Can Cogun | Production | Research Excellence Award

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Prof. Dr. Can Cogun | Production | Research Excellence Award

Researcher | Cankaya University | Turkey

Prof. Dr. Can Cogun is a distinguished mechanical engineering scholar whose work has significantly advanced machining science, unconventional manufacturing processes, and modern production systems. His research emphasizes electric discharge machining and other nontraditional methods, integrating fundamental understanding with practical industrial applications to improve precision, efficiency, and process reliability. He has contributed extensively to the field through more than a hundred publications in high-impact international journals and conferences, demonstrating strong influence within the global manufacturing research community, as reflected in his citation metrics and recognition of his scholarly impact. His professional experience spans major academic institutions, where he has held leading roles that strengthened engineering education, research capacity, and interdisciplinary collaboration. His leadership has shaped mechanical engineering programs, guided research institutes, and advanced innovation-oriented academic environments. Across his career, he has played key roles in developing academic strategies, promoting quality in engineering scholarship, and fostering the growth of advanced manufacturing research groups. His expertise bridges theoretical modeling, experimental analysis, and system-level manufacturing optimization, enabling contributions that support both scientific advancement and industrial progress.

Profiles: Scopus | Orcid

Featured Publications

Şimşek, Ü., Çoğun, C., & Esen, Z. (2022). Effects of electrolytic copper and copper alloy electrodes on machining performance in electrical discharge machining (EDM). Machining Science and Technology, Advance online publication.

Sarikavak, Y., Turkbas, O. S., & Çoğun, C. (2020). Influence of welding on microstructure and strength of rail steel. Construction and Building Materials, 118220.

Erdem, O., Çoğun, C., Uslan, İ., & Erbas, M. (2020). Thermo-fluid multi-physics modeling and experimental verification of volumetric workpiece material removal by a discharge pulse in electric discharge machining process. Journal of Physics D: Applied Physics, 53(—), Article ab9573.

Erdem, O., Çoğun, C., & Uslan, İ. (2019). Effect of machining on workpiece surface characteristics in electric discharge drilling (EDD). International Journal of Advances in Engineering and Pure Sciences.

Rona, N., Yenisey, M., Kucukturk, G., Gurun, H., Cogun, C., & Esen, Z. (2017). Effect of electrical discharge machining on dental Y-TZP ceramic-resin bonding. Journal of Prosthodontic Research, 61(2), 181–189.

Andrea Cynthia Santos | Operational research | Research Excellence Distinction Award

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Prof. Dr. Andrea Cynthia Santos | Operational research | Research Excellence Distinction Award

Le Havre Normandie University, Engineering Institute of Logistics (ISEL) | France

Prof. Dr. Andréa Cynthia Santos is a leading scholar in Computer Science whose research lies at the intersection of Operations Research, urban systems, and large-scale disaster management. Her work focuses on developing advanced optimization models, algorithms, and decision-support approaches that address complex sociotechnical challenges in industrial, natural, and health-related crisis scenarios. She is widely recognized for contributions to integrated routing, scheduling, robust optimization, network design, drone-based search strategies, and humanitarian logistics in post-disaster environments. Her research is characterized by strong interdisciplinary engagement, combining computational optimization, artificial intelligence, and systems engineering to improve resilience and sustainability in modern cities. She has produced a substantial body of scientific work, including numerous international journal articles, book chapters, and conference contributions, and has played a key role in organizing international scientific events. Beyond her research activity, she has demonstrated significant leadership in academic administration and scientific strategy, including directing major institutional programs, steering research initiatives, and contributing to national and international committees. She has led multiple research projects across national, regional, industrial, and international collaborations, supported by multidisciplinary teams. Her supervision of PhD candidates, postdoctoral researchers, and master’s students reflects her strong commitment to academic mentorship and capacity building. She has also served as an evaluator for global research organizations and participated in expert panels spanning science, technology, and innovation. Her professional experience includes roles in academic governance, digital transformation, international relations, curriculum development, and research program management, positioning her as an influential figure in the fields of operations research, logistics innovation, and sustainable urban systems.

Profiles: Scopus | Orcid

Featured Publications

Barbalho, T. J., Jiménez Laredo, J. L., & Santos, A. C. (2025). The resource-constrained project scheduling problem for risk reduction after industrial disasters involving dangerous substances. OR Spectrum. Advance online publication.

Coco, A. A., Duhamel, C., Santos, A. C., & Haddad, M. N. (2024). Solving the probabilistic drone routing problem: Searching for victims in the aftermath of disasters. Networks, (July 2024).

Duhamel, C., & Santos, A. C. (2024). The strong network orientation problem. International Transactions in Operational Research.

Haddad, M. N., Santos, A. C., Duhamel, C., & Coco, A. A. (2023). Intelligent drone swarms to search for victims in post-disaster areas. Sensors, 23(23), 9540.

De Freitas, C. C., Aloise, D. J., Fontes, F. F. C., Santos, A. C., & Menezes, M. S. (2023). A biased random-key genetic algorithm for the two-level hub location routing problem with directed tours. OR Spectrum, 45, 1–26.

Lei Shi | Cosmology | Young Researcher Award

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Mr. Lei Shi | Cosmology | Young Researcher Award

Associate Professor | Universite Le Havre Normandie | France

Mr. Lei Shi is an accomplished theoretical chemist whose work centers on quantum dynamics, molecular simulations, and the development of advanced computational frameworks for understanding fundamental processes in molecular physics. His research spans high-dimensional quantum simulations, atom surface scattering, hydrogen-bond dynamics in water clusters, and electron cation interactions relevant to cold plasma environments. He has contributed significantly to pushing the limits of realistic quantum simulations, notably achieving a landmark full-dimensional quantum dynamics study using an ab initio neural-network potential energy surface, enabling direct comparison with cutting-edge experimental data. His work integrates time-dependent quantum mechanical methods, machine-learning potential energy surfaces, and tensor decomposition techniques to explore complex dynamical behavior with exceptional accuracy. He has collaborated widely with leading groups in quantum dynamics, contributing to the refinement of potential energy surfaces, the implementation of multilayer multiconfiguration approaches, and the interpretation of spectroscopic signatures in molecular clusters. His publications highlight advances in canonical polyadic finite-basis representation, quantum and classical scattering dynamics, and quantum mechanical transport properties, earning recognition such as editor selections and journal cover features. His professional experience includes conducting and guiding computational research, mentoring doctoral researchers, and contributing to the molecular simulation community through active collaboration networks. Through his combined expertise in quantum theory, numerical modeling, and interdisciplinary scientific exchange, he has established himself as a rising scientist contributing impactful insights into molecular motion, energy transfer, and the quantum nature of matter.

Profiles: Orcid | Google Scholar

Featured Publications

Shi, L., Schröder, M., Meyer, H.-D., Peláez, D., Wodtke, A. M., Golibrzuch, K., Schönemann, A.-M., Kandratsenka, A., & Gatti, F. (2025). Full quantum dynamics study for H atom scattering from graphene. The Journal of Physical Chemistry A.

Bindech, O., Gatti, F., Mandal, S., Marquardt, R., Shi, L., & Tremblay, J. C. (2024). The mean square displacement of a ballistic quantum particle. Molecular Physics.

Shi, L., Schröder, M., Meyer, H.-D., Peláez, D., Wodtke, A. M., Golibrzuch, K., Schönemann, A.-M., Kandratsenka, A., & Gatti, F. (2024). Erratum: “Quantum and classical molecular dynamics for H atom scattering from graphene” [J. Chem. Phys. 159, 194102 (2023)]. The Journal of Chemical Physics.

Shi, L., Schröder, M., Meyer, H.-D., Peláez, D., Wodtke, A. M., Golibrzuch, K., Schönemann, A.-M., Kandratsenka, A., & Gatti, F. (2023). Quantum and classical molecular dynamics for H atom scattering from graphene. The Journal of Chemical Physics, 159, 194102.

Nadoveza, N., Panadés-Barrueta, R. L., Shi, L., Gatti, F., & Peláez, D. (2023). Analytical high-dimensional operators in canonical polyadic finite basis representation (CP-FBR). The Journal of Chemical Physics, 158, (publication date: 2023-03-21).

Quan Zhang | Pharmaceutics | Research Excellence Award

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Dr. Quan Zhang | Pharmaceutics | Research Excellence Award

Chengdu Medical College | China

Dr. Quan Zhang is an accomplished pharmaceutical scientist recognized for his contributions to targeted drug delivery and drugability optimization. His research focuses on developing advanced delivery platforms for tumor immunotherapy, brain disorders, and arthritis, along with improving the pharmacokinetic and therapeutic profiles of polyphenolic compounds and traditional Chinese medicine formulations. He has led numerous competitive research projects, including national-level grants and industry collaborations, and has played a key role in advancing both basic and applied pharmaceutical studies. His work has resulted in a substantial body of high-impact publications, several invention patents, and contributions to academic textbooks. Dr. Zhang has made notable advances in biomimetic nanomedicine, tumor microenvironment–responsive therapeutics, and innovative formulations for alcohol intoxication management, including the discovery of novel active compounds and the development of commercial health products. His research outcomes have influenced the fields of cancer therapy, neurodegenerative disease treatment, and anti-inflammatory drug strategies, integrating molecular design with translational pharmaceutical technology. He has been recognized through talent programs and scientific awards, reflecting his leadership in pharmaceutics and his impact on interdisciplinary drug research.

Profile: Scopus

Featured Publications

Zhang, Q., et al. (2024). Current advances in biomimetic drug delivery system for targeted therapy of rheumatoid arthritis. Acta Pharmaceutica Sinica B.

Zhang, Q., et al. (2024). Co-delivery nanoparticle targeting CAF for simultaneous activating T cell plus NK cell attack in solid tumor. Journal of Controlled Release.

Deng, C., Zhang, Q., Jia, M., Zhao, J., Sun, X., Gong, T., & Zhang, Z. (2019). Tumors and their microenvironment dual-targeting chemotherapy with local immune adjuvant therapy for effective antitumor immunity against breast cancer. Advanced Science, 6, 1801868.

Deng, C., Zhang, Q., He, P., Zhou, B., He, K., Sun, X., Lei, G., Gong, T., & Zhang, Z. (2021). Targeted apoptosis of macrophages and osteoclasts in arthritic joints is effective against advanced inflammatory arthritis. Nature Communications, 12, 2174.

Mao, J., Liu, X., Zhang, L., Chen, Y., Zhou, S., Liu, Y., Ye, J., Xu, X., & Zhang, Q. (2024). Self-nanoemulsifying drug delivery system of morin: A new approach for combating acute alcohol intoxication. International Journal of Nanomedicine, 19, 10569–10588.

Mozhgan Sepahvandian | Computational Chemistry | Best Researcher Award

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Dr. Mozhgan Sepahvandian | Computational Chemistry | Best Researcher Award

Iranian | Iran

Dr. Mozhgan Sepahvandian is a dedicated researcher in inorganic chemistry, contributing to the advancement of materials science through innovative approaches in synthesis, characterization, and application-driven design of inorganic compounds. Her scientific focus spans functional materials, catalytic systems, coordination chemistry, and metal-based structures with potential relevance across energy, environmental, and biomedical domains. She has completed numerous research projects demonstrating strong analytical insight, experimental precision, and a commitment to solving complex chemical challenges. Her publication record includes contributions to peer-reviewed journals indexed in leading scientific databases, reflecting the relevance and impact of her findings within the research community. With active involvement in multiple collaborative scientific initiatives, Dr. Sepahvandian integrates interdisciplinary perspectives into her work, enhancing the applicability of her research outcomes. She has contributed to scientific knowledge through studies exploring structural behavior, reactivity patterns, and advanced material performance, supporting the development of sustainable and efficient chemical solutions. Her engagement in scholarly activities includes reviewing literature, participating in knowledge-exchange platforms, and interacting with researchers across diverse domains. She maintains a strong interest in exploring new inorganic frameworks, optimizing synthesis pathways, and extending the utility of inorganic materials toward emerging technological needs. Her research contributions reflect a clear commitment to scientific excellence, innovation, and the continuous expansion of chemical knowledge, positioning her as a promising and impactful scientist in her field.

Profile: Orcid

Featured Publications

Sepahvandian, M., & Zabardasti, A. (2025). Computational study of dacarbazine–amino acid interactions. Journal of Biomolecular Structure and Dynamics.

Sepahvandian, M., & Zabardasti, A. (2025). Exploring limonene adsorption on magnesium and selenium doped AlP nanosheets: A DFT study. Computational Condensed Matter, 33, e01094.

Sepahvandian, M., Abd Al-Aama, Z. M., Al-Masoudi, H. Q., & Zabardasti, A. (2025). Theoretical investigation of optical properties of adducts of Aun and Cun (n = 1–3) with free base porphyrins. Bulletin of the Chemical Society of Ethiopia, 39(9).

Katarzyna Blochowiak | Temporomandibular Joints | Most Shared Article Award

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Assoc. Prof. Dr. Katarzyna Blochowiak | Temporomandibular Joints | Most Shared Article Award

Poznan University of Medical Sciences | Poland

Assoc. Prof. Dr. Katarzyna Blochowiak is a dental surgeon and periodontology specialist whose research focuses on the diagnostic and clinical significance of salivary biomarkers, particularly in relation to oral and systemic autoimmune conditions. Her work explores the etiology and diagnostic pathways of Sjögren’s syndrome, xerostomia, and other salivary gland disorders, with a strong emphasis on understanding the immunological and functional mechanisms underlying dry mouth, salivary dysfunction, and inflammatory oral diseases. She contributes to advancing minimally invasive diagnostic methods by examining saliva as a non-invasive biological medium for early disease detection and monitoring. Her research extends to the surgical management of oral conditions, integrating clinical expertise with translational approaches that link oral pathology to systemic health. She has authored studies on temporomandibular disorders in patients with autoimmune conditions, the coexistence of xerostomia and focal lymphocytic sialadenitis in Sjögren’s syndrome, and complex diagnostic challenges such as Miescher’s cheilitis. Her work highlights the interplay between oral mucosal diseases, salivary gland dysfunction, and autoimmune processes, contributing to improved diagnostic accuracy, patient outcomes, and interdisciplinary understanding between dentistry, rheumatology, and immunology. In addition to her research contributions, she has served as a peer reviewer for international journals, reflecting her active engagement in scholarly evaluation and scientific quality assurance across her field.

Profiles: Scopus | Orcid

Featured Publications

Wydra-Karbarz, A., Guzera, Z., Batko, B., Moskal, M., & Błochowiak, K. (2025). Temporomandibular disorders in patients with rheumatoid arthritis. Journal of Clinical Medicine, 14(20), 7381.

Błochowiak, K., Kraiz, A., Bowszyc-Dmochowska, M., Paszyńska, E., & Jenerowicz, D. (2025). Miescher’s cheilitis as a diagnostic and therapeutic challenge—A case report. Medicina, 61(2), 299.

Błochowiak, K. (2024). Co-existence of dry mouth, xerostomia, and focal lymphocytic sialadenitis in patients with Sjögren’s syndrome. Applied Sciences, 14(13), 5451.

Belen Cueto Martin | Physical Education | Research Excellence Distinction Award

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Ms. Belen Cueto Martin | Physical Education | Research Excellence Distinction Award

Facultad de Ciencias del Deporte, Granada | Spain

Ms. Belen Cueto Martin is a researcher and academic specializing in sports science, physical education, health promotion through sport, and the physiological and motivational determinants of athletic performance. Her work focuses on the evaluation of training processes, assessment of physical conditioning, psychophysiological responses to sport participation, and the role of educational models in shaping motivation and engagement among students and athletes. She has contributed extensively to studies examining motivational regulation, basic psychological needs in sport education, and the influence of innovative pedagogical methodologies on student outcomes. Her research also explores health-related initiatives in national and international sports federations, particularly within swimming, highlighting the challenges and responsibilities of these organizations in promoting athlete well-being and public health. She has collaborated on multidisciplinary investigations addressing the impact of fortified nutrition on cognitive performance in youth, the effects of joint physical activity programs on family health, and the analysis of physical performance indicators among adolescents. Additionally, her scholarly contributions extend to the study of eating disorder risks in young athletes, especially within female basketball populations, helping to advance early detection and preventive approaches within youth sport. Her expertise is further reflected in work evaluating warm-up strategies, altitude-training physiological markers, and psychometric tools for assessing physical education environments. Through consistent involvement in academic research groups, scientific collaborations, and international dissemination, Belén Cueto-Martín has established a strong profile in applied sport science, educational innovation in physical activity, and evidence-based health promotion in athletic contexts.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Valenzuela-Farias, K. I., de la Cruz-Márquez, J. C., Ávila-Cabreja, J. A., Cueto-Martín, M. B., & Siquier-Coll, J. (2025). Prevalence and risk factors for eating disorders in adolescent female basketball players. Nutrients.

Valenzuela-Farias, K. I., de la Cruz-Márquez, J. C., Ávila-Cabreja, J. A., Cueto-Martín, B., & Siquier-Coll, J. (2025). Incidence of eating disorders in female basketball players aged 10 to 18 years in Grenada: An exploratory pilot study. Preprints.

Burgueño, R., Cueto-Martín, B., Morales-Ortiz, E., & Medina-Casaubón, J. (2020). Influence of sport education on high school students’ motivational response: A gender perspective. Retos.

Burgueño, R., Cueto-Martín, B., Morales-Ortíz, E., & Medina-Casaubón, J. (2020). Influence of sport education on high school students’ motivational response: A gender perspective. Retos. Scopus EID: 2-s2.0-85078771078

Burgueño, R., Morales-Ortíz, E., Macarro-Moreno, J., Medina-Casaubón, J., & Cueto-Martín, B. (2020). Effects of the “MAMI Deporte®” family sports program on parents’ motivation towards sport participation: A randomized controlled intervention. Sustainability, 12(18).

Tun Naw Sut | Chemical Engineering | Best Researcher Award

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Dr. Tun Naw Sut | Chemical Engineering | Best Researcher Award

Sungkyunkwan University | South Korea

Dr. Tun Naw Sut is a nanomedicine and chemical engineering researcher whose work integrates biomimetic membrane science, lipid nanoarchitectonics, and advanced biointerface engineering to address challenges in diagnostics, biosensing, and therapeutic design. His research focuses on constructing lipid-based biomimetic membrane platforms, investigating lipid self-assembly mechanisms, and elucidating how lipid–protein and lipid–nanomaterial interactions influence membrane structure, stability, and function. He has made notable contributions to understanding antimicrobial lipid mixtures, multivalency-driven membrane deformation, cholesterol-dependent membrane behavior, and the mechanobiology of extracellular vesicle mimetics. His extensive publication record spans high-impact journals in nanotechnology, materials science, and biointerfaces, demonstrating expertise in supported lipid bilayers, bicelle-mediated membrane fabrication, plasmonic biosensing platforms, antiviral lipid systems, and membrane-disruptive nanostructures. Professionally, he has engaged in interdisciplinary research environments advancing membrane technologies for biosensing, virus detection, antimicrobial strategies, and therapeutic delivery. He has also contributed to scientific leadership as a guest editor and topic editor in reputable journals, supporting the dissemination of emerging work in biomimicry, functional materials, and membrane science. His research portfolio reflects robust experience in experimental design, membrane characterization, microfluidic lipid nanoparticle development, and the translation of lipid-based systems toward diagnostic and therapeutic applications.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Sut, T. N., Yoon, B. K., & Jackman, J. A. (2025). Synergistic membrane disruption of E. coli tethered lipid bilayers by antimicrobial lipid mixtures. Biomimetics, 10(11), Article 739.

Sut, T. N., & Yoon, B. K. (2024). Editorial for the Special Issue: “Biomimicry and Functional Materials—First, Second, and Third Editions”. Biomimetics, 9(7), 437.

Moon, S., Sut, T. N., Yoon, B. K., & Jackman, J. A. (2024). Unraveling how antimicrobial lipid mixtures disrupt virus-mimicking lipid vesicles: A QCM-D study. Biomimetics, 9(2), 67.

Sut, T. N., Jackman, J. A., & Cho, N.-J. (2023). Cholesterol-enriched hybrid lipid bilayer formation on inverse phosphocholine lipid-functionalized titanium oxide surfaces. Biomimetics, 8(8), 588.

Park, H., Sut, T. N., Yoon, B. K., Zhdanov, V. P., Kim, J. W., Cho, N.-J., & Jackman, J. A. (2022). Multivalency-induced shape deformation of nanoscale lipid vesicles: Size-dependent membrane bending effects. Journal of Physical Chemistry Letters, 13.

Taehyou Oh | Analog | Best Researcher Award

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Prof. Dr. Taehyou Oh | Analog | Best Researcher Award

Professor | Kwangwoon University | South Korea

Prof. Dr. Taehyou Oh is an accomplished scholar in high-speed integrated circuit design with distinguished expertise in advanced I/O architectures, equalization techniques, and multi-channel communication systems. His research centers on high-performance high-speed I/O circuits, including MIMO-based equalization, crosstalk cancellation, far-end crosstalk suppression, adaptive calibration algorithms, and low-power high-data-rate transceiver architectures for next-generation memory and chip-to-chip interfaces. He has made influential contributions to the development of multichannel I/O systems, including innovative analog-IIR receiver designs, FIR transmit drivers, quadrature DFE verification frameworks, and architectures employing signal reutilization for enhanced bandwidth efficiency. His work integrates deep theoretical modeling, algorithm development, mixed-signal circuit implementation, and prototype validation in advanced CMOS technologies. Prof. Oh has authored widely cited journal articles in leading venues such as the IEEE Journal of Solid-State Circuits and has delivered multiple award-winning conference papers presenting breakthroughs in MIMO equalization and high-speed I/O performance optimization. He is also the author of a specialized monograph on multi-channel high-speed I/O circuits published by an international scientific press. His professional experience spans academic research laboratories and global semiconductor companies, where he contributed to channel modeling, timing analysis, and high-speed link verification for advanced computing systems. His technical skill set includes analog and mixed-signal IC design, behavioral modeling, high-frequency simulation, algorithmic prototyping, and expertise with industry-standard tools such as Cadence, ADS, and MATLAB. Prof. Oh’s work continues to shape the evolution of high-speed interface technologies and next-generation communication solutions.

Profile: Scopus | Orcid | Google Scholar

Featured Publications

Oh, T., & Harjani, R. (2013). A 12-Gb/s multichannel I/O using MIMO crosstalk cancellation and signal reutilization in 65-nm CMOS. IEEE Journal of Solid-State Circuits, 48(6), 1383–1397.

Oh, T., & Harjani, R. (2011). A 6-Gb/s MIMO crosstalk cancellation scheme for high-speed I/Os. IEEE Journal of Solid-State Circuits, 46(8), 1843–1856.

Oh, T., & Harjani, R. (2010). A 5 Gb/s 2×2 MIMO crosstalk cancellation scheme for high-speed I/Os. In Proceedings of the IEEE Custom Integrated Circuits Conference (pp. 1–4).

Oh, T., Ward, D., & Dutton, R. (1980). IEEE JSSC (SC-15, 636–643). IEEE Journal of Solid-State Circuits.

Oh, T., & Harjani, R. (2015). Adaptive techniques for joint optimization of XTC and DFE loop gain in high-speed I/O. ETRI Journal, 37(5), 906–916.

Tomasz Lechowicz | Economics | Innovative Research Award

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Mr. Tomasz Lechowicz | Economics | Innovative Research Award

Wyzsza Szkola Biznesu National Louis University | Poland

Mr. Tomasz Lechowicz is an economist whose research focuses on the financial mechanisms shaping real estate markets, with particular emphasis on comparative analyses between Poland, the United Kingdom and Central and Eastern Europe. His work explores how monetary policy, banking supervision, interest rates and financial crises influence housing markets, mortgage accessibility and property financing structures. He has authored books examining the role of financial institutions in real estate market dynamics and published numerous peer-reviewed articles on residential and commercial property financing, housing loans, securitization, the macroeconomic determinants of property cycles and the impact of financial sector decisions on market stability. His research often integrates empirical data with institutional analysis, offering insights into how central banking strategies and regulatory frameworks affect market behaviour, household financing capacity and enterprise investment conditions. Beyond academic contributions, he has accumulated extensive managerial experience across international production, logistics and service sectors, allowing him to combine theoretical economic perspectives with practical organizational knowledge. His professional background includes operational leadership, shift management, team coordination and process optimization in diverse industries. In academia, he teaches subjects related to management, finance, economics, corporate finance, banking, logistics and human resource management, bridging research expertise with applied teaching. His interdisciplinary approach, combining real-world managerial insight with scholarly analysis of financial systems and property markets, positions him as a specialist in understanding how economic policies translate into market outcomes and how organizational efficiency affects competitiveness. He continues to contribute to academic discourse through research, teaching and engagement with institutional and market analyses.

Profiles: Scopus | Orcid

Featured Publications

Kozlovskyi, S., Dluhopolskyi, O., Kozlovskyi, V., Sabat, A., Lechowicz, T., Zayukov, I., & Oliinyk, L. (2025). Assessment of the association between industrial production indicators and business expectations: Implications for sustainable economic development. Sustainability, 17(22), 10087.

Borysiak, O., Brych, V., Manzhula, V., Lechowicz, T., Dluhopolska, T., & Putsenteilo, P. (2025). Synergy of energy-efficient and low-carbon management of the logistics chains within developing distributed generation of electric power: The EU evidence for Ukraine. Energies, 18(20), 5512.

Liashenko, O., Pavlova, O., Pavlov, K., Lechowicz, T., Szarota, R., Nagara, M., & Hrytsiyk, N. (2025). Unveiling tipping points in European sustainability: A nonlinear MARS approach to people, planet, and prosperity. Sustainability, 17(19), 8692.

Lechowicz, T. (2024). Charakterystyka rynku kredytów mieszkaniowych w Polsce i Wielkiej Brytanii latach 2003–2017. Problems of Economics and Law, 2024(7), Article 520.

Lechowicz, T. (2023). Koniunktura na rynku nieruchomości mieszkaniowych i rynku kredytów mieszkaniowych w Polsce i Wielkiej Brytanii. Problems of Economics and Law, 2023(12), Article 519.