Seba Ausili | Auditory Neuroscience | Best Researcher Award

Posted on by Popular Engineer

Dr. Seba Ausili | Auditory Neuroscience | Best Researcher Award

Senior Scientist, University of Miami, United States

Dr. Sebastián Andrés Ausili is a distinguished auditory neuroscientist from Río Colorado, Argentina. With a Ph.D. in Auditory Neuroscience from Radboud University, his research focuses on cochlear implants, spatial hearing, and auditory processing. Currently a Research Scientist at the University of Miami’s Miller School of Medicine, Dr. Ausili has contributed significantly to understanding the electrode–tissue interface and developing psychometric tools for Spanish-speaking populations. His work bridges clinical practice and research, aiming to improve hearing outcomes for individuals with auditory impairments.

Profile

Orcid

🎓 Education

  • Diploma de Especialización en Audiología (2022–2023): Universidad de Salamanca, Spain.

  • Ph.D. in Auditory Neuroscience (2015–2019): Donders Institute for Brain, Cognition and Behaviour, Radboud University, Netherlands.

  • Ingeniero de Sonido (2007–2014): Tres de Febrero National University, Argentina.

  • Técnico de Sonido y Grabación (2007–2011): Tres de Febrero National University, Argentina.Loop

💼 Professional Experience

  • Research Scientist (2019–Present): University of Miami, Miller School of Medicine, Department of Otolaryngology.

  • Product Area Manager / Clinical & Technical Support (2011–2014): MEDEL Latin America.

  • Sound Reinforcement and Technical Service (2008–2009): JB Sonido.

  • Sound Reinforcement and Video Recording (2007): Clarín Group.

  • Sound Reinforcement (2006–2007): Conde Live Sound.

🏅 Awards and Honors

  • Erasmus+ Mobility Allowance for Training (2017): EU-funded award supporting advanced international training in computational auditory modeling.

🔬 Research Focus

Dr. Ausili’s research centers on auditory neuroscience, with a particular emphasis on cochlear implants, spatial hearing, and auditory processing. He investigates the electrode–tissue interface dynamics post-implantation and develops psychometric tools tailored for Spanish-speaking populations. His work aims to enhance the understanding of auditory mechanisms and improve clinical outcomes for individuals with hearing impairments.

📚Publication Top Notes

1. Sound Localization with Hearables in Transparency Mode

📅 2025-04-25 | Audiology Research
📌 DOI: 10.3390/audiolres15030048
👥 Authors: Sebastián A. Ausili, Nathan Erthal, Christopher Bennett, Hillary A. Snapp
Summary:
This study explores how hearable devices (like earbuds) in transparency mode affect sound localization abilities. The researchers conducted psychophysical experiments demonstrating that while transparency mode helps situational awareness, it can still degrade spatial hearing performance compared to unaided hearing. Implications for hearing aid and hearable design are discussed.

2. Development of a Set of Psychometrically Equivalent Words to Obtain the Speech Recognition Threshold in Rioplatense Spanish

📅 2024 | Federación Argentina de Sociedades de Otorrinolaringología
👥 Authors: Cristiani H, Piegari A, Alonso S, Virgallito O, Sebastián Ausili
Summary:
The team developed and validated a new word list tailored for Rioplatense Spanish to measure Speech Recognition Threshold (SRT). The study ensures psychometric balance, addressing a gap in Spanish-language audiological tools and improving accuracy in regional audiometric diagnostics.

3. A Model Framework for Simulating Spatial Hearing of Bilateral Cochlear Implant Users

📅 2023 | Acta Acustica
📌 DOI: 10.1051/aacus/2023036
👥 Authors: Hongmei Hu, Sebastián A. Ausili, Ben Williges, Jonas Klug, Rebecca C. Felsheim, Deborah Vickers, Mathias Dietz
Summary:
This article presents a computational model that simulates how bilateral cochlear implant users perceive spatial sound. It incorporates head-related transfer functions and neural processing assumptions to predict performance and assess implant strategies.

4. Contralateral Routing of Signal Disrupts Monaural Sound Localization

📅 2023-08-03 | Audiology Research
📌 DOI: 10.3390/audiolres13040051
👥 Authors: Sebastián A. Ausili, Hillary A. Snapp
Summary:
This study investigates the impact of Contralateral Routing of Signal (CROS) hearing aids on monaural sound localization. Results show significant disruption in the ability to localize sounds, emphasizing the need for cautious CROS use in spatially demanding environments.

5. Abordaje clínico de la estimulación facial en implantes cocleares

📅 2023-05-12 | Auditio
📌 DOI: 10.51445/sja.auditio.vol6.2022.0090
👥 Authors: Gabriel Rosanigo, Verónica Del Vecchio, Sebastián Ausili
Summary:
A clinical approach to managing facial nerve stimulation during cochlear implantation. The article reviews cases and discusses strategies to mitigate undesired facial responses, improving patient outcomes.

6. The Effects of Hearing Protection Devices on Spatial Awareness in Complex Listening Environments

📅 2023-01-12 | PLOS ONE
📌 DOI: 10.1371/journal.pone.0280240
👥 Authors: Hillary Snapp, B. Millet, N. Schaefer-Solle, S. M. Rajguru, S. A. Ausili
Summary:
Assesses how earplugs and earmuffs alter spatial hearing in noisy environments. Findings indicate that while protection is critical, spatial cues—especially localization and distance perception—are significantly impaired by most devices.

7. Biological Response Dynamics to Cochlear Implantation: Modeling and Modulating the Electrode–Tissue Interface

📅 2022-11 | Ear & Hearing
📌 DOI: 10.1097/aud.0000000000001236
👥 Authors: Sebastián A. Ausili, Matias Parreño, Florencia Fernandez, Carlos M. Boccio, Federico A. Di Lella
Summary:
This paper models the electrode-tissue interface in cochlear implants, aiming to understand the biological response post-implantation. It also proposes potential strategies for modulating tissue growth to optimize electrical stimulation efficiency.

8. Lateralization of Interaural Level Differences in Children with Bilateral Cochlear Implants

📅 2022-05-04 | Cochlear Implants International
📌 DOI: 10.1080/14670100.2021.2010000
👥 Authors: M. Sparreboom, S. A. Ausili, E. A. M. Mylanus
Summary:
Analyzes how children with bilateral cochlear implants perceive interaural level differences (ILDs), which are crucial for spatial hearing. Results show that age of implantation and auditory training influence lateralization abilities.

9. Bimodal Fitting and Bilateral Cochlear Implants in Children With Significant Residual Hearing

📅 2021-10-04 | Journal of Speech, Language, and Hearing Research
📌 DOI: 10.1044/2021_JSLHR-20-00720
👥 Authors: Marloes Sparreboom, Sebastián Ausili, Martijn J. H. Agterberg, Emmanuel A. M. Mylanus
Summary:
Explores the effectiveness of bimodal versus bilateral cochlear implantation in children with residual hearing. It emphasizes the impact of auditory asymmetry on spatial release from masking and localization skills.

10. Spatial Hearing by Bilateral Cochlear Implant Users With Temporal Fine-Structure Processing

📅 2020 | Frontiers in Neurology
📌 DOI: 10.3389/fneur.2020.00915
👥 Authors: Ausili SA, Agterberg MJH, Engel A, Voelter C, Thomas JP, Brill S, Snik AFM, Dazert S, Van Opstal AJ, Mylanus EAM
Summary:
Evaluates whether advanced signal processing preserving temporal fine structure improves spatial hearing in cochlear implant users. Data suggests a performance boost, especially in dynamic sound localization.

Conclusion:

Dr. Seba Ausili clearly demonstrates the research excellence, leadership, and societal impact that are typically recognized by Best Researcher Awards. His cross-disciplinary expertise, cutting-edge research, and international collaborations place him among the top emerging scientists in auditory neuroscience and audiology.

Mostafa Koozehgar Kaleji | Ekology | Best Researcher Award

Posted on by Popular Engineer

Dr. Mostafa Koozehgar Kaleji |Ekology | Best Researcher Award

Dr, Gorgan University of Agricultural Sciences and Natural Resources, Iran

Dr. Mostafa Koozegar Kaleji is an emerging voice in agroecology and sustainable agriculture. With a Ph.D. from Gorgan University of Agricultural Sciences and Natural Resources, he combines academic research with practical expertise in field management and agricultural innovation. His work bridges plant physiology, soil-plant interactions, and ecosystem services, aiming to optimize food systems while preserving biodiversity. Beyond his publications in high-impact journals, Dr. Kaleji has co-authored several books addressing cultivation techniques and pest management. His role as an Agricultural Specialist in Mazandaran has strengthened his applied research capabilities, ensuring that scientific findings translate into sustainable agricultural practices. Fluent in Persian and English, he actively contributes to global discussions on agroecology.

Profile

Orcid

🎓 Education 

Dr. Kaleji holds a Ph.D. in Agriculture specializing in Agroecology from Gorgan University of Agricultural Sciences and Natural Resources (2018–2023). His doctoral research delved into sustainable farming systems and plant-soil dynamics. He previously earned his M.Sc. in Agroecology from the Islamic Azad University, Karaj Branch (2012–2014), where he explored organic farming and ecosystem services. His academic journey began with a B.Sc. in Agronomy and Plant Breeding from Islamic Azad University, Qaemshahr Branch (2007–2011), focusing on crop genetic improvement and field management. This strong educational foundation has enabled Dr. Kaleji to develop a multi-disciplinary approach to agroecological research, blending theory with practice to address modern agricultural challenges.

🏢 Professional Experience 

Dr. Mostafa Koozegar Kaleji brings over two decades of professional expertise to his research. Since 2013, he has served as an Agricultural Specialist and Production Manager for the Jahad-e-Agriculture Organization, Mazandaran Province, overseeing modernization initiatives in crop production. Previously, he conducted research on cotton cultivars at the Cotton Research Institute (2002–2003), enhancing the region’s fiber crop resilience. From 2001 to 2012, he worked as an Agricultural Expert for the Babolsar Defense Organization, managing large-scale cultivation and harvest programs. His dual engagement in applied and academic settings enables him to bridge gaps between research innovations and field-level applications, fostering sustainable agricultural advancements.

🔬 Research Focus

Dr. Kaleji’s research lies at the intersection of agroecology, sustainable agriculture, plant physiology, soil-plant interactions, and ecosystem services. He investigates how plant-microbial symbioses and ecological management practices improve crop performance, resource-use efficiency, and environmental sustainability. His current work emphasizes biofertilizers like mycorrhizal fungi and Azotobacter to reduce chemical inputs and enhance plant health under varying planting densities. His interest in modeling and simulation tools like DSSAT and spatial analysis via GIS technologies allows him to forecast ecological outcomes in agroecosystems. Dr. Kaleji’s interdisciplinary research aims to contribute directly to regenerative farming and food security strategies.

📚 Publications with Full Details and Summaries

1. Interplay Between ROS and Hormones in Plant Defense Against Pathogens

  • Journal: Plants

  • Publication Date: 2025-04-25

  • DOI: 10.3390/plants14091297

  • Authors: Mostafa Haghpanah, Amin Namdari, Mostafa Koozehgar Kaleji, Azam Nikbakht-dehkordi, Ahmad Arzani, Fabrizio Araniti
    Summary:
    This study examines the intricate network between reactive oxygen species (ROS) and plant hormonal pathways in combating pathogens. Highlighting novel crosstalk mechanisms, the work suggests integrated strategies for breeding disease-resistant plants.

2. Inoculation with Mycorrhiza and Azotobacter chroococcum Affects the Quantitative and Qualitative Characteristics of Eryngium caeruleum at Different Planting Densities

  • Journal: Agronomía Colombiana

  • Publication Date: 2023-08-14

  • DOI: 10.15446/agron.colomb.v41n2.106390

  • Authors: Mostafa Koozehgar Kaleji, Mohammad Reza Ardakani, Sheida Khoshniat
    Summary:
    This paper demonstrates that bio-inoculants improve both biomass and secondary metabolite content in Eryngium caeruleum, promoting the use of eco-friendly agricultural inputs.

3. Quantitative and Qualitative Performance of Froriepia subpinnata as Affected by Mycorrhizal Symbiosis, Compost Tea, and Vermicompost

  • Journal: Unspecified (likely submitted/published in 2024)

  • Author: Mostafa Koozehgar Kaleji
    Summary:
    The study highlights how integrating organic soil amendments and beneficial symbionts boosts the agronomic traits of Froriepia subpinnata, emphasizing low-input sustainable farming models.

Conclusion

Mostafa Koozegar Kaleji shows strong expertise, commitment to agricultural sustainability, real-world impact, and ongoing academic productivity. His profile is very suitable for national-level Best Researcher Awards, especially those emphasizing applied sciences and agriculture.

Yibala Oboma | Public Health | Best Researcher Award

Posted on by Popular Engineer

Assoc. Prof. Dr. Yibala Oboma | Public Health | Best Researcher Award

Senior Lecturer, Mwanza University, Tanzania

Dr. Yibala Ibor Oboma is an Associate Professor and Head of the Department of Pathology at Mwanza University, Tanzania. With over 12 years of experience in medical education and research, he specializes in histopathology, cytopathology, molecular techniques, and epidemiology. Dr. Oboma holds a PhD in Histopathology/Cytopathology from Nnamdi Azikiwe University, Nigeria, and has held academic positions at Niger Delta University, Nigeria. He is a Fellow of the West African Postgraduate College of Medical Laboratory Science and the Medical Laboratory Science Council of Nigeria. His research interests include cervical cancer, hepatotoxicity, and the therapeutic potentials of medicinal plants. Dr. Oboma is committed to advancing public health through innovative education and impactful research.

Profile

Education

Dr. Yibala Ibor Oboma’s academic journey reflects a strong foundation in medical laboratory sciences and pathology. He earned his PhD in Histopathology/Cytopathology from Nnamdi Azikiwe University in 2019, focusing on cervical human papillomavirus detection and immune response evaluation. Prior to that, he obtained a Master of Science in Histopathology/Cytology from Igbinedion University, Okada, in 2012, where his thesis addressed the prevalence of cervical HPV among women in Bayelsa State. His undergraduate degree, a Bachelor of Medical Laboratory Sciences with a specialization in Histopathology, was completed at the University of Calabar in 2006. Dr. Oboma further enhanced his expertise with certifications in Leadership and Management in Health and Epidemiology and Research from Washington University, USA, in 2018 and 2019, respectively. He is also a Fellow of the West African Postgraduate College of Medical Laboratory Science and the Medical Laboratory Science Council of Nigeria.

Professional Experience

Dr. Yibala Ibor Oboma has a distinguished career in academia and medical laboratory science. Currently, he serves as an Associate Professor and Head of the Department of Pathology at Mwanza University, Tanzania, where he also holds the position of Associate Dean in the School of Medicine and Allied Health Sciences. Previously, he held various academic roles at Niger Delta University in Nigeria, including Associate Professor, Senior Lecturer, Lecturer I, and Lecturer II, specializing in Histopathology/Cytopathology. Dr. Oboma has also served as Principal Medical Laboratory Scientist in the Department of Anatomical Pathology at the same institution. His international experience includes a sabbatical leave at Madonna University in Nigeria. He has contributed to the academic community as an external examiner for multiple universities and has been actively involved in curriculum development and research supervision at both undergraduate and postgraduate levels.

Research Focus

Dr. Yibala Ibor Oboma’s research focuses on the intersection of pathology, molecular biology, and public health. His work primarily addresses the epidemiology and molecular characterization of cervical cancer, particularly the role of human papillomavirus (HPV) in its pathogenesis. Dr. Oboma has also investigated the hepatoprotective effects of various medicinal plants, exploring their potential in mitigating liver damage induced by toxins such as carbon tetrachloride. His research extends to the biochemical composition of natural substances, aiming to identify therapeutic agents with antioxidant and anti-inflammatory properties. Dr. Oboma’s studies contribute to the understanding of disease mechanisms and the development of alternative treatment options, with implications for public health strategies in Africa. He has published extensively in peer-reviewed journals, with several of his works being widely cited in the scientific community.

Publication Top Notes

  1. Toxicological studies on the aqueous leaf extract of Pavetta crassipes (K. Schum) in rodents
    Authors: MW Bariweni, OI Yibala, RI Ozolua
    Journal: Journal of Pharmacy & Pharmacognosy Research, 6(1), 1-16
    Year: 2018
    Summary: This study investigates the toxicological profile of Pavetta crassipes leaf extract in rodents, providing insights into its safety and potential therapeutic applications.

  2. Hepatoprotective and antioxidant activities of Spondias mombin leaf and stem extracts against carbon tetrachloride-induced hepatotoxicity
    Authors: LL Nwidu, E Elmorsy, YI Oboma, WG Carter
    Journal: Journal of Taibah University Medical Sciences, 13(3), 262-271
    Year: 2018
    Summary: The research explores the hepatoprotective and antioxidant properties of Spondias mombin extracts, highlighting their potential in combating liver toxicity.

  3. Telfairia occidentalis (Cucurbitaceae) pulp extract mitigates rifampicin-isoniazid-induced hepatotoxicity in an in vivo rat model of oxidative stress
    Authors: LL Nwidu, YI Oboma
    Journal: Journal of Integrative Medicine, 17(1), 46-56
    Year: 2019
    Summary: This study examines the protective effects of Telfairia occidentalis pulp extract against drug-induced liver damage, suggesting its therapeutic potential.

  4. Knowledge and practice of breast cancer self-examination among female students in tertiary institutions in Nigeria
    Authors: FM Onyije, VC Zenebo, YI Oboma
    Journal: Continental Journal of Biomedical Sciences, 4, 75-82
    Year: 2010
    Summary: The paper assesses the awareness and practices related to breast cancer self-examination among Nigerian female students, emphasizing the need for educational interventions.

  5. Hepatoprotective effect of hydromethanolic leaf extract of Musanga cecropioides (Urticaceae) on carbon tetrachloride-induced liver injury and oxidative stress
    Authors: LL Nwidu, YI Oboma, E Elmorsy, WG Carter
    Journal: Journal of Taibah University Medical Sciences, 13(4), 344-354
    Year: 2018
    Summary: This research investigates the hepatoprotective effects of Musanga cecropioides leaf extract,

Conclusion

Dr. Yibala Ibor Oboma is a strong candidate for a Best Researcher Award due to a well-rounded academic career, impactful research in cellular pathology and public health, and demonstrated commitment to capacity building across multiple African institutions. With continued efforts in grant acquisition and international publication, Dr. Oboma’s work will increasingly gain global recognition.

Priya Yadav | Nuclear Chemistry | Best Researcher Award

Posted on by Popular Engineer

Ms. Priya Yadav | Nuclear Chemistry | Best Researcher Award

PhD, Homi Bhabha National Institute Mumbai, India

Ms. Priya Yadav is a dedicated PhD scholar in Computational Chemistry at the Homi Bhabha National Institute, Mumbai, under the supervision of Prof. D.K. Maity. Her academic journey began with a BS-MS dual degree in Chemical Sciences from the Indian Institute of Science Education and Research, Mohali, where she graduated in 2019 with a GPA of 8.3. Priya has consistently demonstrated academic excellence, securing a 10.0 CGPA in her secondary school examinations. She has been awarded the prestigious DST-INSPIRE fellowship by the Government of India and achieved a JRF rank of 98 in Chemical Sciences. Her research interests focus on designing ionic and deep eutectic solvents for the extraction of heavy metals from nuclear waste, employing advanced computational techniques such as ab-initio electronic structure calculations and molecular dynamics simulations.

Profile

Google Scholar​

Education

  • PhD in Computational Chemistry
    Homi Bhabha National Institute, Mumbai, India (2021–Present)
    Supervisor: Prof. D.K. Maity

  • BS-MS Dual Degree in Chemical Sciences
    Indian Institute of Science Education and Research, Mohali, India (2014–2019)
    GPA: 8.3

  • Senior Secondary Examination (Chemistry, Mathematics, Physics)
    Tagore Sr. Sec. School, Mahendergarh, India (2014)
    GPA: 95.4

  • All India Secondary School Examination
    Tagore Sr. Sec. School, Mahendergarh, India (2012)
    GPA: 10.0

Experience

Ms. Priya Yadav has gained substantial research experience through various internships:

  • Intern, Indian Institute of Science Education and Research, Mohali (2016–2018)
    Conducted studies on ambient air analysis, focusing on isoprene and monoterpenes emissions from plant species.

  • Intern, Indian Institute of Science Education and Research, Mohali (2015–2016)
    Engaged in statistical mechanics research under the guidance of Prof. Arvind.

These internships provided her with hands-on experience in environmental analysis and theoretical chemistry, laying a strong foundation for her current research endeavors.

Research Focus

Ms. Priya Yadav’s research is centered on the development of ionic and deep eutectic solvents for the extraction of heavy metals from nuclear waste. She employs advanced computational methods, including ab-initio electronic structure calculations and both ab-initio and classical molecular dynamics simulations, to design and analyze these solvents. Her work aims to address environmental challenges associated with nuclear waste management by creating efficient and sustainable solvent systems.

Publication Top Notes

  1. “Understanding electrocatalytic mechanisms and ultra-trace uranyl detection with Pd nanoparticles electrodeposited in deep eutectic solvents”
    Analyst, 2024, 149, 4464-4476
    This study investigates the electrocatalytic mechanisms and ultra-trace detection abilities of uranyl ions using palladium nanoparticles electrodeposited in deep eutectic solvents. The research achieved a limit of detection of 3.4 nM, validated by density functional theory studies and electrochemical measurements.

  2. “Exploring Structures, Bonding, Energetics and Interactions of Aqua Complexes of Actinide Ions at Various Oxidation States using Density Functional Theory”
    Journal of Molecular Graphics and Modelling, 2025
    This paper delves into the structural, bonding, and energetic properties of aqua complexes of actinide ions across different oxidation states, utilizing density functional theory for comprehensive analysis.

  3. “Significant emissions of dimethyl sulfide and monoterpenes by big-leaf mahogany trees: discovery of a missing dimethyl sulfide source to the atmospheric environment”
    Atmospheric Chemistry and Physics, 2020, 20, 375-389
    This research identifies substantial emissions of dimethyl sulfide and monoterpenes from big-leaf mahogany trees, highlighting a previously unrecognized source of dimethyl sulfide in the atmosphere.

Conclusion

Priya Yadav is a highly talented and dedicated researcher with a remarkable academic trajectory, significant contributions to the field of computational chemistry, and a strong publication record. Her ability to engage with complex problems, her research on deep eutectic solvents, and her leadership in presenting at international conferences make her an excellent candidate for the Best Researcher Award. With further development in collaborative research and interdisciplinary engagement, Priya has the potential to make even greater contributions to both academia and industry.

SEVİM BAVBEK | Biologicals | Best Researcher Award

Posted on by Popular Engineer

Prof. Dr. SEVİM BAVBEK | Biologicals | Best Researcher Award

Prof. Dr. SEVİM BAVBEK, Ankara University, Turkey

Prof. Dr. Sevim Bavbek is a renowned Clinical Professor and Head of the Department of Clinical Immunology and Allergy at Ankara University Medical School, with a distinguished career in allergy and pulmonology. She completed her education and training at Ankara University, Medical School, where she also undertook her pulmonology residency and allergy fellowship. Prof. Dr. Bavbek has made significant contributions to the field of allergy and immunology, particularly in NSAID hypersensitivity, asthma, and atopic dermatitis. Her international collaborations with experts like Prof. Dr. Thomas Platts-Mills and Prof. Dr. Andrew Szczeklik further solidify her position as a key figure in clinical research. Prof. Dr. Bavbek has published over 200 peer-reviewed articles and serves on the editorial boards of several esteemed journals. She is also an active member of multiple prestigious professional societies, including the European Academy of Allergy and Clinical Immunology (EAACI) and the Turkish National Society of Allergy and Clinical Immunology.

Profile

Google Scholar

Education

Prof. Dr. Sevim Bavbek graduated from Ankara University Medical School, where she laid the foundation for her exceptional career in clinical immunology and allergy. Her academic journey continued with a pulmonology residency and allergy fellowship at the same institution, further enhancing her clinical expertise. During her early career, Prof. Dr. Bavbek broadened her international experience by working as a research associate at the University of Virginia Medical Center between 1995 and 1996, collaborating with distinguished researchers like Prof. Dr. Thomas Platts-Mills and Prof. Dr. Martin D. Chapman. This formative period allowed her to explore advanced topics in atopic dermatitis, antigen measurements in house dust, and recombinant allergens, significantly contributing to her understanding of allergic diseases. Her deep academic foundation and clinical training have been the cornerstone of her distinguished career as a professor and leader in the field of allergy and immunology.

Experience

Prof. Dr. Sevim Bavbek has built a distinguished career in clinical immunology and allergy, serving as a Clinical Professor and Head of the Department of Clinical Immunology and Allergy at Ankara University Medical School. With an impressive academic and clinical background, she has collaborated with leading experts in the field of allergy and pulmonology. Her research work includes a notable period as a research associate at the University of Virginia Medical Center (1995-1996), where she focused on atopic dermatitis, antigen measurements in house dust samples, and recombinant allergens. Additionally, in 2003, Prof. Dr. Bavbek worked with Prof. Dr. Andrew Szczeklik in Poland, conducting oral aspirin provocation tests. Throughout her career, she has been a board member of multiple prestigious societies, including the Turkish National Society of Allergy and Clinical Immunology, the European Academy of Allergy and Clinical Immunology, and the Drug Allergy Interest Group. Her work continues to impact both clinical practice and research globally.

Awards and Honors

Prof. Dr. Sevim Bavbek has received multiple awards and honors throughout her career, reflecting her exceptional contributions to the fields of allergy, immunology, and pulmonology. She has earned 30 poster and research awards at national society meetings, underscoring her commitment to advancing scientific understanding in her field. Prof. Dr. Bavbek’s scholarly work has been highly cited, with 203 peer-reviewed articles and an impressive H-index of 32, highlighting the widespread impact of her research. She has been recognized for her work on NSAID hypersensitivity, asthma, and drug allergies, publishing significant papers, including key position statements from the European Academy of Allergy and Clinical Immunology (EAACI). Her leadership roles, including serving as a board member of the Biological Working Group (2013-2019) and Drug Allergy Interest Group (since 2022), further demonstrate her influence and dedication to shaping the future of allergy research and clinical practice.

Research Focus

Prof. Dr. Sevim Bavbek’s primary research focus lies in the diagnosis and management of NSAID hypersensitivity, asthma, drug allergies, and atopic dermatitis. She has played a pivotal role in establishing clinical guidelines for managing NSAID-induced respiratory diseases (N-ERD), making significant contributions to position papers for the European Academy of Allergy and Clinical Immunology (EAACI). Prof. Dr. Bavbek’s work also delves into biologics for allergic disorders and their application in treating severe asthma and other complex allergic conditions. Her research on specific IgE and its relevance in diagnosing fungal and dust mite allergens in atopic dermatitis has been groundbreaking. Additionally, she has contributed extensively to the safety and efficacy of treatments like benralizumab and tezepelumab in severe asthma. Her continued research into improving patient care in allergy and clinical immunology has solidified her as a leading figure in her field, driving forward both scientific discovery and clinical advancements.

Publication Top Notes

  1. Classification and practical approach to the diagnosis and management of hypersensitivity to nonsteroidal anti‐inflammatory drugs
    Allergy 68 (10), 1219-1232
    Cited by: 643 (2013)
    Summary: This paper discusses the various types of hypersensitivity reactions to NSAIDs, providing a structured approach to diagnosis and management based on clinical and laboratory findings.

  2. Hypersensitivity to nonsteroidal anti‐inflammatory drugs (NSAIDs) – classification, diagnosis and management: review of the EAACI/ENDA and GA2LEN/HANNA
    Allergy 66 (7), 818-829
    Cited by: 602 (2011)
    Summary: A review highlighting the classification, diagnosis, and management strategies for NSAID hypersensitivity, providing valuable guidelines for clinical practice.

  3. Diagnosis and management of NSAID‐Exacerbated Respiratory Disease (N‐ERD)—a EAACI position paper
    Allergy 74 (1), 28-39
    Cited by: 409 (2019)
    Summary: This position paper provides comprehensive guidance on diagnosing and managing N-ERD, emphasizing the importance of identifying risk factors and optimizing treatment strategies.

  4. Long-term safety and efficacy of benralizumab in patients with severe, uncontrolled asthma: 1-year results from the BORA phase 3 extension trial
    The Lancet Respiratory Medicine 7 (1), 46-59
    Cited by: 327 (2019)
    Summary: A clinical trial reporting the long-term safety and efficacy of benralizumab in patients with severe, uncontrolled asthma, confirming its beneficial role in asthma management.

Conclusion

Prof. Dr. Sevim Bavbek is an outstanding candidate for the Best Researcher Award, with an impressive portfolio of contributions that have significantly shaped the fields of allergy and clinical immunology. Her extensive research, leadership roles, and international collaborations highlight her as a trailblazer in her field. She has the academic rigor, clinical relevance, and professional engagement required for this award. By expanding her outreach to the public and exploring new areas of research, Prof. Dr. Bavbek has the potential to further elevate her already exceptional career. Her work not only impacts her field but also contributes to the betterment of patient care and the advancement of clinical practices worldwide.

Anton Bryansky | Non-destructive testing | Aerospace Engineering Award

Posted on by Popular Engineer

Mr. Anton Bryansky | Non-destructive testing | Aerospace Engineering Award

Teacher, Henen University of Engineering, China

Dr. Anton Bryansky is a materials scientist specializing in non-destructive testing, acoustic emission analysis, and fiber-optic sensor technologies. Currently serving as a researcher at Henan University of Engineering in Zhengzhou, China, he previously held a postdoctoral position at the Harbin Institute of Technology (2023–2025). Dr. Bryansky earned his Candidate of Technical Sciences degree in Materials Science from Komsomolsk-na-Amure State University, Russia, in 2022. His research has significantly advanced the monitoring and damage assessment of polymer composite materials using innovative sensor systems. He has authored over 25 peer-reviewed publications and contributed to several major research grants in Russia. Dr. Bryansky has also been actively involved in education, serving as a lecturer and member of state attestation commissions. His work bridges experimental materials science with practical applications in structural health monitoring and aerospace engineering.

Profile​

Education

Dr. Anton Bryansky completed his academic journey at Komsomolsk-na-Amure State University in Russia:

  • Bachelor of Chemistry and Chemical Technology (2011–2015)
    His undergraduate thesis focused on investigating the strength anisotropy of ST-69N glass-reinforced plastics produced by vacuum and vacuum-autoclave molding methods.

  • Master of Materials Science and Technologies of Materials (2015–2017)
    His master’s thesis analyzed manufacturing technologies and diagnostics of polymer composite materials.

  • Educator-Researcher Degree in Materials Science (2017–2021)
    Dr. Bryansky’s dissertation, titled “Investigation of the Processes of Damage Accumulation and Destruction of Fiberglass Reinforced Plastics under Various Deformation Conditions in Terms of Acoustic Emission Parameters,” was defended in June 2022.

In addition to his degrees, he has participated in advanced training courses and has been a lecturer at his alma mater.

Employment History

Dr. Anton Bryansky has held several academic and research positions:

  • Postdoctoral Researcher, Harbin Institute of Technology (2023–2025)
    Conducted research on guided waves in composite materials.

  • Head of Laboratory, Komsomolsk-na-Amure State University (2021–2023)
    Led research activities, managed laboratory operations, and supervised student projects.

  • Researcher, Komsomolsk-na-Amure State University (2022–2023)
    Worked on a presidential grant project, focusing on manufacturing experimental FGRP specimens with integrated fiber-optic sensors and analyzing acoustic emission data.

  • Junior Researcher, Komsomolsk-na-Amure State University (2016–2021)
    Engaged in various research projects, including those funded by the Russian Scientific Foundation and the Russian Foundation for Basic Research.

Dr. Bryansky has also contributed to the Institute of Automation and Control Processes Far Eastern Branch of the Russian Academy of Sciences as a junior researcher.

Awards and Honors

Dr. Anton Bryansky has been the principal investigator for several prestigious research grants:

  • Russian Scientific Foundation (RSF) Grant No. 16-19-10149 (2016–2018)
    Focused on developing monitoring systems with distributed adaptive optical-fiber acoustic emission sensors.

  • Russian Foundation for Basic Research (RFBR) Grant No. 19-38-90318/19 (2019–2021)
    Worked on developing criteria for assessing the damage of polymer composite materials using acoustic emission parameters.

  • RSF Grant No. 21-19-00896 (2021–2022)
    Developed new-generation non-destructive testing systems based on adaptive laser holographic transducers of acoustic emission.

  • Presidential Grant Project NSh-452.2022.4 (2022–2023)
    Focused on assessing damage in deformable materials using advanced fiber-optic sensors and acoustic emission analysis.

These grants highlight his leadership in advancing non-destructive testing technologies.

Research Focus

Dr. Anton Bryansky’s research centers on non-destructive testing (NDT), particularly in the evaluation of polymer composite materials (PCMs) using acoustic emission (AE) techniques. He has developed and refined methods for monitoring damage accumulation and structural integrity in PCMs, employing fiber-optic sensors and laser interferometry. His work includes the integration of adaptive holographic sensors and the application of machine learning algorithms, such as Siamese neural networks, for analyzing AE signals. Dr. Bryansky’s research has significant implications for industries like aerospace, shipbuilding, and civil engineering, where material reliability is critical. His interdisciplinary approach combines materials science, sensor technology, and data analysis to enhance the safety and performance of composite structures.

Publication Top Notes

  1. “Investigation of the Staging of Damage Accumulation in Polymer Composite Materials during Bending and Tensile Tests” (Key Engineering Materials, 2021)
    This study presents an analysis of damage progression in PCMs under mechanical stress, utilizing AE parameters to identify stages of damage accumulation.

  2. “Diagnostics of Polymer Composite Materials and Analysis of Their Production Technology Using the Method of Acoustic Emission” (Mechanics of Composite Materials, 2017)
    Explores the application of AE techniques in diagnosing the quality and manufacturing processes of PCMs, offering insights into production-related defects.

  3. “The Small Deformation Assessment of the Integrated Fiber Optic by the Speckle Field Changes Using Siamese Neural Network” (2024 International Conference on Optical Communications and Networks)
    Introduces a novel method for assessing small deformations in fiber-optic sensors using advanced machine learning techniques, enhancing sensitivity and accuracy.

Conclusion

Anton Bryansky is a highly competent and promising candidate for a Research Award in Aerospace Engineering. His deep specialization in non-destructive evaluation and damage diagnostics of composite materials addresses critical areas in aerospace structural integrity and safety. His research has both depth and innovation, particularly in the integration of fiber-optic sensors and laser interferometry for structural health monitoring.

If the award values fundamental contributions to aerospace material reliability, NDT, and sensor-integrated systems, Anton is an excellent fit.

 

 

Shivank Mittal | Structural Health Monitoring | Best Researcher Award

Posted on by Popular Engineer

Mr. Shivank Mittal | Structural Health Monitoring | Best Researcher Award

Ph.D. candidate, Western University, Canada

Shivank Mittal is a Ph.D. candidate in Structural Engineering at the University of Western Ontario, specializing in non-contact structural health monitoring using vision-based methodologies. With a Master of Technology in Civil Engineering from IIT Guwahati and a Bachelor of Technology from Jamia Millia Islamia, he has demonstrated academic excellence and a strong foundation in civil engineering principles. His research focuses on leveraging high-speed camera systems and advanced signal processing techniques for real-time assessment of structural integrity, aiming to enhance sustainability and reduce monitoring costs. Beyond his research, Shivank has contributed to the field through industry experience at COWI India and active involvement in academic teaching and student governance. His work bridges the gap between theoretical research and practical application, positioning him as a promising contributor to the future of civil infrastructure monitoring.

Profile

Education

Ph.D. in Structural Engineering
University of Western Ontario, London, Canada
May 2022 – Present
Thesis Advisor: Dr. Ayan Sadhu

M.Tech. in Civil Engineering
Indian Institute of Technology Guwahati, Assam, India
June 2019 – July 2021
CPI: 9.29/10
Thesis Advisors: Dr. Arunasis ChakrabortyScienceDirect

B.Tech. in Civil Engineering
Jamia Millia Islamia, New Delhi, India
June 2012 – July 2016
CPI: 8.5/10

Shivank’s academic journey reflects a commitment to excellence and a deep understanding of civil engineering principles, providing a solid foundation for his innovative research in structural health monitoring.

Experience

Research Scholar
Smart Cities and Communities Laboratory, University of Western Ontario
May 2022 – Present
Advisor: Dr. Ayan Sadhu
Focused on developing vision-based methodologies using high-speed cameras for non-contact structural health monitoring.

Associate Bridge Engineer
COWI India, Gurugram
August 2021 – April 2022
Worked on the design of pile caps and pier caps for the Jurong Region Line in Singapore, employing Strut and Tie methods.

Research Scholar
Indian Institute of Technology Guwahati
June 2019 – July 2021
Developed SPoTMAn, a MATLAB-based GUI for signal processing in structural health monitoring.

Content Development Expert
IES Master Publication, New Delhi
December 2017 – August 2018
Developed study materials and question papers for competitive exams.

Summer Industrial Intern
Delhi Metro Rail Corporation, New Delhi
June 2015 – July 2015
Gained hands-on experience in construction and concrete mix design.

Shivank’s diverse experiences have equipped him with a unique blend of research acumen and practical engineering skills, enhancing his contributions to the field of structural health monitoring.

Research Focus

Shivank Mittal’s research centers on advancing vision-based structural health monitoring (SHM) methodologies. His work aims to develop cost-effective, non-contact techniques for real-time assessment of structural integrity. By utilizing high-speed camera systems, his research seeks to capture dynamic responses of structures, enabling the identification of potential issues without the need for direct sensor installation. This approach not only reduces maintenance costs but also enhances the safety and longevity of infrastructure. His innovative use of signal processing techniques, including wavelet transforms and non-parametric regression, further refines the accuracy and reliability of SHM systems. Through these advancements, Shivank contributes to the evolution of smart infrastructure monitoring, aligning with the growing emphasis on sustainability and efficiency in civil engineering practices.arXiv+8ResearchGate+8arXiv+8

Publication Top Notes

1. Towards Vision-Based Structural Modal Identification at Low Frame Rate Using Blind Source Separation**

Journal of Infrastructure Intelligence and Resilience, 2024
Co-authored with Ayan Sadhu
This paper presents a novel approach for structural modal identification using low-frame-rate video data, employing blind source separation techniques to enhance the accuracy of modal parameter extraction.ASCE Library+1ScienceDirect+1

2. Recent Advancements and Future Trends in Indirect Bridge Health Monitoring**

Practice Periodical on Structural Design and Construction, 2023
Co-authored with Premjeet Singh and Ayan Sadhu
The article reviews the latest developments in indirect methods for bridge health monitoring, discussing emerging technologies and methodologies in the field.

Conclusion

Shivank Mittal is highly deserving of consideration for the Best Researcher Award, particularly due to:

  • His research innovation in non-contact structural monitoring and signal processing.
  • His strong academic record and real-world engineering experience.
  • His consistent involvement in academia, leadership, and community engagement.

With stronger emphasis on peer-reviewed publications and impact metrics, he would not only be a nominee but a likely winner.

tuğçe oral | Environmental and Public Health | Innovative Research Award

Posted on by Popular Engineer

Assist. Prof. Dr. tuğçe oral | Environmental and Public Health | Innovative Research Award

Phd, Usküdar University, Turkey

Dr. Tuğçe Oral is an Assistant Professor at Üsküdar University, Turkey, specializing in Occupational Health and Safety. Born on April 27, 1990, she has built a career combining academic excellence with practical experience in the field of workplace safety. She earned her undergraduate degree from Istanbul University in 2012, followed by a master’s and PhD in Occupational Health and Safety from Üsküdar University. Dr. Oral has contributed extensively to the academic and professional discourse through her research on risk assessment, workplace ergonomics, and health policies. Her interdisciplinary approach integrates engineering, social sciences, and public health, making her work pivotal in advancing safer work environments. In addition to publishing multiple high-impact articles, she also mentors graduate students and has guided several master’s theses. Dr. Oral remains committed to improving worker safety standards and promoting sustainable occupational health practices both nationally and globally.

Profile

Google Scholar

Education

Dr. Tuğçe Oral’s academic journey began with a bachelor’s degree from Istanbul University in 2012. Driven by her growing interest in workplace safety and public health, she pursued a master’s degree in Occupational Health and Safety at Üsküdar University, completing it in 2020. Her dedication to deepening her expertise led her to continue her studies at the doctoral level at the same institution, culminating in a PhD in 2024. Throughout her academic career, Dr. Oral focused on the intersection of industrial operations and human health, particularly in high-risk environments such as manufacturing and energy sectors. Her research explores innovative methodologies in risk analysis, such as Fine Kinney and FMEA models, and applies them to real-world contexts, including food packaging and tourism. Her solid academic foundation has been instrumental in developing robust educational and safety programs in her field.

Professional Experience

Starting her academic career as a Research Assistant, Dr. Tuğçe Oral has steadily advanced to her current role as an Assistant Professor at Üsküdar University’s Faculty of Health Sciences. She has been deeply involved in the academic development of Occupational Health and Safety as a discipline, contributing both as an educator and researcher. Dr. Oral has supervised graduate theses focused on safety models and legal frameworks, such as her recent work on safety culture in solar power plants. Her professional portfolio includes teaching, curriculum development, and academic publishing. In addition to her university responsibilities, she engages with the wider professional community through collaborative research and peer-reviewed publications. She is known for her applied approach, bridging theoretical knowledge with field-based risk assessments and solutions. Dr. Oral’s leadership in the education of future safety professionals continues to shape standards in occupational health across Turkey and internationally.

Research Focus

Dr. Tuğçe Oral’s research is centered on occupational health, industrial safety, and ergonomic risk analysis. She focuses on evaluating workplace hazards using quantitative and qualitative methods to improve safety protocols in high-risk sectors such as energy, construction, and manufacturing. Her work employs advanced models like Fine Kinney, FMEA, DEMATEL, CODAS, and HRNS to assess and mitigate operational risks. Dr. Oral has also explored the psychosocial aspects of workplace safety, including the effects of social dynamics on treatment outcomes in substance use disorders. Her multi-disciplinary approach integrates technology, policy analysis, and public health to formulate comprehensive risk management strategies. Through her research, she aims to contribute to safer work environments by promoting preventive measures and informed regulatory practices. Dr. Oral is committed to fostering sustainability and worker well-being through innovative and evidence-based health and safety interventions.

Publication Top Notes

  1. 2016-2018 YILLARI ARASINDA SEYAHAT SEKTÖRÜNE AİT İŞ KAZASI VERİLERİNİN DEĞERLENDİRİLMESİ
    Published in Ohs Academy (2020), Cited by 14
    Summary: Evaluates travel industry work accident data from 2016–2018. Proposes improved safety interventions.

  2. MOBİLYA ATÖLYELERİNDE FINE KINNEY YÖNTEMİ İLE RİSK DEĞERLENDİRMESİ UYGULAMASI
    OHS Academy (2019), Cited by 10
    Summary: Applies Fine Kinney method for risk analysis in furniture workshops to identify critical safety hazards.

  3. İnsan sağlığı hizmetleri çalışanlarının maruz kaldığı meslek hastalığı etkenlerinin iş sağlığı ve güvenliği kapsamında incelenmesi
    Genel Sağlık Bilimleri Dergisi (2021), Cited by 9
    Summary: Analyzes occupational diseases among health service workers, recommending preventive strategies.

🧾 Conclusion

Dr. Tuğçe Oral is a highly suitable candidate for the Research for Innovative Research Award. Her combination of academic rigor, methodological innovation, and real-world relevance embodies the award’s mission to recognize forward-thinking, applicable research that contributes to societal well-being and environmental/public health. With further expansion into international networks and practical applications, she has the potential to be a transformative figure in occupational health and safety on a global scale.

Dr. Sami Ullah | Solar Cell | Best Researcher Award

Posted on by Popular Engineer

Dr. Sami Ullah | Solar Cell | Best Researcher Award

Postdoc fellow, Institute of Physics, Slovak academy of sciences, Slovakia

Dr. Sami Ullah is a physicist specializing in photovoltaics, with over five years of research experience in perovskite solar cells. His expertise encompasses laser patterning, thin film preparation, materials characterization, device fabrication, and testing. His research focuses on scaling up perovskite technology, optimizing self-assembled monolayers (SAMs) deposition, vacuum deposition, charge transport layer engineering, and integrating 2D materials into optoelectronics, sensors, and energy harvesting applications.

Profile

Education

  • Ph.D. in Physics (Photovoltaics and Advanced Materials)
    University of Balochistan, Quetta, Pakistan (2019–2022)
    Thesis: Transport Layer Engineering of Efficient Perovskite Solar Cells

  • M.S. in Physics (Nanotechnology and Nanosciences)
    University of Balochistan, Quetta, Pakistan (2014–2016)
    Thesis: ZnO Nanostructure-Based Dye-Sensitized Solar Cells

Work Experience

  • Postdoctoral Researcher
    Institute of Physics, Slovak Academy of Sciences, Bratislava, Slovakia (May 2024–Present)
    Focus: Co-deposition of SAMs for stable inverted perovskite solar cells and fabrication of crystalline FAPbI₃-based p-i-n perovskite solar cells.

  • Lecturer
    Department of Physics, University of Balochistan, Quetta, Pakistan (2012–2024)
    Responsibilities: Teaching and conducting laboratory experiments.

  • Visiting Researcher
    Chimie ParisTech – PSL Research University, Paris, France (2021–2022)
    Achievements: Fabricated n-i-p perovskite solar cells with over 21% power conversion efficiency in a glove box environment.

  • Guest Researcher
    Institute of Physics, Slovak Academy of Sciences, Bratislava, Slovakia (2019–2020)
    Contributions: Engineered transport layers (SnO₂ and NiOₓ), fabricated n-i-p/p-i-n perovskite solar cells, and utilized 2D MXene (Ti₃C₂Tx) as an additive and interlayer.

Awards and Honors

  • Guest Researcher Scholarship
    Higher Education Commission (HEC) of Pakistan, 2021
    Awarded a one-year research stay at Chimie ParisTech, PSL-CNRS, Paris, France.

Research Focus

Dr. Ullah’s research aims to enhance the efficiency and stability of perovskite solar cells. His work on SAMs deposition techniques addresses interfacial charge recombination, improving energy band alignment and surface morphology. Additionally, his exploration of 2D materials like MXene aims to optimize charge transport layers, contributing to the development of high-performance, stable photovoltaic devices.ResearchGate

Publication Top Notes

  1. “Simulation-based optimization of CdS/CdTe solar cells incorporating MXene-enhanced SnO₂ buffer layer: insights from experimentally validated material properties”
    Journal: Solar Energy (2025)
    This study investigates the incorporation of MXene-enhanced SnO₂ buffer layers in CdS/CdTe solar cells, offering insights into material properties and optimization strategies.

  2. “Self-powered TENG probe for scanning surface charge distribution”
    Journal: Nanotechnology (2024)
    The paper presents a self-powered triboelectric nanogenerator (TENG) probe designed for scanning surface charge distributions, highlighting its potential applications in nanoscale measurements.

  3. “Tailoring the electronic properties of the SnO₂ nanoparticle layer for n-i-p perovskite solar cells by Ti₃C₂Tx MXene”
    Journal: Materials Today Communications (2023)
    This research explores the modification of SnO₂ nanoparticle layers with Ti₃C₂Tx MXene to enhance the electronic properties of n-i-p perovskite solar cells.

  4. “Mesoporous SnO₂ Nanoparticle-Based Electron Transport Layer for Perovskite Solar Cells”
    Journal: ACS Applied Nano Materials (2022)
    The article discusses the development of mesoporous SnO₂ nanoparticle-based electron transport layers, aiming to improve the performance of perovskite solar cells.

  5. “A synergistic effect of the ion beam sputtered NiOₓ hole transport layer and MXene doping on inverted perovskite solar cells”
    Journal: Nanotechnology (2022)
    This publication examines the combined effect of ion beam sputtered NiOₓ hole transport layers and MXene doping on the performance of inverted perovskite solar cells.

Conclusion

Dr. Sami Ullah demonstrates a robust and impactful research career characterized by:

  • Innovative contributions to perovskite and thin-film photovoltaics,
  • Cross-disciplinary work involving nanomaterials and sensors,
  • A consistent publication record in prestigious, peer-reviewed journals,
  • Valuable international research collaborations and national academic service.

 

 

ALEXIS KORDOLEMIS | Buckling of thin shells | Best Researcher Award

Posted on by Popular Engineer

Assist. Prof. Dr. ALEXIS KORDOLEMIS | Buckling of thin shells | Best Researcher Award

Assistant Professor, University of Greenwich, United Kingdom

Dr. Alexis Kordolemis is a Lecturer in Mechanical Engineering at the University of Greenwich, UK. Born in Megali Vrisi, Greece, in 1982, he earned his BSc in Civil Engineering from the University of Thessaly (2006), MSc in Computational Mechanics from the National Technical University of Athens (2008), and PhD in Structural Mechanics from the University of Thessaly (2014) under Prof. Antonios E. Giannakopoulos. His doctoral research focused on smart textiles. Dr. Kordolemis has held positions as a Structural Engineer at Guardian Industrial (UK) Ltd. and as a Postdoctoral Research Associate at the University of Bristol’s Bristol Composites Institute and the University of Thessaly. He joined the University of Greenwich in 2020. His research interests include multi-scale modelling, architectured materials, and generalized continuum theories. He is a member of the Technical Chamber of Greece and the Greek Society of Civil Engineers.

Profile

Google Scholar

Orcid

Education 

  • PhD in Structural Mechanics (Smart Textiles): University of Thessaly, Greece (2014).

  • MSc in Computational Mechanics: National Technical University of Athens, Greece (2008).

  • BSc in Civil Engineering: University of Thessaly, Greece (2006).

  • Fellow of Higher Education Academy (FHEA): University of Greenwich, UK (2022).

Experience

  • Lecturer in Mechanical Engineering: University of Greenwich, UK (2020–present).

  • Structural Engineer: Guardian Industrial (UK) Ltd. (2019–2020).

  • Postdoctoral Research Associate: University of Bristol, UK (2015–2019).

  • Postdoctoral Research Associate: University of Thessaly, Greece (2014–2015).

  • Civil Engineer (Construction Site): Highway of Central Greece-E65 (2010–2011).

  • Project Manager: Development Management Company for Central Greece and Thessaly (2013–2015).

Research Focus

Dr. Kordolemis’s research delves into the mechanical behavior of composite materials across multiple scales, from micro to macro. He employs advanced constitutive models derived from generalized continuum theories, such as Cosserat, strain gradient, and couple stress theories, to enhance the understanding of material behavior. His work aims to design more effective structural composite components resistant to failure mechanisms like buckling, delaminations, and cracks. Key areas of interest include structural mechanics, multi-scale modeling, architectured materials, micro-mechanics, and smart materials.

Publication Top Notes

  1. Kordolemis, A., Giannakopoulos, A. E., & Aravas, N. (2017). “Pretwisted beam subjected to thermal loads: a gradient thermoelastic analogue.” Journal of Thermal Stresses, 40(10), 1231–1253. [DOI: 10.1080/01495739.2017.1308810]

    • Summary: This paper presents a theoretical model for the behavior of pretwisted beams under thermal loads, utilizing gradient thermoelastic theory to predict deformation and stress distributions.

  2. Kordolemis, A., & Weaver, P. M. (2017). “Geometric–material analogy for multiscale modelling of twisted plates.” International Journal of Solids and Structures, 110, 24–35. [DOI: 10.1016/j.ijsolstr.2017.02.006]

    • Summary: The authors introduce a multiscale modeling approach that combines geometric and material analogies to analyze the behavior of twisted plates, enhancing the understanding of their mechanical properties.

  3. Kordolemis, A., & Giannakopoulos, A. E. (2014). “Micropolar 2D elastic cables with applications to smart cables and textiles.” Journal of Engineering Mechanics, 140(10), 04014079. [DOI: 10.1061/(ASCE)EM.1943-7889.0000780]

    • Summary: This study develops a micropolar theory for two-dimensional elastic cables, exploring their applications in smart cables and textiles, and providing insights into their mechanical behavior.

  4. Zisis, T., & Kordolemis, A. (2010). “Development of strong surfaces using functionally graded composites inspired by natural teeth—a theoretical approach.” Journal of Engineering Materials and Technology, 132(3), 031004. [DOI: 10.1115/1.4000808]

    • Summary: The paper proposes a theoretical model for creating strong surfaces using functionally graded composites, drawing inspiration from the natural structure of teeth to enhance material strength.

       

Conclusion

Dr. Alexis Kordolemis is highly suitable for consideration for a Best Researcher Award, especially within domains involving composite materials, mechanics of materials, and advanced structural modeling. His academic rigor, international exposure, and applied research expertise make him a standout candidate.