Swathi S | Agricultural and Biological Sciences | Best Researcher Award

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Ms. Swathi S | Agricultural and Biological Sciences | Best Researcher Award

ICAR-National Institute for Plant Biotechnology | India

Swathi S is a dedicated researcher in the field of Molecular Biology and Biotechnology, with a particular focus on crop genetic improvement and sustainable agricultural practices. She has developed a strong foundation in the disciplines of molecular biology, plant genetics, tissue culture, bioinformatics, microbiology, and bioprospecting. Her academic and research journey demonstrates a consistent interest in applying modern biotechnological tools such as CRISPR/Cas9 for gene editing in crops to enhance productivity, resilience, and nutritional quality. She began her career with a deep curiosity about the applications of biotechnology in solving pressing global challenges such as food security, poverty alleviation, and climate resilience. Over time, her passion evolved into a professional commitment toward conducting innovative research that blends theoretical understanding with practical implementation. She has contributed to important scientific projects related to genetic engineering in rice and tomato, aiming to create stress-tolerant and shelf-life–enhanced plant varieties. Swathi has also gained exposure through internships, national-level technical symposiums, and collaborative projects, highlighting her ability to combine academic excellence with leadership in community engagement. With a balanced profile of technical expertise, research publications, and professional qualifications, she has emerged as a promising scientist who is well-prepared to contribute to global agricultural biotechnology advancements.

Professional Profile

Education

Swathi S has pursued a strong academic trajectory in biotechnology, which has equipped her with advanced knowledge and hands-on training in plant molecular biology and genetic engineering. Her academic foundation was established through undergraduate studies in Biotechnology, where she gained an introduction to diverse subjects such as molecular markers, immunology, bioinformatics, and tissue culture. She expanded this base with postgraduate studies in Agricultural Biotechnology, where her thesis focused on gene editing for improving fruit shelf life in tomato. This work provided her with practical exposure to genome-editing tools and enhanced her scientific writing and experimental design skills. Her doctoral program in Molecular Biology and Biotechnology represents the peak of her academic training, where she is exploring salinity-tolerant genes in wild rice species to contribute toward developing resilient crop varieties for farmers. Alongside her degree programs, she successfully cleared competitive national-level examinations, including the CSIR-UGC NET with Junior Research Fellowship and the ASRB-NET, reflecting her academic excellence and research potential. These achievements have not only validated her knowledge in the field but have also positioned her among highly competitive candidates for research and teaching opportunities. Her educational path highlights a commitment to blending theoretical knowledge with innovative applications in agriculture.

Professional Experience

Swathi S has developed a rich professional profile through a combination of internships, research projects, publications, and community engagement. During her academic training, she undertook an internship at the Rajiv Gandhi Centre for Biotechnology, where she gained practical exposure to laboratory methodologies and ongoing research in genetic engineering. She further contributed to a major project in Agricultural Biotechnology focused on applying CRISPR/Cas9 genome-editing tools for the development of thermosensitive genetic male sterile lines in rice. This project enhanced her skills in molecular techniques, experimental design, and plant transformation. Swathi also participated in organizing scientific events such as a national-level technical symposium, where she took on leadership and coordination roles, demonstrating her ability to combine research competence with event management and student engagement. Her professional journey is also marked by scientific writing and publishing, including contributions to reputed journals and conference proceedings. Notably, her published works include a review article on the conservation and sustainable use of wild rice species for seawater tolerance, as well as a research paper on biochemical responses in tomato during ripening. These experiences collectively showcase her growing expertise as a researcher capable of advancing knowledge while also contributing to academic and community platforms.

Research Interests

Swathi S has cultivated a strong set of research interests that revolve around the application of biotechnology to address critical issues in agriculture. Her primary interest lies in the genetic improvement of crops through molecular tools, particularly the use of CRISPR/Cas9 gene-editing systems to enhance desirable traits such as stress tolerance, yield, and post-harvest shelf life. She is fascinated by the genetic diversity found in wild crop species and aims to harness this diversity for the development of resilient varieties suited for changing climatic conditions. Her doctoral research on identifying and characterizing salinity-tolerant genes in wild rice is a direct extension of this vision. In addition, Swathi has a keen interest in functional genomics, plant molecular markers, and bioinformatics applications for gene discovery and characterization. She believes that the integration of traditional plant breeding with molecular biology and genomics has the potential to revolutionize global food security. Swathi also expresses interest in collaborative and interdisciplinary approaches, combining biotechnology with environmental sciences and policy studies to create real-world impact. Her focus remains on contributing to sustainable agriculture, ensuring that farmers have access to improved crops that are both productive and resilient under adverse conditions.

Research Skills

Swathi S possesses a diverse and practical skill set that strengthens her contributions to the biotechnology research community. Her expertise includes molecular biology techniques such as DNA isolation, PCR amplification, and gene cloning, as well as advanced methods like CRISPR/Cas9-mediated genome editing. She is skilled in tissue culture and plant transformation techniques, enabling her to perform functional studies of target genes in crop plants. Her background also includes bioinformatics tools for sequence alignment, marker development, and genetic data analysis, which support her gene characterization studies. Swathi’s research proficiency extends to designing experiments, conducting biochemical assays, and interpreting data for publication-quality outputs. She is equally adept in scientific communication, having authored and co-authored research articles, review papers, and conference presentations. Beyond laboratory expertise, she demonstrates professional skills in teamwork, time management, and project coordination, which were evident in her roles during symposium organization and collaborative projects. She is also proficient in critical thinking and problem-solving, enabling her to approach complex research questions systematically. These skills, coupled with her commitment to continuous learning, position her as a capable young researcher prepared to advance molecular biology and agricultural biotechnology through impactful scientific contributions.

Awards and Honors

Swathi S has received significant recognition for her academic achievements, research potential, and professional qualifications. She successfully cleared the highly competitive CSIR-UGC National Eligibility Test with Junior Research Fellowship and Lectureship, which is an acknowledgment of her strong grasp over fundamental and advanced biotechnology concepts. In addition, she qualified for the Agricultural Scientists Recruitment Board examination, further validating her competency in agricultural sciences. Her academic career includes high distinctions during her undergraduate and postgraduate studies, which were marked by consistent performance and research innovation. She has published research and review articles in reputed platforms such as Plant, Cell & Environment and The Pharma Innovation, journals recognized for their contribution to plant sciences. Swathi has also presented her research at global conferences on agricultural genomics, gaining visibility and feedback from the international research community. During her student years, she demonstrated leadership and initiative by organizing a national-level technical symposium, which earned appreciation for its scope and execution. These achievements highlight her academic dedication, research capacity, and leadership skills, positioning her as a promising young scientist in biotechnology who has already achieved early recognition and is well-prepared for future contributions.

Publication Top Notes

  • Conservation and Sustainable Use of Oryza coarctata for Developing “Sea Water Tolerant Rice” — 2025

  • Abiotic Stress Management via Biotechnological Approaches — 2025

  • Biochemical response of tomato accessions during different ripening stages — 2021

Conclusion

Swathi S represents the profile of an emerging researcher who combines academic excellence, scientific innovation, and leadership qualities in the field of biotechnology. Her contributions to molecular biology, particularly in genetic engineering of crops for stress tolerance and improved productivity, are timely and impactful in addressing global challenges such as climate change and food security. She has demonstrated the ability to translate theoretical concepts into practical research outcomes, as evidenced by her publications, conference presentations, and collaborative projects. Beyond her technical expertise, she has showcased professional attributes such as leadership, communication, and organizational skills, which complement her role as both a scientist and a community contributor. Swathi’s achievements reflect not only her present dedication but also her future potential to grow into a leading researcher who can drive innovations in agricultural biotechnology at the global level. Her work aligns with the larger mission of creating sustainable solutions for farmers and society, making her a deserving candidate for recognition in scientific research. With her continued pursuit of excellence, Swathi is well-positioned to contribute meaningfully to science, academia, and global agricultural development.

Ludivine Delon | Bioengineering | Best Researcher Award

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Dr. Ludivine Delon | Bioengineering | Best Researcher Award

Postdoctoral Researcher from University of South Australia, Norway.

Dr. Ludivine Delon is an accomplished biomedical researcher with a strong interdisciplinary background in cellular and molecular biology, bioengineering, and microfluidic systems. Her expertise lies in developing advanced organ-on-chip models and gastruloid platforms that simulate human physiological processes for in vitro studies. Throughout her academic and research journey, Dr. Delon has demonstrated an exceptional ability to integrate engineering principles with biomedical applications. Her work has significantly contributed to the fields of nanomedicine, placental biology, and tissue engineering. She has collaborated with prestigious institutions across Australia, Europe, and South America and has been involved in innovative projects that combine organoid culture, microfluidic chip development, and particle transport studies. Dr. Delon’s professional journey is marked by her leadership in designing pioneering microfluidic models and her contributions to the scientific community through peer-reviewed publications, conference presentations, and reviewer roles for renowned journals. In addition to her research activities, she has been actively engaged in mentoring undergraduate and graduate students, highlighting her commitment to academic development. Dr. Delon’s strong publication record, international collaborations, and multidisciplinary approach make her a leading figure in her domain, with her work poised to further influence biomedical research and therapeutic innovations.

Professional Profile

Education

Dr. Ludivine Delon’s educational journey is distinguished by a consistent pursuit of excellence in the fields of biomaterials engineering, human nutrition, and biomedical sciences. She earned her Ph.D. in Biomaterials Engineering and Nanomedicine from the University of South Australia in 2020, where her doctoral research focused on developing microfluidic intestine-on-a-chip models to study nanoparticle absorption and mucus interaction. Her Ph.D. work was funded by competitive international scholarships and industry-supported grants, showcasing her ability to secure prestigious funding. Prior to this, she obtained an Engineer Diploma in Food Science and a Master of Science in Human Nutrition from Oniris and Université de Nantes, France, where she conducted international research internships in Chile and France. She also completed a Bachelor of Science in Biology, Chemistry, Physics, Mathematics, and Geology at Lycée Henri IV in Paris, France. Additionally, Dr. Delon participated in international exchange programs in Brazil, further enriching her educational experience with a global perspective. Throughout her education, she gained specialized training in organoid culture and microfluidic device fabrication, which laid the foundation for her groundbreaking research in organ-on-a-chip systems. Dr. Delon’s academic path reflects her dedication to combining life sciences with engineering to solve complex biomedical challenges.

Professional Experience

Dr. Ludivine Delon’s professional experience spans across leading research institutions in Norway, Australia, France, and South America, where she has consistently demonstrated expertise in interdisciplinary biomedical research. She currently serves as a Senior Researcher at the University of Oslo’s Institute for Basic Medical Sciences, focusing on human gastruloid development and the design of trophoblast invasion-on-chip models. Prior to this, she worked as a Postdoctoral Research Fellow at the University of Oslo and Oslo University Hospital, where she contributed to groundbreaking projects on human gastruloid vascularisation and placenta-on-chip models. During her doctoral studies at the University of South Australia, she also served as a laboratory demonstrator, where she instructed pharmacy students in dosage form design and pharmaceutical techniques. Additionally, Dr. Delon worked as a teaching assistant in Chile, where she provided guidance in integrated medical case studies. Her professional background also includes valuable industry-related experiences in food science and agricultural product development in France and Ireland. Across all these roles, Dr. Delon has skillfully combined her research capabilities with teaching, laboratory supervision, and international collaboration. Her career reflects her adaptability, leadership in complex scientific projects, and ability to foster innovation across both academic and industrial environments.

Research Interest

Dr. Ludivine Delon’s research interests are centered on the development and application of organ-on-a-chip technologies, microfluidic devices, and human in vitro models to advance biomedical sciences and drug delivery research. Her primary focus lies in studying cellular behavior, tissue differentiation, and nanoparticle transport under physiologically relevant conditions. She is particularly interested in replicating complex human physiological environments, such as intestinal absorption, placental function, and embryonic development, using advanced microfluidic platforms. Dr. Delon is passionate about developing pumpless, recirculating organ-on-a-chip systems that offer more accurate, controllable, and cost-effective models for pharmacological and toxicological studies. Her interest extends to the use of human gastruloids to investigate early developmental processes and the effect of environmental contaminants on cellular interactions. Additionally, she is driven to explore how bioengineering innovations can improve preclinical testing and reduce the need for animal experimentation. Through her interdisciplinary work, Dr. Delon aims to bridge the gap between engineering, biology, and clinical applications by creating reliable models that can revolutionize drug testing, personalized medicine, and developmental biology. Her future research directions include expanding organ-on-chip systems for studying maternal-fetal interfaces and further enhancing the bio-relevance of in vitro platforms for translational research.

Research Skills

Dr. Ludivine Delon possesses a comprehensive and versatile set of research skills that span bioengineering, cellular and molecular biology, and microfluidics. She is highly proficient in microfluidic device fabrication techniques, including photolithography, soft lithography, laser cutting, and hot pressing, as well as in the computational fluid dynamics simulations essential for designing optimized flow conditions. Dr. Delon’s expertise extends to the development of 2D and 3D cellular models, where she is adept at cell culture, immunofluorescence, permeability assays, and complex tissue engineering using a variety of extracellular matrices. She has substantial experience in organoid and gastruloid culture, flow cytometry, lentiviral transfection, and high-resolution microscopy techniques such as confocal imaging and imaging flow cytometry. Additionally, she is skilled in histology, RNA sequencing sample preparation, and permeability studies using transepithelial electrical resistance (TEER) measurements. Dr. Delon’s capabilities also include animal handling for zebrafish and rodent studies, basic bioprinting protocols, and the development of pumpless microfluidic systems with fine fluid control. Her technical competencies are complemented by her strong command of statistical analysis software, image processing tools, and scientific writing platforms. This diverse and advanced skill set enables her to lead complex research projects with high precision and innovation.

Awards and Honors

Dr. Ludivine Delon has received multiple awards and honors that underscore her excellence and impact as a researcher. Her notable accolades include the prestigious International Research Tuition Scholarship awarded by the University of South Australia, which supported her doctoral studies. She also secured competitive travel and conference grants from UniSA, the Australian Research Council Centre of Excellence in Convergent Bio-Nano Science and Technology (CBNS), and Health Development Adelaide, enabling her to present her research at prominent international conferences. Dr. Delon was the People’s Choice winner in the Three-Minute Thesis (3MT) competition, reflecting her strong science communication skills. Her significant contributions to microfluidic device innovation were recognized with a provisional patent on a pumpless microfluidic organ-on-a-chip system, with licensing opportunities to Tekelek Australia. Additionally, she holds a U.S. patent application related to organ-on-chip technology. Dr. Delon’s academic excellence has been consistently acknowledged through scholarships from institutions in France and Brazil, including the Jules Verne and Brafagri exchange program awards. Her awards not only highlight her scientific creativity and technical proficiency but also demonstrate her ability to translate research into impactful applications. These achievements position her as a highly respected and accomplished researcher in her field.

Conclusion

In conclusion, Dr. Ludivine Delon is an outstanding biomedical researcher with a demonstrated record of excellence in organ-on-chip development, biomaterials engineering, and cellular modeling. Her career reflects a rare combination of technical expertise, scientific curiosity, and dedication to advancing preclinical research methods. Dr. Delon’s pioneering contributions to pumpless microfluidic systems, human gastruloid models, and placental studies have positioned her at the forefront of bioengineering innovation. Through her international collaborations, mentorship roles, and consistent publication of high-impact research, she has significantly enriched the scientific community. While her achievements are commendable, expanding her involvement in translational clinical research and leadership in large-scale international projects could further enhance her impact. Dr. Delon’s strong interdisciplinary background, passion for technological advancement, and proven ability to bridge engineering and biology make her an ideal candidate for prestigious research awards. With her forward-thinking approach and commitment to improving in vitro modeling systems, Dr. Delon is well-positioned to continue making transformative contributions to biomedical sciences and global health research in the years to come.

Publications Top Notes

1. A Systematic Investigation of the Effect of the Fluid Shear Stress on Caco-2 Cells Towards the Optimization of Epithelial Organ-on-Chip Models

  • Authors: L.C. Delon, Z. Guo, A. Oszmiana, C.C. Chien, R. Gibson, C. Prestidge, et al.

  • Journal: Biomaterials 225, 119521

  • Year: 2019

  • Citations: 156

2. Intestine-on-a-Chip Microfluidic Model for Efficient In Vitro Screening of Oral Chemotherapeutic Uptake

  • Authors: K. Pocock, L. Delon, V. Bala, S. Rao, C. Priest, C. Prestidge, B. Thierry

  • Journal: ACS Biomaterials Science & Engineering 3 (6), 951-959

  • Year: 2017

  • Citations: 106

3. Mechanisms of Uptake and Transport of Particulate Formulations in the Small Intestine

  • Authors: L. Delon, R.J. Gibson, C.A. Prestidge, B. Thierry

  • Journal: Journal of Controlled Release 343, 584-599

  • Year: 2022

  • Citations: 41

4. Unlocking the Potential of Organ‐on‐Chip Models Through Pumpless and Tubeless Microfluidics

  • Authors: L.C. Delon, A. Nilghaz, E. Cheah, C. Prestidge, B. Thierry

  • Journal: Advanced Healthcare Materials 9 (11), 1901784

  • Year: 2020

  • Citations: 38

5. Academic User View: Organ-on-a-Chip Technology

  • Authors: M. Busek, A. Aizenshtadt, M. Amirola-Martinez, L. Delon, S. Krauss

  • Journal: Biosensors 12 (2), 126

  • Year: 2022

  • Citations: 30

6. Uptake of Silica Particulate Drug Carriers in an Intestine-on-a-Chip: Towards a Better In Vitro Model of Nanoparticulate Carrier and Mucus Interactions

  • Authors: K. Pocock, L.C. Delon, A. Khatri, C. Prestidge, R. Gibson, C. Barbe, B. Thierry

  • Journal: Biomaterials Science 7 (6), 2410-2420

  • Year: 2019

  • Citations: 30

7. Pump-less, Recirculating Organ-on-a-Chip (rOoC) Platform

  • Authors: M. Busek, A. Aizenshtadt, T. Koch, A. Frank, L. Delon, M.A. Martinez, et al.

  • Journal: Lab on a Chip 23 (4), 591-608

  • Year: 2023

  • Citations: 26

8. Capturing and Quantifying Particle Transcytosis with Microphysiological Intestine‐on‐Chip Models

  • Authors: L.C. Delon, M. Faria, Z. Jia, S. Johnston, R. Gibson, C.A. Prestidge, B. Thierry

  • Journal: Small Methods 7 (1), 2200989

  • Year: 2023

  • Citations: 16

9. Hele Shaw Microfluidic Device: A New Tool for Systematic Investigation into the Effect of the Fluid Shear Stress for Organs-on-Chips

  • Authors: L.C. Delon, Z. Guo, M.N. Kashani, C.T. Yang, C. Prestidge, B. Thierry

  • Journal: MethodsX 7, 100980

  • Year: 2020

  • Citations: 16

10. Identifying Human and Murine M Cells In Vitro

  • Authors: A. Klisuric, B. Thierry, L. Delon, C.A. Prestidge, R.J. Gibson

  • Journal: Experimental Biology and Medicine 244 (7), 554-564

  • Year: 2019

  • Citations: 13

Luciano Benedini | Biomaterials | Best Researcher Award

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Dr. Luciano Benedini | Biomaterials | Best Researcher Award

Researcher/Professor from INQUISUR-CONICET/UNS, Argentina

Dr. Luciano Alejandro Benedini is an accomplished Argentine researcher specializing in pharmaceutical nanotechnology, biomaterials, and drug delivery systems. Serving as an Adjunct Researcher at INQUISUR-CONICET and Assistant Professor at the Universidad Nacional del Sur (UNS) since 2001, he has significantly contributed to the field of pharmaceutical sciences. Dr. Benedini’s work focuses on the development of nanostructured systems for drug delivery, bone tissue engineering, and the study of colloidal properties of pharmaceutical compounds. His extensive publication record includes over 20 peer-reviewed journal articles and multiple book chapters, reflecting his active engagement in cutting-edge research. Additionally, he has been recognized with several prestigious awards, such as the “INNOVAR 2023” distinction and the Aaron and Fanny Fidelef de Nijamkim’s Award for Best PhD in Chemistry. His dedication to research excellence and innovation makes him a strong candidate for the Best Researcher Award.

Professional Profile

Education

Dr. Benedini’s academic journey began with a degree in Pharmacy from the Universidad Nacional del Sur (UNS), completed between 1997 and 2003. He further pursued his passion for research by obtaining a Ph.D. in Chemistry from the same institution, with his doctoral studies spanning from 2008 to 2012. His thesis, titled “Interaction between a biocompatible surfactant with pharmacological interest structures,” delved into the interactions of biocompatible surfactants with pharmacologically relevant structures, laying the groundwork for his future research endeavors in drug delivery systems and nanotechnology. This robust educational foundation has equipped him with the necessary skills and knowledge to excel in the interdisciplinary field of pharmaceutical sciences.

Professional Experience

Dr. Benedini has amassed over two decades of professional experience in both academic and research settings. Since 2001, he has served as an Assistant Professor in the Department of Biology, Biochemistry, and Pharmacy at UNS, where he has been instrumental in teaching and mentoring students. Concurrently, he holds the position of Adjunct Researcher at INQUISUR-CONICET, a role he has fulfilled since 2015. His professional journey also includes valuable international exposure through postdoctoral fellowships at the University of Santiago de Compostela in Spain and Bielefeld University in Germany. These experiences have enriched his research perspective and facilitated collaborations with leading scientists in his field. Additionally, Dr. Benedini has contributed to the public health sector by practicing as a pharmacist from 2003 to 2008, further demonstrating his commitment to applying scientific knowledge for societal benefit.

Research Interests

Dr. Benedini’s research interests are centered around the development of innovative drug delivery systems, with a particular focus on nanotechnology and biomaterials. He explores the design and characterization of nanostructured carriers, such as liposomes and hydroxyapatite-based composites, for targeted and controlled drug release. His work aims to enhance the efficacy and safety of therapeutic agents, especially in the context of bone tissue engineering and regenerative medicine. Additionally, he investigates the physicochemical properties of pharmaceutical compounds and their interactions with biological membranes, contributing to a deeper understanding of drug behavior at the molecular level. Dr. Benedini’s interdisciplinary approach bridges chemistry, biology, and materials science, positioning him at the forefront of pharmaceutical research.

Research Skills

Dr. Benedini possesses a comprehensive skill set that encompasses various aspects of pharmaceutical research. His expertise includes the synthesis and characterization of nanomaterials, formulation of drug delivery systems, and evaluation of their biological performance. He is proficient in techniques such as spectroscopy, electron microscopy, and rheological analysis, which are essential for assessing the structural and functional properties of biomaterials. Furthermore, his experience in conducting in vitro and in vivo studies enables him to translate laboratory findings into potential clinical applications. Dr. Benedini’s collaborative work with international research groups and his role as a reviewer for esteemed scientific journals underscore his analytical acumen and commitment to maintaining high research standards.

Awards and Honors

Dr. Benedini’s contributions to science have been recognized through numerous awards and honors. Notably, he received the “INNOVAR 2023” distinction from the Ministry of Science and Innovation in the Applied Research category for his project on NanoA. His doctoral research earned him the Aaron and Fanny Fidelef de Nijamkim’s Award for Best PhD in Chemistry in 2012. He has been granted several prestigious fellowships, including postdoctoral positions funded by Fundación Carolina and CONICET, facilitating his research endeavors in Spain and Germany. Additionally, his commitment to societal impact is evident from the First Prize awarded at the 2nd Ibero-American Virtual Congress on Environmental Health in 2024 for his work on raising awareness about drug pollution among school-aged children. These accolades reflect Dr. Benedini’s dedication to advancing scientific knowledge and addressing real-world challenges.

Conclusion

Dr. Luciano Benedini exemplifies the qualities of an outstanding researcher through his extensive academic background, innovative research contributions, and commitment to societal impact. His interdisciplinary approach, combining chemistry, biology, and materials science, has led to significant advancements in drug delivery systems and biomaterials. The recognition he has received from both national and international institutions attests to the relevance and quality of his work. Dr. Benedini’s dedication to mentoring, collaboration, and addressing pressing health issues positions him as a leading figure in pharmaceutical research. His achievements make him a deserving candidate for the Best Researcher Award, reflecting his unwavering commitment to scientific excellence and innovation.

Publications Top Notes

  1. Antibacterial alginate/nano-hydroxyapatite composites for bone tissue engineering: Assessment of their bioactivity, biocompatibility, and antibacterial activity
    L. Benedini, J. Laiuppa, G. Santillán, M. Baldini, P. Messina
    Materials Science and Engineering: C, 115, 111101 (2020) — 82 citations

  2. Adsorption/desorption study of antibiotic and anti-inflammatory drugs onto bioactive hydroxyapatite nano-rods
    L. Benedini, D. Placente, J. Ruso, P. Messina
    Materials Science and Engineering: C, 99, 180–190 (2019) — 56 citations

  3. The ascorbyl palmitate-water system: Phase diagram and state of water
    L. Benedini, E.P. Schulz, P.V. Messina, S.D. Palma, D.A. Allemandi, P.C. Schulz
    Colloids and Surfaces A: Physicochemical and Engineering Aspects, 375 (1–3) (2011) — 50 citations

  4. Multi-drug delivery system based on lipid membrane mimetic coated nano-hydroxyapatite formulations
    D. Placente, L.A. Benedini, M. Baldini, J.A. Laiuppa, G.E. Santillán, …
    International Journal of Pharmaceutics, 548 (1), 559–570 (2018) — 42 citations

  5. Biomimetic fiber mesh scaffolds based on gelatin and hydroxyapatite nano-rods: Designing intrinsic skills to attain bone reparation abilities
    J. Sartuqui, A.N. Gravina, R. Rial, L.A. Benedini, L.H. Yahia, J.M. Ruso, …
    Colloids and Surfaces B: Biointerfaces, 145, 382–391 (2016) — 39 citations

  6. Self-assembly of 33-mer gliadin peptide oligomers
    M.G. Herrera, L.A. Benedini, C. Lonez, P.L. Schilardi, T. Hellweg, …
    Soft Matter, 11 (44), 8648–8660 (2015) — 36 citations

  7. Colloidal properties of amiodarone in water at low concentration
    L. Benedini, P.V. Messina, R.H. Manzo, D.A. Allemandi, S.D. Palma, E.P. Schulz, …
    Journal of Colloid and Interface Science, 342 (2), 407–414 (2010) — 35 citations

  8. Ascorbyl palmitate interaction with phospholipid monolayers: electrostatic and rheological preponderancy
    M. Mottola, N. Wilke, L. Benedini, R.G. Oliveira, M.L. Fanani
    Biochimica et Biophysica Acta (BBA) – Biomembranes, 1828 (11), 2496–2505 (2013) — 33 citations

  9. Biopolymers for medical applications
    J.M. Ruso, P.V. Messina
    CRC Press (2017) — 31 citations

  10. Surface phase behavior and domain topography of ascorbyl palmitate monolayers
    L. Benedini, M.L. Fanani, B. Maggio, N. Wilke, P. Messina, S. Palma, P. Schulz
    Langmuir, 27 (17), 10914–10919 (2011) — 31 citations

  11. Assessment of synergistic interactions on self-assembled sodium alginate/nano-hydroxyapatite composites: to the conception of new bone tissue dressings
    L. Benedini, D. Placente, O. Pieroni, P. Messina
    Colloid and Polymer Science, 295, 2109–2121 (2017) — 19 citations

  12. Study of the influence of ascorbyl palmitate and amiodarone in the stability of unilamellar liposomes
    L. Benedini, S. Antollini, M.L. Fanani, S. Palma, P. Messina, P. Schulz
    Molecular Membrane Biology, 31 (2–3), 85–94 (2014) — 19 citations

  13. Development of a nonionic azobenzene amphiphile for remote photocontrol of a model biomembrane
    L.A. Benedini, M.A. Sequeira, M.L. Fanani, B. Maggio, V.I. Dodero
    The Journal of Physical Chemistry B, 120 (17), 4053–4063 (2016) — 14 citations

  14. Understanding Recognition and Self-assembly in Biology using the Chemist’s Toolbox. Insight into Medicinal Chemistry
    Z.B. Quirolo, L.A. Benedini, M.A. Sequeira, M.G. Herrera, T.V. Veuthey, …
    Current Topics in Medicinal Chemistry, 14 (6), 730–739 (2014) — 11 citations

  15. Phase behavior of ascorbyl palmitate coagels loaded with oligonucleotides as a new carrier for vaccine adjuvants
    G.V. Ullio Gamboa, L.A. Benedini, P.C. Schulz, D.A. Allemandi
    Journal of Surfactants and Detergents, 19, 747–757 (2016) — 10 citations

Qingyou Liu | Biological Sciences | Best Researcher Award

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Prof. Qingyou Liu | Biological Sciences | Best Researcher Award

Dean, Faculty of Agriculture, Foshan University, China

Prof. Qingyou Liu is a distinguished researcher with an extensive background in animal genomics, microbiome studies, and evolutionary biology. With over 220 published papers in top-tier journals such as Nature Communications, National Science Review, Advanced Science, Microbiome, Molecular Biology and Evolution, and Journal of Animal Husbandry and Veterinary Medicine, he has made significant contributions to understanding genome structures, microbial ecosystems, and livestock evolution. His work on whole-genome sequencing, microbiome composition, and gene expression patterns has advanced the field of veterinary and agricultural sciences. Prof. Liu has collaborated internationally, working with researchers across multiple disciplines to enhance genomic and microbiome research. His contributions are highly cited, reflecting the impact of his findings on global scientific knowledge. He has been instrumental in pioneering studies on buffalo and goat genomics, contributing to livestock breeding and conservation strategies. His research continues to shape modern approaches to genetic mapping, microbiome interaction, and evolutionary biology. Through his leadership in research projects and academic collaborations, Prof. Liu remains at the forefront of scientific innovation in animal sciences. His dedication to interdisciplinary research and commitment to advancing genomics and microbiome studies solidify his position as a leading scientist in his field.

Professional Profile

Education

Prof. Qingyou Liu obtained his academic training in animal genetics, microbiology, and molecular biology. He completed his Bachelor’s degree in Animal Science, laying the foundation for his interest in genetic research. He then pursued a Master’s degree specializing in livestock genetics, where he focused on the genetic traits and evolutionary characteristics of domesticated species. His doctoral studies further expanded his expertise in genomics, microbiome interactions, and evolutionary biology, with a particular focus on ruminant species. During his Ph.D., he conducted extensive research on the genome sequencing of buffalo and goats, contributing significantly to the understanding of their genetic adaptations. To further enhance his expertise, Prof. Liu undertook postdoctoral training at a leading international research institution, where he collaborated on genomic studies and advanced bioinformatics analysis. His academic journey has been marked by rigorous research and specialization in animal biotechnology, genome mapping, and microbiome interactions. His educational background, combined with advanced training in bioinformatics, molecular genetics, and microbiology, has equipped him with the skills necessary to lead groundbreaking research in animal science. Through continuous learning and specialization, Prof. Liu has established himself as a prominent figure in genomics and microbiome research.

Professional Experience

Prof. Qingyou Liu has held various academic and research positions throughout his career, contributing to his extensive experience in genomics and microbiome studies. He currently serves as a professor at a leading research university, where he leads genomic research on livestock species. Prior to this, he worked as a senior researcher in a top-tier biological research institute, where he focused on animal genomics and microbiome interactions. His role involved leading large-scale genome sequencing projects and mentoring young researchers in the field. Additionally, Prof. Liu has served as a principal investigator on multiple international research collaborations, working with experts from various institutions worldwide. He has been actively involved in organizing conferences, workshops, and academic forums related to animal genetics and microbiome research. His contributions extend beyond academia, as he has also collaborated with agricultural industries and biotechnology firms to apply genomic research in livestock breeding programs. Over the years, he has successfully secured research funding from national and international scientific organizations, supporting his innovative projects. His professional journey showcases his commitment to advancing research in animal genetics, microbiome science, and evolutionary biology, reinforcing his status as a key figure in the scientific community.

Research Interests

Prof. Qingyou Liu’s research interests primarily focus on animal genomics, microbiome studies, and evolutionary biology. His work explores the genetic foundations of domesticated species, with a particular emphasis on buffalo and goat populations. One of his key research areas is whole-genome sequencing, where he investigates genetic diversity, evolutionary adaptations, and gene expression patterns in livestock. He is also deeply interested in microbiome interactions, studying how microbial communities influence animal health, digestion, and productivity. His research extends to the role of phage genomes in ruminant microbiomes, uncovering how viral ecosystems contribute to microbiome stability. Additionally, Prof. Liu explores chromosome-level genome mapping, enhancing our understanding of recombination processes in animal genetics. His work contributes to livestock breeding, conservation biology, and precision agriculture by identifying genetic markers for disease resistance and improved productivity. He is also interested in bioinformatics and computational genomics, utilizing advanced data analysis techniques to decode complex genetic information. Through his research, he aims to bridge the gap between genetics, microbiome science, and animal husbandry, offering valuable insights for sustainable livestock management. His interdisciplinary approach ensures that his work remains relevant and impactful in both scientific and agricultural communities.

Research Skills

Prof. Qingyou Liu possesses a wide range of research skills, making him a leader in genomics and microbiome studies. He has expertise in whole-genome sequencing, allowing him to analyze genetic diversity and evolutionary traits in livestock species. His proficiency in bioinformatics and computational biology enables him to process and interpret complex genomic data, leading to breakthrough discoveries in animal genetics. He is skilled in microbiome analysis, using metagenomics and microbial culturing techniques to study microbial ecosystems in animal digestive tracts. His expertise in molecular biology techniques, such as PCR, gene expression profiling, and DNA sequencing, further enhances his research capabilities. Prof. Liu is also experienced in comparative genomics, analyzing evolutionary relationships among species through genetic data. Additionally, he has strong skills in statistical genomics, applying mathematical models to study gene interactions and inheritance patterns. His leadership in large-scale research projects showcases his project management and scientific writing skills, as evidenced by his numerous high-impact publications. He is also adept at collaborative research, working with interdisciplinary teams to advance genomic studies. His diverse skill set allows him to make significant contributions to livestock genetics, microbiome science, and precision breeding strategies.

Awards and Honors

Prof. Qingyou Liu has received numerous awards and honors in recognition of his contributions to genomics and microbiome research. He has been honored with the Best Researcher Award for his groundbreaking work in animal genetics and evolutionary biology. His research achievements have earned him national and international recognition, including prestigious academic awards from scientific organizations in genetics, microbiology, and veterinary sciences. He has received funding grants from leading research foundations, further demonstrating the significance of his work. His high-impact publications have also been recognized with Excellence in Research Awards from various academic institutions. Additionally, Prof. Liu has been invited as a keynote speaker at global conferences on genomics and microbiome studies, further highlighting his influence in the scientific community. He has been awarded membership in esteemed scientific societies, acknowledging his contributions to the advancement of genetic research. His dedication to scientific innovation and mentorship has also been recognized through awards for academic leadership. These accolades reflect his commitment to pushing the boundaries of genomics and microbiome research, reinforcing his status as a leading scientist in the field.

Conclusion

Prof. Qingyou Liu’s extensive contributions to genomics, microbiome science, and evolutionary biology establish him as a leading researcher in his field. With over 220 publications in top-tier journals, his work has significantly advanced the understanding of genetic diversity, microbiome interactions, and evolutionary processes in livestock. His research has not only expanded academic knowledge but also contributed to practical applications in animal breeding and conservation. His expertise in genome sequencing, microbiome analysis, and bioinformatics ensures that his work remains at the forefront of scientific innovation. His ability to lead international collaborations and secure prestigious research funding further highlights his impact. Prof. Liu’s achievements have been recognized through numerous awards and honors, affirming his role as a key figure in animal genetics and microbiome research. While he continues to make groundbreaking discoveries, expanding his outreach efforts and industry collaborations could further enhance the real-world impact of his work. Overall, his dedication to scientific excellence, interdisciplinary research, and knowledge dissemination solidifies his position as a highly respected and influential scientist in the global research community.

Publications Top Notes

  • Title: Multi-Omics Sequencing Dissects the Atlas of Seminal Plasma Exosomes from Semen Containing Low or High Rates of Sperm with Cytoplasmic Droplets
    Authors: Zilu Zhang, Xiaoxian Xu, Fumei Chen, Qingyou Liu, Zhili Li, Xibang Zheng, Yunxiang Zhao
    Year: 2025

  • Title: Role of Milk Intake in Modulating Serum Lipid Profiles and Gut Metabolites
    Authors: Ting Xu, Chang Zhang, Yufeng Yang, Liang Huang, Qingyou Liu, Ling Li, Qingkun Zeng, Zhipeng Li
    Year: 2024

  • Title: Novel Insight into the Composition Differences Between Buffalo and Holstein Milk and Potential Anti-Inflammation and Antioxidant Effect on Caco-2 Cells
    Authors: Luyao Wang, Xinyue Hu, Jiaqi Jiang, Dong Wang, Chaobin Qin, Ling Li, Deshun Shi, Qingyou Liu, Jian Wang, Hui Li et al.
    Year: 2024

  • Title: In Silico Analysis: Molecular Characterization and Evolutionary Study of CLCN Gene Family in Buffalo
    Authors: Yiheng Fu, Muhammad Farhan Khan, Yingqi Wang, Shakeela Parveen, Mehwish Sultana, Qingyou Liu, Laiba Shafique
    Year: 2024

  • Title: Meta-Genomic Analysis of Different Bacteria and Their Genomes Found in Raw Buffalo Milk Obtained in Various Farms Using Different Milking Methods
    Authors: Ling Li, Wenhao Miao, Zhipeng Li, Li Huang, Enghuan Hau, Muhammad Farhan Khan, Qingyou Liu, Qingkun Zeng, Kuiqing Cui
    Year: 2024

  • Title: Unveiling the Role of circRBBP7 in Myoblast Proliferation and Differentiation: A Novel Regulator of Muscle Development
    Authors: Yufeng Yang, Kongwei Huang, Hancai Jiang, Shuwan Wang, Xiaoxian Xu, Yang Liu, Qingyou Liu, Mingsong Wei, Zhipeng Li
    Year: 2024

  • Title: Construction and Identification of a Breast Bioreactor for Human-Derived Hypoglycemic Protein Amylin
    Authors: Kongwei Huang, Xiuying Yan, Zhipeng Li, Fuhang Liu, Kuiqing Cui, Qingyou Liu
    Year: 2024

  • Title: An Effective Strategy for Assembling the Sex-Limited Chromosome
    Authors: Xiao-Bo Wang, Hong-Wei Lu, Qing-You Liu, A-Lun Li, Hong-Ling Zhou, Yong Zhang, Tian-Qi Zhu, Jue Ruan
    Year: 2024

  • Title: Transcriptome Analyses Reveal Transcriptional Profiles of Horse Oocytes Before and After In Vitro Maturation
    Authors: Xinhui Song, Hancai Jiang, Peiru Lv, Kuiqing Cui, Qingyou Liu, Shan Yin, Hongbo Liu, Zhipeng Li
    Year: 2023

  • Title: Chromosome-Level Genome and Recombination Map of the Male Buffalo
    Authors: Qingyou Liu, Hui Li, Jue Ruan, Deshun Shi, Xiaobo Wang, Kuiqing Cui, Xier Luo, Tong Feng, Zhipeng Li, Dongdong Wu
    Year: 2023