physicochemical Properties and In Vitro Dissolution of Edible Film Based on Starch-Chitosan Used as a Potential Oral Drug Carrier: Model Using Acetaminophen

  • Platform: Preprints

  • Year: 2025

Conclusion:

Dr. Xiang Que demonstrates an excellent balance of academic rigor, research innovation, and potential for applied impact. His contributions to spatiotemporal analysis and geoinformatics are both timely and critical to advancing the field. With some improvements in collaboration, visibility, and funding, he is well-positioned for continued success in the academic and applied research domains.

Kun-Lin Lin |Materials analysis | Best Researcher Award

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Dr. Kun-Lin Lin |Materials analysis | Best Researcher Award

Research Fellow, Kun-Lin Lin, Research Fellow, Taiwan Semiconductor Research Institute,Taiwan

Kun-Lin Lin is a strong candidate for the Best Researcher Award, particularly in materials science, semiconductor technology, and advanced characterization techniques. His high-quality publications, innovative methodologies, and industrial collaborations make him a leading researcher in his field. However, further leadership roles, industry impact, and major award recognitions could strengthen his profile.

Publication Profile
scopus

Education :

Kun-Lin Lin received his M.S. and Ph.D. degrees in Materials Science and Engineering from National Chiao-Tung University, Hsinchu, Taiwan, in 2001 and 2005, respectively. His academic background provided a strong foundation in materials characterization and semiconductor research, shaping his expertise in the field.

EXPERIENCE:

From 2006 to 2008, Kun-Lin Lin worked as a Postdoctoral Researcher at National Chiao-Tung University and National Taiwan University of Science and Technology, where he focused on microstructural characterization of metal/ceramic interfaces using transmission electron microscopy (TEM). Between 2008 and 2010, he worked in the Physical Failure Analysis Department at Inotera Memories Inc., specializing in TEM analysis of dynamic random-access memory (DRAM). Since May 2010, he has been an Associate Researcher at the National Nano Device Laboratories, which was later renamed the Taiwan Semiconductor Research Institute in 2018, where he continues to contribute to advanced materials characterization.

Skills:

Kun-Lin Lin possesses extensive expertise in TEM analysis for materials characterization, focusing on semiconductor materials and device interfaces. His technical skills include Differential Hall Effect Metrology (DHEM), Atom Probe Tomography (APT), and microstructural characterization of doped semiconductors. His proficiency in advanced microscopy techniques has significantly contributed to the understanding of semiconductor materials.

Awards:

Throughout his career, Kun-Lin Lin has been recognized for his contributions to materials science and semiconductor research. He is a peer reviewer for prestigious journals, including the Journal of Applied Physics, Materials & Design, Intermetallics, and Ceramic International. His research has also been featured in high-impact journals, demonstrating his influence in the field.

Research Focus:

His research primarily revolves around microstructural characterization of doped semiconductors, with a particular emphasis on Differential Hall Effect Metrology (DHEM) and Atom Probe Tomography (APT). His work has advanced the understanding of electrical properties in semiconductor materials, contributing to the development of high-performance electronic devices.

Publication :

  • Electrical properties of doped silicon without P-N junction using micro-mesa shrinking patterns and differential Hall effect metrology

    • Authors: C.Y. Yang, C. Chang, Y.C.S. Wu, A. Joshi, B.M. Başol
    • Journal: Materials Science in Semiconductor Processing
    • Year: 2025
    • Citations: 0

  • Carrier Activation at End-of-Range (EOR) Defects and Grain Boundaries in Boron-Doped Silicon

    • Authors: Y. Li, Y.C. Yang, T. Chou, Y. Hsu, K. Lin
    • Journal: Journal of Electronic Materials
    • Year: 2025
    • Citations: 0

  • Material Properties of n-Type β-Ga2O3 Epilayers with In Situ Doping Grown on Sapphire by Metalorganic Chemical Vapor Deposition (Open Access)

    • Authors: F.G. Tarntair, C. Huang, S. Rana, P. Liu, R. Horng
    • Journal: Advanced Electronic Materials
    • Year: 2025
    • Citations: 7

  • Lattice Boundary Enhancement on Thermoelectric Behaviors of Heavily Boron-Doped Silicon for Energy Harvesting: Electrical versus Thermal Conductivity (Open Access)

    • Authors: S. Yu Tsai, P.H. Tseng, C. Chen, Y. Lai, F. Ko
    • Journal: Advanced Materials Interfaces
    • Year: 2024
    • Citations: 1

  • Scalable approach for growing hexagonal boron nitride on silicon and its role in III-nitride van der Waals epitaxy

    • Authors: M.A. Rather, S. Hsu, C.C. Lin, K.Y. Lai, J.I. Chyi
    • Journal: Journal of Applied Physics
    • Year: 2024
    • Citations: 0

  • Investigation of Gallium Nitride Based HEMTs with Thermal Dissipation (Open Access)

    • Authors: H. Zheng, W.A. Lee Sanchez, K. Lin, R. Horng
    • Journal: Advanced Electronic Materials
    • Year: 2024
    • Citations: 1

  • Complementary use of atom probe tomography (APT) and differential hall effect metrology (DHEM) for activation loss in phosphorus-implanted polycrystalline silicon

    • Authors: K. Lin, F. Lee, Y. Chen, Y. Tseng, H. Yen
    • Journal: Scripta Materialia
    • Year: 2024
    • Citations: 3

  • Formation of quaternary Zn(AlxGa1−x)2O4 epilayers driven by thermally induced interdiffusion between spinel ZnGa2O4 epilayer and Al2O3 substrate (Open Access)

    • Authors: S. Bairagi, J. Chang, F.G. Tarntair, K. Järrendahl, C.L. Hsiao
    • Journal: Materials Today Advances
    • Year: 2023
    • Citations: 4

 

CONCLUSION:

Based on his research contributions, Kun-Lin Lin is a highly suitable candidate for the Best Researcher Award. While his technical expertise, publication record, and industrial experience make him a strong contender, enhancing his leadership roles, securing high-profile awards, and expanding his research’s industrial impact would further solidify his position as a top researcher.

Hussein Dalfi | Materials | Best Paper Award

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Assist Prof Dr.Hussein Dalfi | Materials | Best Paper Award

Assist Prof Dr. Hussein Dalfi, University of Wasit, Iraq

Assist. Prof. Dr. Hussein Dalfi is a distinguished academic at the University of Wasit, Iraq. With a focus on [insert field of expertise], Dr. Dalfi has made significant contributions to his field through both research and teaching. He is recognized for his dedication to advancing knowledge and fostering academic growth within the university and the broader academic community. Dr. Dalfi continues to play a pivotal role in shaping the next generation of scholars in Iraq.

Summary:

Assist. Prof. Dr. Hussein Dalfi has established himself as a leading researcher in the field of material engineering, with a particular focus on polymer composites and textile preforms. His research is characterized by its scientific depth, interdisciplinary approach, and high-quality publications. Dr. Dalfi’s contributions are well-recognized, both in academia and in his role as a journal reviewer, positioning him as a strong candidate for the Best Paper Award.

Professional Profiles:

Scopus

🎓 Education :

Dr. Dalfi holds a Ph.D. in Material Engineering from the School of Materials at the University of Manchester, awarded in 2018. His doctoral research contributed significantly to the understanding of polymer composites, particularly in toughening mechanisms through hybridization and fiber architecture. Prior to his Ph.D., Dr. Dalfi completed his B.Sc. and M.Sc. degrees in Material Engineering from Babylon University in 1998 and 2002, respectively, laying a strong foundation for his future academic pursuits.

🏢 Experience:

Dr. Hussein Dalfi is a seasoned academic and researcher in the field of Material Engineering, currently serving as a lecturer at the Mechanical Department, College of Engineering, Wasit University. His extensive experience spans over two decades, beginning with his appointment at Wasit University in 2006. Dr. Dalfi’s academic journey commenced with a B.Sc. and M.Sc. in Material Engineering from Babylon University in 1998 and 2002, respectively. He later pursued a Ph.D. at the University of Manchester, where he focused on polymer composites. Dr. Dalfi’s teaching and research career has been marked by his commitment to advancing knowledge in material science and engineering, particularly in the areas of polymer composites, textile preforms, and mechanical properties of materials.

🛠️ Skills:

Dr. Dalfi possesses a robust skill set in material engineering, with expertise in the following areas:,Polymer Composite Toughening: Specializes in toughening mechanisms using hybridization and fiber architecture to enhance damage tolerance in composite laminates.,Textile Preform Manufacturing: Proficient in producing various textile preforms, including UD, 2D, and 3D structures, and investigating their behavior.,Mechanical Properties Analysis: Experienced in evaluating the mechanical properties of textile composite materials, focusing on flexural strength, damage tolerance, and performance under impact loading.,Microscopy and SEM Analysis: Skilled in characterizing and detecting damage failures using both destructive and non-destructive methods, including optical microscopy and Scanning Electron Microscopy (SEM).,Composite Material Processing: Expertise in composite material manufacturing, particularly using the vacuum bagging process, and balancing in-plane properties with impact resistance.

🏆 Awards:

Dr. Dalfi has been recognized for his contributions to material engineering and his innovative research in polymer composites. Although specific awards are not listed, his extensive publication record and involvement as a reviewer for numerous prestigious journals highlight his standing in the academic community. Dr. Dalfi’s work has been instrumental in advancing the understanding of composite materials and their applications in various engineering fields.

🔬 Research Focus:

Dr. Dalfi’s research is primarily focused on the toughening of polymer composites through hybridization and fiber architecture. His goal is to develop advanced polymer composites with controllable morphologies and properties, suitable for a variety of applications including healthcare, energy, and general engineering. His research adopts a holistic approach, encompassing yarn-level hybridization, fabric weaving, and the functionalization of composites through quasi-static and dynamic testing. Dr. Dalfi’s current research topics include the manufacturing of textile preforms, the investigation of their mechanical properties, and the damage tolerance of textile composite laminates. He is also deeply involved in characterizing damage failures using various scanning techniques and tailoring composite performance to balance in-plane properties with impact loading.

Conclusion:

Given his extensive research contributions, innovative approach to polymer composite toughening, and active role in the scientific community, Assist. Prof. Dr. Hussein Dalfi is well-suited for the Best Paper Award. His work not only advances the understanding of composite materials but also holds significant potential for practical applications across various industries. While there are opportunities for further specialization and innovation, Dr. Dalfi’s current achievements make him a commendable candidate for this recognition.

Publications :

  • Intra-laminar toughening mechanisms to enhance impact damage tolerance of 2D woven composite laminates via yarn-level fiber hybridization and fiber architecture
    • Source: Polymer Composites
    • Year: 2019
    • Authors: H. Dalfi, K.B. Katnam, P. Potluri

 

  • Towards balancing in-plane mechanical properties and impact damage tolerance of composite laminates using quasi-UD woven fabrics with hybrid warp yarns
    • Source: Composite Structures
    • Year: 2019
    • Authors: K.B. Katnam, H. Dalfi, P. Potluri

 

  • Investigation of the impact and post-impact behaviour of glass and glass/natural fibre hybrid composites made with various stacking sequences: Experimental and theoretical analysis
    • Source: Journal of Industrial Textiles
    • Year: 2022
    • Authors: E. Selver, H. Dalfi, Z. Yousaf

 

  • The role of hybridisation and fibre architecture on the post-impact flexural behaviour of composite laminates
    • Source: Journal of Composite Materials
    • Year: 2021
    • Authors: H. Dalfi, K. Babu-Katnum, P. Potluri, E. Selver

 

  • The influence of the inter-ply hybridisation on the mechanical performance of composite laminates: Experimental and numerical analysis
    • Source: Science Progress
    • Year: 2021
    • Authors: H. Dalfi, A.J. Al-Obaidi, H. Razaq

 

  • Effect of twist level on the mechanical performance of S-glass yarns and non-crimp cross-ply composites
    • Source: Journal of Industrial Textiles
    • Year: 2021
    • Authors: H.K. Dalfi, M. Tausif, Z. Yousaf

 

  • Improving the mechanical performance and impact damage tolerance of glass composite laminates via multi-scales of hybridisation
    • Source: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
    • Year: 2022
    • Authors: H. Dalfi

 

  • Effect of intra-yarn hybridisation and fibre architecture on the impact response of composite laminates: Experimental and numerical analysis
    • Source: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
    • Year: 2022
    • Authors: H. Dalfi

 

  • Influence of yarn hybridisation and fibre architecture on the compaction response of woven fabric preforms during composite manufacturing
    • Source: Journal of Industrial Textiles
    • Year: 2022
    • Authors: H.K. Dalfi, Z. Yousaf, E. Selver, P. Potluri

 

  • Improving the impact resistance and damage tolerance of fibre reinforced composites: A review
    • Source: Journal of Composite Materials
    • Year: 2023
    • Authors: H.K. Dalfi, K. Jan, Z. Yousaf, M. Peerzada

 

  • Optimization of the mechanical performance and damage failure characteristics of laminated composites based on fiber orientation
    • Source: Frontiers of Structural and Civil Engineering
    • Year: 2023
    • Authors: H. Dalfi, A. Al-Obaidi, A. Tariq, H. Razzaq, R. Rafiee

 

  • Enhancing the mechanical performance of notched glass/epoxy composite laminates via hybridisation with thermoplastic fibres
    • Source: Journal of Composite Materials
    • Year: 2023
    • Authors: E. Selver, H.K. Dalfi, P. Potluri

 

  • Original Manuscript SCIENCE PROGRESS
    • Source: Science Progress
    • Year: 2021
    • Authors: H. Dalfi, A.J. Al-Obaidi, H. Razaq

 

Praveen N| Materials| Best Researcher Award

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Dr.Praveen N| Materials| Best Researcher Award

Dr , Praveen N, Siddaganga Institute of Technology, India.

Dr. Praveen N is a distinguished academician and researcher at Siddaganga Institute of Technology, India. He is known for his contributions in his field, where he has played a significant role in advancing research and education. With a strong background in engineering and technology, Dr. Praveen N has published numerous papers in reputed journals and conferences. His dedication to innovation and academic excellence makes him a valuable member of the academic community at Siddaganga Institute of Technology.

Summary:

N. Praveen is a dedicated researcher with a clear focus on shape memory alloys, particularly Cu–Al–Mn ternary alloys. The candidate has made significant contributions to the field through numerous publications in high-impact journals and has collaborated effectively with other experts. The use of advanced machining and optimization techniques in their research underlines their technical expertise and relevance to industry applications. However, there is room for broadening their research scope and showcasing more independent research initiatives.

Professional Profiles:

Orcid

🎓 Education :

Doctor of Philosophy (Ph.D.) in Advanced Materials (Shape Memory Alloys),Department of Mechanical Engineering Research Centre, Siddaganga Institute of Technology, Karnataka, VTU Belagavi (2024),Completed a Ph.D. with a focus on the synthesis of Cu-Al-Mn ternary shape memory alloys. The research included optimizing machinability parameters for CNC machining and Wire EDM, contributing to advancements in the field of smart materials.,Master of Technology (M.Tech) in Manufacturing Science and Engineering,Department of Mechanical Engineering, Siddaganga Institute of Technology, Karnataka, VTU Belagavi (2017),Graduated with a CGPA of 9.01, focusing on evaluating the biocompatibility of Cu-Al-Be-Mn quaternary shape memory alloys. This project underscored the integration of materials science and manufacturing engineering.,Bachelor of Engineering (B.E.) in Industrial Engineering and Management,Sri Siddhartha Institute of Technology, Karnataka, SSU Tumakuru (2015),With a CGPA of 8.06, the B.E. degree involved the design and development of a hydraulic jack, laying the,foundation for,expertise in mechanical systems and industrial engineering principles.

🏢 Experience:

Research Assistant,With over five years of experience as a Research Assistant, I have been deeply involved in conducting and analyzing research projects, particularly in the field of advanced materials. I have also mentored undergraduate, postgraduate students, and Ph.D. colleagues, helping them develop research skills and expertise, particularly in the domain of shape memory alloys and machining processes.,Lecturer,Sri Krishna Polytechnic, Bengaluru (March 21, 2018 – May 15, 2018),During my tenure as a lecturer, I imparted knowledge in mechanical engineering subjects, emphasizing practical applications and theoretical understanding, fostering a strong academic foundation for students in polytechnic education.

🛠️ Skills:

Advanced Materials Research: Expertise in the synthesis and characterization of shape memory alloys, with a strong focus on Cu-Al-Mn and Cu-Al-Be-Mn alloys.,Machining and Manufacturing Processes: Skilled in CNC machining, Wire EDM, and optimization of machinability parameters for advanced materials.,Research Mentorship: Experienced in guiding students and researchers in mechanical engineering and materials science projects.,Industrial Training and Interaction: Familiar with the latest technologies and practices in the railway, defense,,manufacturing, and power generation industries.

🏆 Awards:

Patent Application: Filed for an Indian patent titled “An IOT-Based Smart Flexible Air Purifier System” (Patent Application No: 202341079755), which is currently published.,Reviewer for Academic Journal: Actively contribute as a reviewer for the Journal of Institute of Engineers Series-D, Springer Publication, ensuring the quality and relevance of published research.

🔬 Research Focus:

My research primarily revolves around the development and optimization of shape memory alloys, with a special focus on Cu-Al-Mn ternary and Cu-Al-Be-Mn quaternary systems. I am particularly interested in the machinability of these materials, exploring their applications in advanced manufacturing processes, and contributing to the development of smart materials for various industrial applications.

Conclusion:

N. Praveen is a strong contender for the Best Researcher Award due to their specialization in shape memory alloys, prolific publication record, and the industrial relevance of their work. By diversifying their research topics and emphasizing practical applications, the candidate could further strengthen their impact and leadership in the field. Given the candidate’s current trajectory, they are well-positioned for recognition and continued contributions to materials science and engineering.

Publications :

  • Effect of pulse time (Ton), pause time (Toff), peak current (Ip) on MRR and surface roughness of Cu–Al–Mn ternary shape memory alloy using wire EDM
    Authors: N. Praveen, Siddesh Kumar. N. G., C. Durga Prasad, Jayant Giri, Ibrahim Albaijan, U. S. Mallik, T. Sathish
    Source: Journal of Materials Research and Technology, Elsevier
    Year: 2024

 

  • Machinability Study of Cu-Al-Mn Shape Memory Alloys using Taguchi Method
    Authors: N. Praveen, U.S. Mallik, A. G. Shivasiddaramaiah, Rajashekhar Hosalli, C. Durga Prasad, Saravana Bavan
    Source: Journal of Institution of Engineers, Series-D, Springer
    Year: 2024

 

  • Effect of CNC End Milling Parameters on Cu–Al–Mn Ternary Shape Memory Alloys Using Taguchi Method
    Authors: N. Praveen, U. S. Mallik, A. G. Shivasiddaramaiah, N. Nagabhushana, C. Durga Prasad, Shanthala Kollur
    Source: Journal of Institution of Engineers, Series-D, Springer
    Year: 2023

 

  • Synthesis and Wire EDM characteristics of Cu-Al-Mn Ternary Shape Memory Alloys Using Taguchi Method
    Authors: N. Praveen, U. S. Mallik, A. G. Shivasiddaramaiah, R. Suresh, L. Shivaramu, C. Durga Prasad
    Source: Journal of Institution of Engineers, Series-D, Springer
    Year: 2023

 

  • Design and Analysis of Shape Memory Alloys Using Various optimization Techniques
    Authors: N. Praveen, U. S. Mallik, A. G. Shivasiddaramaiah, R. Suresh, L. Shivaramu, C. Durga Prasad
    Source: Advances in Materials and Processing Technologies, Taylor and Francis
    Year: 2023

 

  • Analysis of Cutting Force, Feed Force and Surface Roughness of Cu-Al-Mn Shape Memory Alloys under CNC Turning
    Authors: N. Praveen, U.S. Mallik, A.G. Shivasiddaramaiah
    Source: International Journal of Machining and Machinability of Materials (IJMMM), Inderscience
    Year: 2023

 

  • Study on Effect of Process Parameters on Kerf Width Using Wire Electrical Discharge Machining of Cu-Al-Mn Shape Memory Alloys
    Authors: N. Praveen, U.S. Mallik, A.G. Shivasiddaramaiah
    Source: International Journal of Scientific Research in Science, Engineering and Technology (IJSRSET)
    Year: 2022

 

  • Characterization and Evaluation of Shape Memory Effect of Cu-Zn-Al Shape Memory Alloy
    Authors: N. Lokesh, U. S. Mallik, A. G. Shivasiddaramaiah, T. N. Mohith, N. Praveen
    Source: Journal of Mines, Metals and Fuels
    Year: 2022

 

  • A Study on Material Removal Rate of Cu-Al-Mn Shape Memory Alloys in WEDM
    Authors: N. Praveen, U.S. Mallik, A.G. Shivasiddaramaiah, G. N. Narendra Reddy
    Source: Materials Today: Proceedings
    Year: 2021

 

  • Synthesis and Evaluation of Machining Characteristics of Cu-Al-Mn Ternary Shape Memory Alloys using CNC Wire Electric Discharge Machining
    Authors: N. Praveen, U.S. Mallik, Shivaramu.L, A.G. Shivasiddaramaiah, R. Suresh, Prashantha.S
    Source: AIP Conference Proceedings
    Year: 2020

 

  • Evaluation of Biocompatibility of Cu-Al-Be-Mn Quaternary Shape Memory Alloy
    Authors: A. G. Shivasiddaramaiah, U. S. Mallik, S. Prashanth, N. Praveen, C Anupama
    Source: Materials Today Proceedings
    Year: 2018

 

 

Igor Artyukov | Carbon composites| Best Researcher Award

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Dr . Igor Artyukov | Carbon composites| Best Researcher Award

 Dr . Igor Artyukov ,P.N. Lebedev Physical Institute RAS,Russia

Dr. Igor Artyukov is a distinguished scientist at the P.N. Lebedev Physical Institute of the Russian Academy of Sciences (RAS) in Russia. Specializing in the field of physics, Dr. Artyukov’s research contributions span various areas within physical sciences. The P.N. Lebedev Physical Institute, renowned for its pioneering research in physics, provides a robust platform for his work. Dr. Artyukov’s affiliation with this prestigious institution highlights his standing in the scientific community and his commitment to advancing knowledge in his field.

 

Professional Profiles:

Scopus

Education 🎓

University: National Research Nuclear University MEPhI – Moscow Engineering & Physics Institute (Moscow, Russia)

  • Year of Graduation: 1988 (Honors Diploma)
  • Degree: M.Sc.
  • Faculty: Special Faculty of Physics (SFF)
  • Specialty: Solid State Physics and Quantum Electronics

University: National Research Nuclear University MEPhI – Moscow Engineering & Physics Institute (Moscow, Russia)

  • Year of Graduation: 1992
  • Degree: N/A (Post-graduate education diploma)
  • Specialty: Radiophysics

Management Training and Courses

  • Project Manager Training by the US Industry Coalition (USIC): Minsk, Belorussia, 1999.
  • Project Manager Training by the US Civil R&D Foundation (CRDF) and the International Science and Technology Center (ISTC): Moscow, 2001-2005 (on a regular basis).

Scientific Degree

Organization: P.N. Lebedev Physical Institute of the Russian Academy of Sciences (Moscow, Russia)

  • Degree: Ph.D.
  • Year: 1993
  • Specialty: Optics
  • Ph.D. Thesis: “X-ray Optics for Microscopy and Lithography”

Awards:

  • Honors Diploma: Graduation from the Moscow Engineering & Physics Institute, 1988.
  • Pavlov Award and Bronze Pin: International Academy of Sciences ISCD (Commission for Ecology and Healthcare, Munich, Germany), 2000.
  • Basov Award:
    • For “Development and application of the reflective optics for the wavelength range 35-60 nm” (P.N. Lebedev Physical Institute of the Russian Academy of Sciences), 2007.
    • For “Design and simulation of an X-ray beam for laser-electron generator in material and life sciences” (P.N. Lebedev Physical Institute of the Russian Academy of Sciences), 2017.
    • For “Direct and Inverse diffraction problems for in-vlines surfaces in application for X-ray microscopy and lithography” (P.N. Lebedev Physical Institute of the Russian Academy of Sciences), 2021.

Fields of Expertise:

Theoretical Studies:

  • Design and simulation of optical systems
  • Optical design of high-resolution optical systems for X-ray and EUV lithography and microscopy
  • Monte Carlo simulation of optical and physical processes
  • Development of laser-electron X-ray sources based on inverse Compton scattering
  • Development of X-ray/EUV reflective optical systems for scientific applications

Experimental Studies:

  • Investigation of biological and composite materials with methods of X-ray microtomography
  • X-ray fluorescence spectromicroscopy using synchrotron radiation
  • Soft X-ray/EUV imaging with laser plasma X-ray source and multilayer mirrors

Supervising:

  • K.M. Krymsky: M.Sc., Ph.D. student
  • S.A. Romanova: M.Sc., Ph.D. student
  • M.A. Zotova: M.Sc. student
  • K.V. Gorodnischev: M.Sc. student
  • N.N. Irtuganov: M.Sc, Ph.D. student
  • I.D. Mikheev: B.Sc. student
  • D.A. Paneke: B.Sc., M.Sc., Ph.D. student
  • A.A. Danilov: B.Sc., M.Sc., Ph.D. student

Publications 📚

    1. A. V. Vinogradov, I. A. Artyukov, S. S. Borisova, N. N. Zorev, I. V. Kozhevnikov, I. F. Mikhailov, S. I. Sagitov, and A. I. Fedorenko, “Investigation Of Superpolished Surfaces By X-Ray Scattering,” Proceedings Of SPIE – The International Society For Optical Engineering 1140, 490-501 (1989).
    2. I. Artyukov, A. Vinogradov, and I. Kozhevnikov, “Efficiency Of Grazing-Incidence Optics – The Spiral Collimator,” Applied Optics 30, 4154-4157 (1991).
    3. I. Artyukov, A. Vinogradov, And I. Kozhevnikov, “Maximum Efficiency Of Moving Incidence X-Ray Optics – Spiral Collimators,” Izvestiya Akademii Nauk Sssr Seriya Fizicheskaya 55, 824-828 (1991).
    4. I. Artyukov, L. Balakireva, F. Bijkerk, A. Vinogradov, N. Zorev, I. Kozhevnikov, V. Kondratenko, O. Ogurtsov, A. Ponomarenko, and A. Fedorenko, “Projection X-Ray-Lithography On The Basis Of Point Sources,” Kvantovaya Elektronika 19, 114-127 (1992).
    5. I. Artyukov, A. Vinogradov, And S. Suckewer, “Ray Tracing Computer-Simulation For X-Ray Applications,” In Ultrashort-Wavelength Lasers (1992), Pp. 161-165.
    6. I. A. Artyukov, A. I. Fedorenko, V. V. Kondratenko, S. A. Yulin, And A. V. Vinogradov, “Soft X-Ray Submicron Imaging Experiments With Nanosecond Exposure,” Optics Communications 102, 401-406 (1993).
    7. B. Alaudinov, I. Artyukov, V. Asadchikov, A. Karabekov, And I. Kozhevniikov, “An Optical-Model Of A Surface In The X-Ray Range,” Kristallografiya 39, 605-616 (1994).
    8. I. Artioukov, I. Kozhevnikov, And F. Abeles, “Effects Of Near-Surface Transition Layer On X-Ray Reflection And Scattering,” In Optical Interference Coatings, Pts 1 And 2 (1994), Pp. 692-703.
    9. I. Artyukov, A. Vinogradov, A. Fedorenko, V. Kondratenko, S. Yulin, And S. Suckewer, “Soft-X-Ray Submicron Imaging Experiments With Nanosecond Exposure,” In Ultrashort Wavelength Lasers Ii (1994), Pp. 190-197.
    10. I. A. Artyukov, A. Y. Karabekov, I. V. Kozhevnikov, B. M. Alaudinov, And V. E. Asadchikov, “Experimental Observation Of The Near Surface Layer Effects On X-Ray Reflection And Scattering,” Physica B: Physics Of Condensed Matter 198, 9-12 (1994).
    11. I. Artioukov, A. Vinogradov, V. Asadchikov, Y. Kasyanov, R. Serov, A. Fedorenko, V. Kondratenko, and S. Yulin, “Schwarzschild Soft-X-Ray Microscope For Imaging Of Nonradiating Objects,” Optics Letters 20, 2451-2453 (1995).
    12. I. A. Artioukov And I. V. Kozhevnikov, “Effects Of Near-Surface Transition Layer On X-Ray Reflection And Scattering,” In Proceedings Of SPIE – The International Society For Optical Engineering, 1995), 154-175.
    13. I. A. Artyukov, V. E. Asadchikov, A. V. Vinogradov, Y. S. Kas?Yanov, V. V. Kondratenko, R. V. Serov, A. I. Fedorenko, And S. A. Yulin, “Reflective Soft X-Ray Microscope For The Investigation Of Objects Illuminated By Laser-Plasma Radiation,” Quantum Electronics 25, 919-922 (1995).
    14. I. A. Artioukov, V. E. Asadchikov, And I. V. Kozhevnikov, “Effects Of A Near-Surface Transition Layer On X-Ray Reflection And Scattering,” Journal Of X-Ray Science And Technology 6, 223-243 (1996).
    15. I. A. Artyukov, A. V. Vinogradov, V. V. Kondratenko, A. I. Fedorenko, And S. A. Yulin, “Soft X-Ray Imaging Of Submicron Structures,” Russian Microelectronics 25, 48-53 (1996).