Timothy Adekanye | Soil-Plant Relations | Best Researcher Award

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Assoc. Prof. Dr. Timothy Adekanye | Soil-Plant Relations | Best Researcher Award

Associate Professor at Landmark University, Nigeria

Associate Professor Dr. Timothy Adekanye is a distinguished academic and researcher in Agricultural and Biosystems Engineering at Landmark University, Omu Aran, Nigeria. With a Ph.D. in Agricultural Engineering from the University of Ilorin, he has over a decade of teaching experience, progressing from Assistant Lecturer to Associate Professor. He has held various administrative roles, including Head of Department and Coordinator of the Landmark University Center for Agricultural Mechanization (LUCAM). Dr. Adekanye has made significant contributions to research, with numerous Scopus-indexed publications covering agricultural machinery design, food processing, and energy efficiency in agriculture. His work has earned him research grants and international recognition, including participation in the MASHAV International R&D program in Israel. His expertise in optimizing agricultural processes and developing sustainable mechanization solutions positions him as a strong candidate for the Best Researcher Award, though further engagement in interdisciplinary collaborations could further enhance his impact.

Professional Profile 

Education 🎓

Associate Professor Dr. Timothy Adekanye holds a Ph.D. in Agricultural and Biosystems Engineering from the University of Ilorin, Nigeria, where he also obtained his Master’s and Bachelor’s degrees in Agricultural Engineering. His academic journey has been marked by a strong focus on agricultural mechanization, food processing, and sustainable energy solutions. Through his education, he has developed expertise in designing and optimizing agricultural machinery and improving post-harvest technologies. Dr. Adekanye has further enhanced his knowledge through international training, including participation in the prestigious MASHAV International Research and Development program in Israel. His solid educational background, combined with years of research and teaching experience, has positioned him as a leading scholar in agricultural engineering. His commitment to continuous learning and research-driven innovation underscores his contribution to academia and the agricultural sector, making him a highly regarded educator and researcher in his field.

Professional Experience 💼

Associate Professor Dr. Timothy Adekanye has amassed extensive professional experience in agricultural and biosystems engineering, with a strong emphasis on research, teaching, and innovation. He has served as a faculty member at reputable universities, where he has taught courses in agricultural mechanization, food processing, and renewable energy technologies. Over the years, he has led numerous research projects focused on improving agricultural productivity through mechanized solutions, post-harvest management, and sustainable energy applications. Dr. Adekanye has collaborated with both local and international organizations, contributing to policy formulation and the development of innovative agricultural technologies. He has supervised graduate and undergraduate students, guiding them in impactful research endeavors. His professional journey also includes participation in international conferences, workshops, and technical training programs, which have further enriched his expertise. With a dedication to advancing agricultural engineering, Dr. Adekanye continues to be a key contributor to the field, bridging the gap between research and practical application.

Research Interest 🔬

Associate Professor Dr. Timothy Adekanye’s research interests lie at the intersection of agricultural engineering, mechanization, and sustainable food production systems. His work focuses on improving agricultural productivity through innovative mechanization techniques, precision agriculture, and automation. He is particularly interested in post-harvest technology, food processing, and storage solutions that enhance food security and reduce post-harvest losses. Additionally, Dr. Adekanye explores renewable energy applications in agriculture, such as solar-powered irrigation and bioenergy production, to promote sustainability in farming practices. His research also extends to climate-smart agriculture, where he investigates adaptive technologies that mitigate the effects of climate change on food production. Through collaborations with international institutions and industry stakeholders, he contributes to the development of cost-effective and efficient agricultural technologies. His passion for bridging the gap between research and real-world agricultural challenges drives his commitment to finding innovative solutions that benefit farmers, industries, and policymakers alike.

Award and Honor🏆

Associate Professor Dr. Timothy Adekanye has received numerous awards and honors in recognition of his outstanding contributions to agricultural engineering, research, and education. His excellence in academic scholarship has earned him prestigious fellowships and research grants from international organizations. He has been honored with awards for innovation in agricultural mechanization, recognizing his role in developing sustainable and efficient farming technologies. Dr. Adekanye has also received commendations from professional bodies for his dedication to mentoring young researchers and advancing agricultural research. His contributions to climate-smart agriculture and post-harvest technology have been acknowledged through national and international accolades. Additionally, he has been invited as a keynote speaker at global conferences, further solidifying his reputation as a leader in his field. His achievements continue to inspire scholars and professionals, and his commitment to transforming the agricultural sector has earned him well-deserved recognition from academic institutions, industry leaders, and policymakers.

Research Skill🔎

Associate Professor Dr. Timothy Adekanye possesses exceptional research skills, demonstrated through his extensive work in agricultural engineering and mechanization. His expertise spans experimental design, data analysis, and the application of advanced research methodologies to solve real-world agricultural challenges. He is proficient in qualitative and quantitative research, utilizing statistical tools and software to analyze complex data and generate impactful insights. Dr. Adekanye excels in interdisciplinary research, collaborating with experts from various fields to develop innovative solutions for sustainable farming and post-harvest technology. His ability to secure research funding and grants highlights his strategic proposal writing and project management skills. Additionally, his strong technical writing abilities enable him to publish in high-impact journals, furthering scientific knowledge. His mentoring of students and young researchers in research methodologies and best practices underscores his leadership in academia. Dr. Adekanye’s research skills continue to contribute significantly to agricultural advancements and food security initiatives.

Conclusion📝

Dr. Timothy Adesoye Adekanye is a highly qualified and prolific researcher with significant contributions to agricultural engineering, food storage, and mechanization. His extensive publication record, leadership roles, and grant achievements make him a strong candidate for the Best Researcher Award. Strengthening international collaborations, technology commercialization, and student mentorship could further enhance his research impact.

Publications Top Noted📚

  • Effect of biochar on soil properties, soil loss, and cocoyam yield on a tropical sandy loam Alfisol

    • Authors: AO Adekiya, TM Agbede, A Olayanju, WS Ejue, TA Adekanye, TT Adenusi, …

    • Journal: The Scientific World Journal

    • Year: 2020

    • Citations: 182

  • Assessing mechanical properties of natural fibre reinforced composites for engineering applications

    • Authors: DS Olusegun, A Stephen, TA Adekanye

    • Journal: Journal of Minerals and Materials Characterization and Engineering

    • Year: 2012

    • Citations: 174

  • An assessment of cassava processing plants in Irepodun local government areas, Kwara state, Nigeria

    • Authors: TA Adekanye, SI Ogunjimi, AO Ajala

    • Journal: World Journal of Agricultural Research

    • Year: 2013

    • Citations: 86

  • Evaluation of an active evaporative cooling device for storage of fruits and vegetables

    • Authors: TA Adekanye, KO Babaremu

    • Journal: Agricultural Engineering International: CIGR Journal

    • Year: 2019

    • Citations: 35

  • Evaluation of a soybean threshing machine for small-scale farmers

    • Authors: ABOIEO Timothy Adesoye Adekanye

    • Journal: CIGR

    • Year: 2016

    • Citations: 33

  • Pyrolysis of maize cob at different temperatures for biochar production: Proximate, ultimate and spectroscopic characterization

    • Authors: T Adekanye, O Dada, J Kolapo

    • Journal: Research in Agricultural Engineering

    • Year: 2022

    • Citations: 31

  • Performance evaluation of motorized and treadle cowpea threshers

    • Authors: AA Timothy, JO Olaoye

    • Journal: Agricultural Engineering International: CIGR Journal

    • Year: 2013

    • Citations: 30

  • Energy and exergy analyses of okra drying process in a forced convection cabinet dryer

    • Authors: AA Okunola, TA Adekanye, E Idahosa

    • Journal: Research in Agricultural Engineering

    • Year: 2021

    • Citations: 25

  • Biochemical conversion of fruit rind of Telfairia occidentalis (fluted pumpkin) and poultry manure

    • Authors: SO Dahunsi, S Oranusi, VE Efeovbokhan, S Zahedi, JO Ojediran, …

    • Journal: Energy Sources, Part A: Recovery, Utilization, and Environmental Effects

    • Year: 2018

    • Citations: 22

  • Soil properties, okra performance and nutrient compositions as affected by tillage and maize cob ash

    • Authors: AO Adekiya, TM Agbede, CM Aboyeji, KA Adegbite, O Dunsin, …

    • Journal: Journal of Crop Science and Biotechnology

    • Year: 2019

    • Citations: 18

  • Development and evaluation of a rotary power weeder

    • Authors: JO Olaoye, TA Adekanye

    • Journal: Proc. Nigerian Society of Agricultural Engineering

    • Year: 2011

    • Citations: 17

  • Drying Characteristics, Kinetic Modeling, Energy and Exergy Analyses of Water Yam (Dioscorea alata) in a Hot Air Dryer

    • Authors: AA Okunola, TA Adekanye, CE Okonkwo, M Kaveh, M Szymanek, …

    • Journal: Energies

    • Year: 2023

    • Citations: 16

  • Performance evaluation of an indigenous rotary power weeder

    • Authors: JO Olaoye, OD Samuel, TA Adekanye

    • Journal: Energy and Environmental Engineering Journal

    • Year: 2012

    • Citations: 15

  • Evaluation of the degree of agricultural mechanization index on the performance of some farm settlement schemes in southwestern Nigeria

    • Authors: JO Olaoye, TR Amusa, TA Adekanye

    • Journal: Ethiopian Journal of Environmental Studies & Management

    • Year: 2017

    • Citations: 14

  • Properties influencing cracking and separation of palm nuts in a mechanical cracker cum separator

    • Authors: JO Olaoye, TA Adekanye

    • Journal: Croatian Journal of Food Science and Technology

    • Year: 2018

    • Citations: 13

  • The significance of active evaporative cooling system in the shelf life enhancement of vegetables (red and green tomatoes) for minimizing post-harvest losses

    • Authors: KO Babaremu, TA Adekanye, IP Okokpujie, J Fayomi, OE Atiba

    • Journal: Procedia Manufacturing

    • Year: 2019

    • Citations: 12

  • Evaluation of a portable watermelon juice extracting machine

    • Authors: TA Adekanye, OJ Adelakun

    • Journal: Agricultural Engineering International: CIGR Journal

    • Year: 2017

    • Citations: 12

  • Assessment of rice processing operations in Ekiti State, Nigeria

    • Authors: AA Okunola, TA Adekanye, AD Adewumi, F Asamu

    • Journal: International Journal of Civil Engineering and Technology (IJCIET)

    • Year: 2019

    • Citations: 11

  • Design, fabrication and testing of cocoa depodding machine

    • Authors: MO Iyanda, EA Alhassan, TA Adekanye

    • Journal: Mindanao Journal of Science and Technology

    • Year: 2018

    • Citations: 10

  • Comparative energy use in cassava production under different farming technologies in Kwara State of Nigeria

    • Authors: T Adekanye, KC Oni

    • Journal: Environmental and Sustainability Indicators

    • Year: 2022

    • Citations: 9

Sang Yeol Lee | Plant Physiology | Best Researcher Award

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Prof. Dr. Sang Yeol Lee | Plant Physiology | Best Researcher Award

Professor at Gyeongsang National University, South Korea

Prof. Dr. Sang Yeol Lee is a renowned scientist in molecular biology, plant sciences, and biochemistry, with over 290 SCI-indexed international publications. He has made groundbreaking contributions to plant stress responses, enzymology, and cellular mechanisms. He earned his B.S. and M.S. from Seoul National University and a Ph.D. in Biochemistry from KAIST, followed by a postdoctoral fellowship at the NIH, USA. Since 1985, he has been a professor at Gyeongsang National University, currently serving as a Distinguished Professor. His career includes research positions at Kyoto University and NIH, along with leadership roles such as President of the Korean Society for Molecular and Cellular Biology (KSMCB) and Director of the National Core Research Center (NCRC). Recognized with multiple prestigious awards, including Best Scientist honors from KAIST, KSMCB, and NAS, Prof. Lee continues to shape global scientific advancements through his research and academic leadership.

Professional Profile 

Education 🎓

Prof. Dr. Sang Yeol Lee has an extensive academic background in biochemical and life sciences. He earned his B.S. in Food Science & Engineering from Seoul National University in 1980, where he developed a strong foundation in scientific research. He then pursued an M.S. in Enzymology from the same institution, completing it in 1982, focusing on biochemical processes and enzymatic functions. To further advance his expertise, he obtained a Ph.D. in Biochemistry from KAIST in 1985, specializing in molecular and cellular biology. Seeking international exposure, he completed a postdoctoral fellowship at the National Institutes of Health (NIH), USA, from 1987 to 1989, where he worked on advanced biochemical research. His educational journey across prestigious institutions equipped him with the knowledge and skills that have contributed to his outstanding research career, leading to significant advancements in molecular biology, enzymology, and plant sciences.

Professional Experience 💼

Prof. Dr. Sang Yeol Lee has had a distinguished career spanning several decades in academia and research. Since 1985, he has been a professor at Gyeongsang National University (GNU), where he currently serves as a Distinguished Professor. His international research experience includes positions as a Research Professor at Kyoto University, Japan (1990-1991), and at the National Institutes of Health (NIH), USA (1991-1992). He has held significant leadership roles, including serving as the Director of the National Core Research Center (NCRC) and as President of the Korean Society for Molecular and Cellular Biology (KSMCB) in 2015. Additionally, he has been an advisor and appraiser for major research organizations such as KOSEF and the Next Generation BioGreen 21 Project. His extensive contributions in research, academic leadership, and policy development have played a crucial role in advancing molecular biology, plant sciences, and biochemical research in Korea and internationally.

Research Interest 🔬

Prof. Dr. Sang Yeol Lee’s research interests lie in molecular biology, plant sciences, enzymology, and biochemical stress responses. His work focuses on understanding plant stress tolerance mechanisms, particularly in relation to oxidative stress, redox signaling, and protein function in plants. He has made significant contributions to identifying key molecular pathways that regulate plant immunity, stress adaptation, and circadian rhythms. His studies on thioredoxin proteins, peroxiredoxins, and protein chaperones have provided critical insights into how plants respond to environmental challenges such as heat, salt, and oxidative stress. Additionally, his research extends to signal transduction, kinase regulation, and epigenetic modifications in plant development and defense. With over 290 SCI-indexed publications, his work has significantly influenced plant molecular biology and agricultural biotechnology, contributing to the development of stress-resistant crops. His research continues to shape advancements in plant stress physiology and biochemical adaptation strategies in response to climate change.

Award and Honor🏆

Prof. Dr. Sang Yeol Lee has received numerous prestigious awards and honors in recognition of his outstanding contributions to molecular biology, plant sciences, and biochemistry. His achievements include the Distinguished Research Award from Gyeongsang National University (2004) and multiple Best Scientist Awards from organizations such as the Korean Society for Molecular and Cellular Biology (KSMCB), the National Academy of Sciences (NAS), and the Ministry of Education, Science, and Technology (MOEST). He was also recognized as one of Korea’s Best Scientists by the Association of Korean Journalists (2004) and received The Best 100-Scientific Achievements of Korea Award (2022). His scientific leadership earned him the Distinguished Alumni Award from KAIST (2013). With a career marked by national and international accolades, Prof. Lee’s research has significantly influenced plant molecular biology, enzymology, and biotechnology, reinforcing his status as one of Korea’s most distinguished scientists in life sciences.

Research Skill🔎

Prof. Dr. Sang Yeol Lee possesses exceptional research skills in molecular biology, biochemistry, plant sciences, and enzymology. His expertise includes protein biochemistry, redox signaling, gene expression analysis, and stress physiology in plants. He has extensive experience in molecular cloning, protein purification, structural biology, and functional genomics, which he has applied to understanding plant stress responses and cellular adaptation mechanisms. His work on thioredoxin proteins, peroxiredoxins, and kinase signaling pathways has provided groundbreaking insights into oxidative stress regulation, plant immunity, and environmental stress tolerance. Additionally, he is skilled in epigenetic analysis, transcriptomics, and advanced biochemical assays, which have contributed to his over 290 SCI-indexed publications. His ability to integrate cutting-edge biochemical techniques with plant molecular biology has enabled him to make significant contributions to agricultural biotechnology, particularly in developing stress-resistant crops and understanding plant adaptation to climate change. His diverse research skill set continues to advance scientific knowledge in plant sciences.

Conclusion📝

Prof. Sang Yeol Lee is a highly accomplished researcher with exceptional contributions to molecular biology and plant sciences. His impressive publication record, leadership in scientific societies, and multiple prestigious awards strongly support his candidacy for the Best Researcher Award. While he already holds a distinguished position, enhancing international collaborations and industrial applications could further solidify his legacy. Based on his credentials, he is an excellent choice for the award.

Publications Top Noted📚

  • NTRC mediates the coupling of chloroplast redox rhythm with nuclear circadian clock in plant cellsSang-yeol Lee et al., Molecular Plant, 2025

  • FAD and NADPH binding sites of YUCCA6 are essential for chaperone activity and oxidative stress tolerance in Arabidopsis thalianaSang-yeol Lee et al., Plant Physiology and Biochemistry, 2025

  • S-nitrosylation switches the Arabidopsis redox sensor protein, QSOX1, from an oxidoreductase to a molecular chaperone under heat stressSang-yeol Lee et al., Plant Physiology and Biochemistry, 2024 (3 citations)

  • Functional changes of OsTrxm from reductase to molecular chaperone under heat shock stressSang-yeol Lee et al., Plant Physiology and Biochemistry, 2023

Herminia García Mozo | Palynology | Botany Innovation and Discovery Award

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Dr. Herminia García Mozo | Palynology | Botany Innovation and Discovery Award

Profesora titular universidad at  Universidad de cordoba, Spain

Dr. Herminia García Mozo is a distinguished botanist and professor at the University of Córdoba, specializing in aerobiology and predictive pollen modeling. She holds a Ph.D. with a European Doctorate distinction and has received the Best Doctoral Thesis Award from the Spanish Aerobiology Association. With extensive research experience, including international postdoctoral positions in France and Poland, she has made significant contributions to environmental monitoring and public health through her work in pollen forecasting. As a Ramón y Cajal Fellow and later a tenured professor, she has played a key role in advancing botanical sciences. Her teaching, mentorship, and leadership in innovation projects have been recognized with multiple research excellence distinctions. While expanding interdisciplinary collaborations and industry applications could further enhance her impact, her impressive academic and research achievements position her as a strong candidate for the Botany Innovation and Discovery Award.

Professional Profile 

Education 🎓

Dr. Herminia García Mozo holds a Licentiate degree in Biological Sciences from the University of Córdoba (1992–1997). She pursued a doctoral program in Plant Biology at the same university, completing coursework in advanced botanical sciences, including chromatic techniques, aerobiology, and genetic analysis. In 2000, she earned the Research Proficiency certification with a “Sobresaliente” (Outstanding) distinction. She obtained her Ph.D. in 2002 with a European Doctorate distinction, focusing on the optimization of predictive models for Quercus pollen, earning the highest academic honors, “Sobresaliente Cum Laude.” Her doctoral work received the Best Thesis Award from the Spanish Aerobiology Association in 2004. Additionally, she has completed specialized training in pedagogy, earning a Teaching Expert Certificate, and holds language certifications in English (C1), French (B2), and basic Italian. Her academic journey reflects a strong foundation in botany, research methodology, and interdisciplinary expertise, establishing her as a leader in plant sciences.

 

Professional Experience 💼

Dr. Herminia García Mozo has an extensive professional career in botany, aerobiology, and environmental sciences. She is currently a Professor at the University of Córdoba, where she has been teaching and conducting research since 2015. Previously, she held a prestigious Ramón y Cajal Research Fellowship (2008–2015) and completed several postdoctoral research contracts, including positions at the University of Córdoba, the Centre d’Écologie Fonctionnelle et Évolutive (CNRS, France), and Adam Mickiewicz University (Poland). She has also worked on European-funded projects related to asthma and aerobiology, as well as in secondary education and private industry. With over two decades of experience, she has contributed significantly to pollen forecasting models, plant ecology, and environmental monitoring. Her work has been recognized with multiple research excellence awards, and she continues to lead innovative studies in botany, combining scientific expertise with a strong commitment to teaching and mentorship.

Research Interest 🔬

Dr. Herminia García Mozo research interests focus on aerobiology, plant ecology, and environmental monitoring, with a particular emphasis on pollen forecasting and its impact on public health. She specializes in developing predictive models for airborne pollen dispersal, particularly in Mediterranean ecosystems, contributing to allergy prevention and climate change studies. Her work integrates advanced statistical techniques, aerobiological data analysis, and remote sensing to improve short- and long-term pollen forecasts. Additionally, she explores the physiological and ecological factors influencing plant reproduction, seed germination, and fruiting processes. Her interdisciplinary research extends to biodiversity conservation, atmospheric science, and environmental management, enhancing our understanding of plant-environment interactions. She collaborates with national and international institutions, contributing to innovative methodologies in aerobiological monitoring. Through her research, she aims to bridge the gap between botany, climatology, and human health, providing valuable insights for ecological sustainability and public well-being.

Award and Honor🏆

Dr. Herminia García Mozo has received numerous awards and honors in recognition of her outstanding contributions to botany and aerobiology. She earned the Best Doctoral Thesis Award from the Spanish Aerobiology Association in 2004 for her groundbreaking research on pollen forecasting models. Her academic excellence has been acknowledged with the European Doctorate distinction and the prestigious Ramón y Cajal Research Fellowship. She has been awarded four national research evaluation periods (sexenios) by the Spanish Ministry of Education and five regional research evaluation periods by the Andalusian Knowledge Agency, reflecting her sustained contributions to scientific advancements. Additionally, she has been recognized for her excellence in teaching, achieving high evaluation scores and receiving a special mention for her contributions to innovation in higher education. Her achievements highlight her leadership in aerobiology and plant ecology, solidifying her reputation as a leading researcher in environmental and botanical sciences.

Research Skill🔎

Dr. Herminia García Mozo possesses a diverse range of research skills in botany, aerobiology, and environmental sciences. She is highly proficient in pollen forecasting, applying advanced statistical modeling and predictive analysis to study airborne pollen dynamics and their ecological and health impacts. Her expertise includes aerobiological monitoring techniques, such as airborne particle sampling and analysis, which she integrates with climate and environmental data for long-term ecological assessments. She is skilled in molecular biology techniques, including genetic analysis and plant hybridization studies, contributing to a deeper understanding of plant reproduction and adaptation. Additionally, she has experience in chromatography, ecological fieldwork, and remote sensing applications for vegetation analysis. Her interdisciplinary approach combines botany, climatology, and public health research, enabling her to develop innovative methodologies for environmental management. With strong technical and analytical abilities, she continues to advance scientific knowledge in plant ecology and aerobiology, fostering impactful research collaborations.

Conclusion📝

Dr. Herminia García Mozo is an outstanding candidate for the Botany Innovation and Discovery Award. Her extensive research in aerobiology, predictive modeling, and environmental botany, combined with her academic leadership and international collaborations, make her a highly suitable nominee. Addressing the suggested areas for improvement could further elevate her profile, but her current achievements already position her as a strong contender for the award.

Publications Top Noted📚

  • Exploring Pistacia vera pollination: Phenological and aerobiological insights into the main commercial varietiesL. Burgos Miranda, J.A. Oteros, R. López-Orozco, S. Castro-Garcia, H. García-MozoJournal of Agriculture and Food Research, 2025

  • Exploring the influence of meteorological conditions on the variability of olive pollen intradiurnal patterns: Differences between pre- and post-peak periodsM.A. Hernández-Ceballos, R. López-Orozco, P. Ruiz, C. Galán, H. García-MozoScience of the Total Environment, 2024

  • Assessment of the Diversity, Abundance and Range of Invasive Alien Plant Species in Córdoba, a Mediterranean Urban AreaH. García-MozoDiversity, 2024

  • Long-term trends and influence of climate and land-use changes on pollen profiles of a Mediterranean oak forestR. López-Orozco, H. García-Mozo, J.A. Oteros, C. GalánScience of the Total Environment, 202314 Citations

  • Endophytic Beauveria bassiana modifies flowering phenology, floral volatile profile and pollinator behaviour in melonN. González-Mas, M. Cuenca-Medina, H. García-Mozo, I.M. Rodríguez-Gómez, E. Quesada-MoragaEntomologia Generalis, 20233 Citations

  • Factors Driving Autumn Quercus Flowering in a Thermo-Mediterranean AreaH. García-Mozo, R. López-Orozco, J.A. Oteros, C. GalánAgronomy, 20228 Citations

  • Vibrational response of the male ‘Peter’ pistachio branch organs to facilitate artificial pollinationF. Aragon-Rodriguez, S. Castro-Garcia, S. Real-Moreno, R.R. Sola-Guirado, J. Agüera-VegaBiosystems Engineering, 2022