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

Nesrine Guesmi | Biomaterials | Best Scholar Award

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Mrs. Nesrine Guesmi | Biomaterials | Best Scholar Award

Sfax, Tunis at Faculty of Science of Sfax, Tunisia

Nesrine Guesmi is a dedicated and highly motivated doctoral candidate specializing in physics, currently pursuing her Ph.D. with the Stepstone team in Chemnitz. Born on June 26, 1994, in Sfax, Tunisia, Nesrine has consistently demonstrated a strong commitment to academic excellence and research innovation. With a solid foundation in fundamental and applied physics, she has developed a keen interest in sustainable materials and advanced spectroscopic techniques. Nesrine’s proactive approach is evident through her active participation in international conferences and workshops, where she has presented her research findings on topics such as the microstructural influences on ultrasonic parameters and the electrical and mechanical properties of hydroxyapatite/polymer composites. Her multilingual abilities in Arabic, French, and English, combined with her technical proficiency in MATLAB and OriginPro, enable her to collaborate effectively in diverse and interdisciplinary research environments. Beyond her academic pursuits, Nesrine is passionate about sports, music, and camping, which contribute to her well-rounded personality and resilience. Her dedication to continuous learning and professional development, coupled with her achievements and recognitions, position her as a promising researcher poised to make significant contributions to the field of physics and sustainable materials science.

Professional Profile

Education

Nesrine Guesmi has built a robust academic foundation through her progressive studies in physics at the Faculty of Science of Sfax, Tunisia. She began her higher education journey by obtaining a Baccalaureate in Mathematics from the Technical School 9 April 1938 in Sfax in 2013, which provided her with a strong analytical and quantitative background essential for her future studies in physics. She continued her education by earning a Fundamental Physics Degree from the same institution in 2016, where she delved into core physical principles and methodologies, laying the groundwork for her specialized research interests. Demonstrating her commitment to academic excellence, Nesrine pursued a Master’s Degree in Physics from 2016 to 2019 at the Faculty of Science of Sfax. During her master’s program, she engaged in advanced coursework and research projects that honed her expertise in various areas of physics, including material science and spectroscopy. Currently, Nesrine is advancing her academic career as a Ph.D. student with the Stepstone team in Chemnitz, a position she began in October 2024. Her doctoral studies focus on innovative research in sustainable biomaterials and impedance spectroscopy, reflecting her dedication to addressing contemporary scientific challenges and contributing to the advancement of her field.

Professional Experience

Nesrine Guesmi’s professional experience, though currently concentrated on her doctoral studies, reflects a focused and strategic approach to her career in research. In October 2024, she embarked on her Ph.D. journey with the Stepstone team in Chemnitz, where she engages in cutting-edge research in sustainable biomaterials and impedance spectroscopy. This role involves conducting experimental studies, analyzing complex data sets, and collaborating with a multidisciplinary team of scientists and engineers. Her responsibilities include designing and executing experiments, presenting findings at international conferences, and contributing to scholarly publications. Prior to her doctoral studies, Nesrine completed her Master’s and Fundamental Physics degrees at the Faculty of Science of Sfax, where she gained valuable hands-on experience in laboratory settings, project management, and scientific communication. She actively participated in organizing the International School on Smart Biomaterials for a Green and Sustainable Environment (BioMAT 2023), earning certificates of appreciation for her outstanding support. Additionally, her involvement in various training programs, such as X-ray diffraction and impedance spectroscopy, has equipped her with specialized skills that enhance her research capabilities. Nesrine’s professional journey is marked by a continuous pursuit of knowledge, practical application of her skills, and a commitment to contributing meaningfully to the scientific community.

Research Interests

Nesrine Guesmi’s research interests lie at the intersection of material science and advanced spectroscopic techniques, with a particular focus on sustainable biomaterials and their applications. She is deeply engaged in exploring the microstructural properties of polycrystalline materials and their influence on ultrasonic parameters, aiming to develop materials with enhanced mechanical and electrical characteristics. Her doctoral research involves the study of hydroxyapatite/polymer composites, where she investigates the electrical and mechanical properties of these materials to advance their use in sustainable energy solutions, such as nanoflexible polymer composite canogenerators. Nesrine is also interested in impedance spectroscopy, a technique she utilizes to analyze the electrical properties of materials, providing insights into their behavior under various conditions. Her participation in international workshops and training programs, including the International Workshop on Impedance Spectroscopy and Advanced School on Impedance Spectroscopy, underscores her commitment to mastering sophisticated analytical methods. Additionally, Nesrine is passionate about the development of smart biomaterials that contribute to green and sustainable environments, reflecting her dedication to addressing global challenges through innovative research. Her multifaceted research interests not only contribute to scientific advancements but also align with the growing emphasis on sustainability and environmental responsibility in modern research.

Research Skills

Nesrine Guesmi possesses a comprehensive set of research skills that enable her to excel in her field of physics and material science. She is proficient in using MATLAB and OriginPro, essential tools for data analysis, simulation, and visualization, which she employs to interpret complex experimental results and model physical phenomena. Her technical expertise extends to specialized techniques such as X-ray diffraction and impedance spectroscopy, acquired through dedicated training programs and hands-on research projects. These skills allow her to investigate the structural and electrical properties of materials with precision and accuracy. Nesrine is also adept at conducting oral presentations, having effectively communicated her research on the influence of microstructures on ultrasonic parameters and the electrical and mechanical study of hydroxyapatite/polymer composites at international conferences. Her ability to organize and support academic events, as demonstrated by her role in the International School on Smart Biomaterials for Green and Sustainable Environment (BioMAT 2023), highlights her project management and teamwork capabilities. Additionally, Nesrine’s multilingual proficiency in Arabic, French, and English facilitates her collaboration with diverse research teams and access to a broader range of scientific literature. Her strong foundation in fundamental and applied physics, combined with her analytical mindset and problem-solving abilities, make her a valuable asset in any research setting.

Awards and Honors

Nesrine Guesmi has been recognized for her contributions and dedication to the scientific community through various awards and honors. Notably, she received certificates of appreciation for her outstanding support in organizing the International School on Smart Biomaterials for a Green and Sustainable Environment (BioMAT 2023), highlighting her commitment to fostering collaborative and educational initiatives within her field. Additionally, Nesrine has been acknowledged for her active participation in prestigious events such as the 16th International Workshop on Impedance Spectroscopy and the Advanced School on Impedance Spectroscopy, where she earned certificates of participation, reflecting her dedication to continuous learning and professional development. Her ability to present original research findings through oral presentations at international conferences demonstrates her recognition as a capable and emerging researcher. These honors not only validate her hard work and contributions but also enhance her professional reputation, positioning her as a promising candidate for future awards and recognitions. Nesrine’s accolades underscore her proactive engagement in the scientific community, her leadership in organizing significant research events, and her excellence in presenting and disseminating research knowledge. As she continues to advance in her academic and research career, these honors serve as a testament to her potential and achievements in the field of physics and sustainable materials science.

Conclusion

Nesrine Guesmi demonstrates potential through her academic background, technical skills, and early research experiences. While her research output is still developing, her involvement in sustainable research initiatives and commitment to continuous learning are valuable attributes for a Best Researcher Award. If she continues to build her profile through publications and broadens her research experience, she could make a strong candidate for future awards.

Publications Top Note

A Comprehensive Review of Strategies toward Efficient Flexible Piezoelectric Polymer Composites Based on BaTiO₃ for Next-Generation Energy Harvesting

  • Journal: Energies
  • Year: 2024 (August)
  • Publication Type: Journal Article
  • DOI: 10.3390/en17164066
  • Contributors: Ayda Bouhamed, Sarra Missaoui, Amina Ben Ayed, Ahmed Attaoui, Dalel Missaoui, Khawla Jeder, Nesrine Guesmi, Anouar Njeh, Hamadi Khemakhem, Olfa Kanoun

 

Kui Chen | Biomaterials | Best Researcher Award

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Assoc. Prof. Dr. Kui Chen | Biomaterials | Best Researcher Award

Associate researcher, Institute of High Energy Physics Chinese Academy of Sciences, China.

Publication profile

Scopus Profile

Education and Experience

Kui Chen completed his doctoral studies in bioinorganic chemistry at the Institute of High Energy Physics (IHEP), Chinese Academy of Sciences. His research was guided by Prof. Gengmei Xing and Academician Zhao Yuliang, both of whom are leaders in the field of nanotechnology and material science. During his PhD, Chen focused on applying bioinorganic principles to design and develop innovative drug delivery systems. His academic training provided a strong foundation in both materials science and chemistry, which he integrated into his research on controlled-release nanosystems. This interdisciplinary approach to education has played a significant role in shaping Chen’s scientific career. His education has been further strengthened by collaborative projects and cross-team initiatives, such as the Beijing Nova Program, which have expanded his expertise and allowed him to contribute to cutting-edge advancements in cancer therapy.

Work Experience 

Kui Chen has been actively involved in research and academia since completing his PhD. After joining the Institute of High Energy Physics (IHEP) as a researcher, he quickly gained recognition for his contributions, leading to his promotion to Associate Professor in 2022. Chen has experience leading projects focused on developing novel nanosystems for medical applications, particularly in the treatment of cancer. His role as a corresponding and first author on 20 SCI papers demonstrates his leadership in scientific publications. In addition, Chen has filed over 20 patents, with 7 already granted, showcasing his ability to translate research into innovative, patentable technologies. His experience also includes collaboration with interdisciplinary teams, particularly through the Beijing Nova Program, where he plays a key role in cross-team projects aimed at advancing nanomedicine and drug delivery.

Awards and Honors 

Kui Chen has been recognized for his groundbreaking research with numerous honors and awards. Among his most notable achievements is his selection for the prestigious Beijing Nova Program, an initiative that supports young scientists who demonstrate exceptional promise in their fields. In addition, Chen has been selected for the Cross-Team within the Beijing Nova Program, further highlighting his collaborative abilities and leadership in scientific research. His innovation and contributions to nanomedicine and drug delivery have earned him recognition in both national and international scientific communities. Chen’s work, which bridges bioinorganic chemistry and materials science, has also led to the granting of 7 patents, reflecting his commitment to translating research into practical solutions. These accomplishments underscore his growing influence in the field of medical nanotechnology and highlight his potential as a future leader in scientific research.

Conclusion

Kui Chen is a highly suitable candidate for the Best Researcher Award. His outstanding research contributions, strong publication record, innovative patents, and selection for competitive programs demonstrate his potential and impact in his field. Although his focus is specialized, expanding his interdisciplinary work and mentorship roles can further solidify his standing as a leader in both the scientific and academic communities. His dedication to pushing the frontiers of nanotechnology in medical treatments positions him as a future leader in materials science research.

Publications

Enhanced osteogenic differentiation for osteoporosis treatment through controlled icariin release in the bone cavity via extracorporeal shock wave
Authors: Li, H., Hu, F., Liu, Q., Xing, G., Chen, K.
Year: 2024
Citations: 0

Boron Neutron Capture Therapy-Derived Extracellular Vesicles via DNA Accumulation Boost Antitumor Dendritic Cell Vaccine Efficacy
Authors: Lv, L., Zhang, J., Wang, Y., Xing, G., Chen, K.
Year: 2024
Citations: 0

Boron-Containing MOF Nanoparticles with Stable Metabolism in U87-MG Cells Combining Microdosimetry To Evaluate Relative Biological Effectiveness of Boron Neutron Capture Therapy
Authors: Wang, Z., Lei, R., Zhang, Z., Li, J., Xing, G.
Year: 2024
Citations: 3

Boron-Containing Mesoporous Silica Nanoparticles with Effective Delivery and Targeting of Liver Cancer Cells for Boron Neutron Capture Therapy
Authors: Tang, H., Wang, Z., Hao, H., Li, J., Xing, G.
Year: 2024
Citations: 0

Application and Development of Tumor-Targeting Boron Carriers in Boron Neutron Capture Therapy
Authors: Chen, K., Lyu, L.-W., Xing, G.-M.
Year: 2023
Citations: 0

Well-established immunotherapy with R837-loaded boron neutron capture-shocked tumor cells
Authors: Chen, K., Liu, S., Lv, L., Liang, T., Xing, G.
Year: 2023
Citations: 7

A Bone-Penetrating Precise Controllable Drug Release System Enables Localized Treatment of Osteoporotic Fracture Prevention via Modulating Osteoblast-Osteoclast Communication
Authors: Liang, H., Chen, K., Xie, J., Xing, G.
Year: 2023
Citations: 7

Corrigendum to: “Reversing the pathological microenvironment by radiocatalytic sensitizer for local orthotopic osteosarcoma radiotherapy enhancement”
Authors: Chen, K., Zhou, R., Liang, H., Xing, G., Gu, Z.
Year: 2023
Citations: 0

3D culture boosting fullerenol nanoparticles to induce calreticulin exposure on MCF-7 cells for enhanced macrophage-mediated cell removal
Authors: Liu, S., Liang, H., Lv, L., Chen, K., Xing, G.
Year: 2023
Citations: 2

High-Throughput and Efficient Intracellular Delivery Method via a Vibration-Assisted Nanoneedle/Microfluidic Composite System
Authors: Li, X., Ma, Y., Xue, Y., Han, X., Wang, J.
Year: 2023
Citations: 10