Mr. Dae Hyeob Yoon | Materials Science | Best Researcher Award

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Mr. Dae Hyeob Yoon | Materials Science | Best Researcher Award

Mr. Dae Hyeob Yoon is currently an undergraduate researcher in Mechanical Engineering at Chungbuk National University (CBNU), South Korea. His research interests lie in micro/nanotechnology, sensors, and MEMS. Despite being at an early stage in his academic career, he has already contributed to a peer-reviewed publication in Applied Sciences and participated in nationally recognized research programs. His early engagement in advanced materials research and active academic presentation record demonstrate a deep commitment to scientific inquiry.

Mr. Dae Hyeob Yoon | Chungbuk National University (CBNU) | South Korea

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Education

Mr. Yoon is pursuing a Bachelor of Science in Mechanical Engineering at CBNU. Alongside his coursework, he has been actively involved in undergraduate research initiatives, including the Undergraduate Research Opportunities Program (UROP). His academic training has allowed him to integrate theoretical knowledge with experimental design and fabrication techniques related to flexible electronics and nanomaterials.

Research Experience 

As an undergraduate, Mr. Yoon has contributed to one completed research project involving the development of a flexible and conductive heating membrane. He has presented his work at the Korean Society of Mechanical Engineers (KSME) and will present at the EKC conference in Austria. His publication demonstrates competency in research design, experimental methodology, and technical writing, marking significant early-career achievements.

Contributions

Mr. Dae Hyeob Yoon’s research is focused on developing flexible heating technologies for use in wearable electronics and smart textiles. His current work involves creating a scalable, low-voltage, and mechanically stable heating platform using advanced materials and fabrication techniques. This research addresses major limitations in existing flexible heaters, such as fragility and high energy demands. The technology he is advancing has significant potential for integration into next-generation wearable devices, enabling personalized and adaptive applications in health, fitness, and smart clothing systems. His innovative approach contributes meaningfully to the field of flexible, functional electronics.

Research Focus 

Mr. Yoon’s primary research focus is on the application of micro and nanotechnology to develop scalable and efficient platforms for wearable and flexible electronics. His current work addresses key challenges in mechanical stability and power efficiency, contributing to emerging markets in personalized technology and smart textiles. His interdisciplinary interest bridges mechanical engineering with material science and electronics.

Publication

Development of a Flexible and Conductive Heating Membrane via BSA-Assisted Electroless Plating on Electrospun PVDF-HFP Nanofibers

Author: Dae Hyeob Yoon

Conclusion

Mr. Dae Hyeob Yoon is a motivated and talented early-stage researcher whose contribution to nanofiber-based heating technologies is noteworthy. His research potential is clear, and with continued academic development and broader engagement in scientific activities, he has the capacity to evolve into a strong candidate for high-level research awards. At this time, he would be better suited for young researcher or emerging researcher recognition, while continuing to build toward Best Researcher status in the future.

Prof. Dr Yue Cao | Nanomaterials | Best Researcher Award

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Prof. Dr Yue Cao | Nanomaterials | Best Researcher Award

Prof. Dr. Yue Cao is an innovative researcher in the field of metasurfaces, metamaterials, and nanophotonics, with active academic roles at Lanzhou Jiaotong University. A Chinese national, she completed her Ph.D. at Southeast University, including a visiting research stint at the National University of Singapore. Her work focuses on encoded metasurfaces, optical imaging, and information encryption, with impressive contributions to high-impact journals. With awards including the Chien-Shiung Wu Memorial Fund for Women Scholars, she represents the next generation of pioneers in photonic material design.

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Education

Prof. Yue Cao holds a Ph.D. from Southeast University and completed an international research exchange as a Ph.D. student at the National University of Singapore. Her academic foundation blends strong theoretical knowledge with cutting-edge experimental techniques. she has been serving as a lecturer at Lanzhou Jiaotong University, where she continues to mentor students and lead research in optical metasurfaces.

Experience

Currently a lecturer at Lanzhou Jiaotong University, Prof. Cao has contributed to the fields of metamaterials and photonic engineering through academic teaching and high-level research. Her cross-disciplinary expertise in nanophotonics, metasurface imaging, and rail transport systems highlights her versatility. She has co-authored multiple impactful papers with international collaborators, including from Singapore, showcasing her experience in global academic partnerships.

Awards

Prof. Dr. Yue Cao has been recognized with several prestigious honors that highlight her excellence in both research and education. She received an Outstanding Teacher Qualification Certification, affirming her dedication to academic leadership and instructional quality. As a standout figure in science, she was also selected for the esteemed Women Scholars Program of the Chien-Shiung Wu Memorial Fund, celebrating her contributions as a woman in advanced research. Additionally, her early promise was acknowledged through an Outstanding Graduate Student Award, marking her academic brilliance and research potential from the outset.

Research Focus

Prof. Cao’s research focuses on optical and acoustic metasurfaces, particularly for imaging, steganography, and information encryption. Her work integrates nanophotonic design, encoded metasurfaces, and programmable light control, contributing to high-resolution, secure data visualization. Beyond fundamental science, she also explores practical uses in railway transportation equipment and nanodevice design, showing a commitment to application-driven research.

Publications

Chiral Grayscale Imaging Based on a Versatile Metasurface of Spin-Selective Manipulation
Authors: Yue Cao, Yi-Fei Sun, Zi-Yang Zhu, Qian-Wen Luo, Bo-Xiong Zhang, Xiao-Wei Sun, Ting Song
Journal: Materials (2025-07-05)

Multiplexing Optical Images for Steganography by Single Metasurfaces
Authors: Yue Cao, Lili Tang, Jiaqi Li, Chengkuo Lee, Zheng‐Gao Dong
Journal: Small (May 2023)

Decoupled Phase Modulation for Circularly Polarized Light via Chiral Metasurfaces
Authors: Renchao Jin, Lin Deng, Lili Tang, Yue Cao, Yongmin Liu, Zheng-Gao Dong
Journal: ACS Photonics (2023-01-18)

Spin-Selected Bifunctional Metasurface for Grayscale Image and Metalens
Authors: Lili Tang, Yue Cao, Weijie Shi, Jin Wang, Jiaqi Li, Zheng-Gao Dong
Journal: Optics Letters (2023-01-15)

Four-Channel Display and Encryption by Near-Field Reflection on Nanoprinting Metasurface
Authors: Yue Cao, Lili Tang, Jiaqi Li, Chengkuo Lee, Zheng-Gao Dong
Journal: Nanophotonics (2022-06-27)

Spin-Decoupled Omnidirectional Anomalous Refraction Based on a Single Metasurface
Authors: Lili Tang, Yue Cao, Renchao Jin, Ying-Hua Wang, Jiaqi Li, Jin Wang, Zheng-Gao Dong
Journal: Applied Physics Letters (2022-04-25)

Grayscale Image for Broadband Linear Polarization Measurement by an Ultracompact Metasurface
Authors: Yue Cao, Lili Tang, Renchao Jin, Jiaqi Li, Jin Wang, Zheng-Gao Dong
Journal: Optics Letters (2021-03-01)

Assoc. Prof. Dr Anish Kumar Sharma | Nanomaterials | Best Review Paper Award

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Assoc. Prof. Dr Anish Kumar Sharma | Nanomaterials | Best Review Paper Award

Assoc. Prof. Dr. Anish Kumar Sharma is a seasoned researcher and Principal at the School of Sciences, P P Savani University 🎓. With a Ph.D. in Molecular Biology and Biotechnology 🧬 and minor in Microbiology 🧫, he brings over 9 years of expertise in biotechnology, nanotechnology, and environmental science 🌱. He has authored 45+ publications 📚 and is known for impactful review articles on bioremediation, agrochemical detoxification, and medicinal plant antioxidants 🌿. A qualified CSIR-NET, GATE, and ICAR ARS-NET scholar 🏅, Dr. Sharma bridges innovative science and practical application, making him a standout contributor in sustainable research and education 🔬📖.

Assoc. Prof. Dr Anish Kumar Sharma, School of Sciences PP Savani University, India

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🎓 Education

Dr. Anish Kumar Sharma holds a Ph.D. in Molecular Biology and Biotechnology 🧬, with a minor specialization in Microbiology 🧫. He has demonstrated exceptional academic excellence by qualifying prestigious national exams including GATE Biotechnology in 2011 with 99.01 percentile and AIR-151 📊, ICAR ARS-NET in 2013 and 2018 📚, and CSIR-NET in 2013 with AIR-33 🏅. These achievements reflect his deep-rooted expertise and commitment to the life sciences domain. His academic foundation has played a pivotal role in shaping his interdisciplinary research spanning plant science, microbial genetics, nanobiotech, and environmental sustainability 🌱, positioning him as a top-tier educator and scientific leader.

🏛️ Experience

Dr. Anish Kumar Sharma brings over 9 years of academic and research experience 🎓🔬. Currently serving as Principal and Associate Professor at P. P. Savani University, he leads with excellence in education, innovation, and scientific exploration. His expertise spans Plant Biotechnology, Microbial Molecular Biology, Environmental Biotechnology, and Nanotechnology 🌱🧫⚗️. He has authored 45+ peer-reviewed publications 📚 and guided numerous student research projects. His professional journey reflects dedication to interdisciplinary science, curriculum development, and fostering future-ready researchers 🧠💡. As a qualified scholar in GATE, CSIR-NET, and ARS-NET, Dr. Sharma integrates academic rigor with impactful contributions to sustainable biotechnology 🌍.

📖 Book

📘 “Antioxidants from Medicinal Plants and Their Relevance to Human Health” (ISBN: 978-1-947293-40-3) is a comprehensive exploration of the therapeutic potential of plant-derived antioxidants 🌿. Co-authored by Dr. Anish Kumar Sharma and A. Gupta, this book highlights the molecular mechanisms, biochemical pathways, and health benefits of natural antioxidants in combating oxidative stress and related disorders 💊🧬. It covers key medicinal plants, their phytochemical profiles, and their roles in disease prevention including cancer, diabetes, and cardiovascular issues ❤️🛡️. Ideal for researchers, students, and health professionals, this book bridges traditional knowledge with modern biomedical science 🔬📖.

🌱 Contributions

Dr. Anish K. Sharma has made impactful strides in plant biotechnology, environmental microbiology, and nanotechnology. His pioneering research on Pseudomonas strains for chlorpyrifos degradation 🧬🌾 has advanced bioremediation efforts to detoxify agrochemical-contaminated soils. He has explored enzyme optimization for environmental detox pathways and co-authored pivotal studies on SARS-CoV-2 genome evolution 🦠🔬, aiding vaccine and tracking strategies. Furthermore, Dr. Sharma promotes agricultural waste valorization 🌾♻️ for eco-friendly innovations in pharmaceuticals, agriculture, and clean technologies, supporting a waste-to-wealth circular economy ♻️💊🌍. His interdisciplinary efforts exemplify science with societal and ecological impact.

🔬 Research Focus

Dr. Anish Kumar Sharma’s research lies at the intersection of Environmental Biotechnology 🌱, Microbiology 🧫, and Nanotechnology ⚛️. He focuses on developing eco-friendly microbial solutions for bioremediation of pollutants, including pesticides and heavy metals ♻️. His work explores engineered microbes, nano-bioreactors, and sustainable waste-to-resource strategies ♻️🔬. He is also engaged in utilizing plant-based antioxidants, microbial consortia, and nano-enabled materials to combat environmental and health challenges 🌍🧪. Through his multidisciplinary approach, Dr. Sharma contributes to cleaner ecosystems, improved agricultural practices 🌾, and public health safety, making a significant impact on sustainable and green biotechnology 💡🌐.

📚 Publications

Nanomaterials: A Promising Approach for Environmental Restoration
Authors: P. Chauhan, J. Pandit, K. Harkhani, A. Tripathi, N. Kumar, M.V. Patel, A.K. Sharma et al.
Journal: Nanotechnology for Environmental Engineering, Vol. 10(1), 2025

Optimization of Culture Conditions for Maximizing Extracellular Organophosphorus Hydrolase Activity in Pseudomonas Strains with Chlorpyrifos Degradation Potential
Authors: A.K. Sharma, J. Pandit, V. Gautam, P. Shirkot
Journal: Optimization, 2019

Antioxidants from Medicinal Plants and Their Relevance to Human Health
Authors: A. Gupta, A.K. Sharma
Publisher: White Falcon Publishing, 2017 (Book)

Biodegradation of Chlorpyrifos by Microbes – A Review
Authors: A.K. Sharma, J. Pandit
Journal: Discovery Biotechnology, Vol. 7(18), 2016

Emerging Trends in the Valorization of Agricultural Waste and Their Utilization in Agricultural, Pharmaceuticals, and Environmental Cleanup
Authors: V.K. Yadav, A.K. Sharma, A. Gacem, J. Pandit, A. Wany, A. Kumar, M. Arshad et al.
Journal: Waste and Biomass Valorization, Vol. 16(4), 2025

Advanced Bioremediation Strategies for Organophosphorus Compounds
Authors: A.K. Sharma, J. Pandit
Journal: Microbiology and Biotechnology Letters, Vol. 51(4), 2023

Ecological Footprint of Solan District, Himachal Pradesh, India
Authors: J. Pandit, S.K. Bhardwaj, A.K. Sharma
Journal: Current Science, Vol. 122(8), 2022

Mrs Charoula Iliaskou | Materials Science | Best Researcher Award

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Mrs Charoula Iliaskou | Materials Science | Best Researcher Award

Mrs. Charoula Iliaskou is a medical physicist and researcher at the University Medical Center Freiburg 🇩🇪, specializing in intraoperative electron beam radiation therapy (IOERT) ⚡🏥. She holds an MSc in Medical Physics from the National and Kapodistrian University of Athens 🇬🇷, graduating top of her class 🎓. Her research explores targeted dosimetry, radiation planning, and magnetic nanoparticles for hyperthermia therapy 🧲🧪. Skilled in Monte Carlo simulations, clinical software, and nanomaterials analysis, she integrates theory with real-world clinical application 🔬💻. Charoula’s work contributes to more precise, effective cancer therapies and positions her as a promising figure in radiation oncology research 🌍📈.

Mrs Charoula Iliaskou, University Medical Center Freiburg, Germany

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Education 🎓

Mrs. Charoula Iliaskou holds an MSc in Medical Physics – Radiation Physics from the National and Kapodistrian University of Athens (2020), where she graduated top of her class (Rank 1/19, Grade 9.14/10) 🎓🏅. She earned her BSc in Physics from Aristotle University of Thessaloniki in 2018 (Rank 2/23, Grade 8.18/10) 📘🔬. In 2017, she participated in the Erasmus+ program at the University of Duisburg-Essen, Germany, gaining international academic experience 🌍📖. Her academic journey began with an excellent high school diploma from Xanthi, Greece (Grade 18.9/20) 🏫📐, demonstrating consistent excellence in science and education.

Experience 👩‍🔬

Mrs. Charoula Iliaskou is currently a Physicist in the Division of Medical Physics at the University Medical Center Freiburg 🇩🇪, where she develops image-guided planning and verification workflows for IOERT (Intraoperative Electron Beam Radiation Therapy) 🏥⚡. Her MSc research focused on in vivo dosimetry for breast cancer using EBT3 Gafchromic films 🎯🧪. She has hands-on training in radiation treatment planning and quality assurance from AHEPA Hospital and early research experience in nanoparticle hyperthermia and magnetometry 🧲🔬. Her work combines clinical physics with nanoscale science, showing deep engagement from student researcher to applied medical physicist 👩‍🔬📈.

Honors and Awards 🏅

Mrs. Charoula Iliaskou was honored with the “Best Undergraduate Student Internship of the Physics Department for the year 2017–2018” 🏅 by the Aristotle University of Thessaloniki, Greece 🇬🇷. This award recognized her outstanding performance, commitment, and research initiative during her clinical internship in radiation oncology and medical physics 🏥🔬. It reflects her early dedication to academic and professional excellence, as well as her ability to integrate theoretical knowledge into practical medical applications 🎓⚙️. This recognition served as a launching point for her future achievements in medical physics, marking her as an emerging talent in the field 🌟.

Skills

Mrs. Charoula Iliaskou brings a powerful set of scientific and technical skills to her research in medical physics 🧪. Her expertise includes radiation dosimetry, magnetic nanoparticle characterization (VSM, SQUID), X-ray diffraction, SEM-TEM imaging, and Monte Carlo simulations 🔬📊. She is proficient in tools such as MATLAB, SPSS, EGSnrc, ImageJ, and clinical planning systems like ECLIPSE and RADIANCE 💻🧠. Charoula is multilingual—fluent in Greek, English, Spanish, and German 🗣️—and excels in teamwork, leadership, communication, and project management 🤝📅. Her skillset bridges computational analysis, clinical application, and experimental research, making her a highly versatile scientist.

Research Focus 🔬

Mrs. Charoula Iliaskou focuses her research on medical and radiation physics, particularly on intraoperative electron beam radiation therapy (IOERT) and targeted dosimetry techniques for cancer treatment ⚛️🏥. Her interests span the development of image-guided planning workflows, Monte Carlo simulations, and nanoparticle-based hyperthermia therapies 🧲🔬. She combines advanced analytical tools like radiation dosimetry, X-ray diffraction, and SEM-TEM imaging with clinical software such as ECLIPSE and RADIANCE 💻📊. With interdisciplinary expertise bridging nanotechnology, oncology, and statistical modeling, her research aims to improve precision and outcomes in radiation oncology and cancer therapy 🌍📈.

Publications 📚

Minimum and optimal requirements for a safe clinical implementation of ultra-high dose rate radiotherapy: A focus on patient’s safety and radiation protection
✍️ Authors: C. Garibaldi, S. Beddar, N. Bizzocchi, T.T. Böhlen, C. Iliaskou, R. Moeckli, …
📚 Journal: Radiotherapy and Oncology, Vol. 196, 110291 (2024)
🛡️ Theme: Radiation safety, FLASH radiotherapy, clinical implementation

 Ex-vivo evaluation of magnetite magnetic nanoparticles as magnetic hyperthermia carriers
✍️ Authors: N. Maniotis, E. Myrovali, Z. Kalpaxidou, C. Iliaskou, M. Angelakeris, …
📚 Conference: 2018 EMF-Med 1st World Conference on Biomedical Applications of Electromagnetic Fields
🧲 Theme: Magnetic nanoparticles, hyperthermia therapy, biomedical applications

Evaluation of RADIANCE Monte Carlo algorithm for treatment planning in electron based Intraoperative Radiotherapy (IOERT)
✍️ Authors: C. Iliaskou, G. Rossi, I. Sachpazidis, V. Boronikolas, M. Gainey, D. Baltas
📚 Journal: Zeitschrift für Medizinische Physik, 2024
🧮 Theme: Monte Carlo simulation, IOERT, treatment planning systems

Development of a TLD-100 based setup for in vivo dosimetry in Intraoperative Electron Beam Radiation Therapy (IOERT): An experimental and clinical evaluation
✍️ Authors: C. Iliaskou, M. Gainey, B. Thomann, M. Kollefrath, R. Saum, E. Gkika, …
📚 Journal: Zeitschrift für Medizinische Physik, 2025
📏 Theme: In vivo dosimetry, TLD-100, intraoperative radiation

PS02.29 Clinical Evaluation of a TLD-Based In-Vivo Dosimetry Workflow in Pancreatic Intraoperative Electron Beam Radiation Therapy (IOERT): One Case Report Study
✍️ Authors: C. Iliaskou, M. Gainey, M. Kollefrath, E. Gkika, U. Wittel, D. Ruess, A.L. Grosu, …
📚 Conference/Journal: Case study presentation, clinical physics context
🩺 Theme: Clinical evaluation, pancreatic cancer, IOERT workflow

Prof. Dr Andrea Bernardos | Nanomaterials | Women Researcher Award

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Prof. Dr Andrea Bernardos | Nanomaterials | Women Researcher Award

Andrea Bernardos, PhD 🎓, is a chemist specializing in gated mesoporous silica for controlled delivery and nanomedicine. She earned her PhD at UPV under Prof. Ramón Martínez-Mañez, with research stays in Denmark 🇩🇰 and the Czech Republic 🇨🇿. With 33 publications 📚, 1700+ citations 🔬, 4 patents, and experience in 12 research projects, she has also won awards in nanotechnology 🏆. Currently, she is a Project Manager at Senolytic Therapeutics S.L. 💼, coordinating international R\&D projects (H2020, EIT Health, Neotec 🌍). Andrea combines scientific excellence with strong leadership in biotech innovation 💡🧪.

Prof. Dr Andrea Bernardos, Universitat Politècnica de València, Spain

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Education 🎓

Andrea Bernardos holds a PhD 🎓 in Chemistry from the Universitat Politècnica de València (2007–2011), where she conducted research at the Interuniversity Research Institute for Molecular Recognition and Technological Development (IDM) 🧪. Her doctoral work focused on gated materials for controlled delivery applications. Prior to her PhD, she earned her Bachelor’s degree in Chemistry 🧫 from the Universidad Autónoma de Madrid (1999–2006), graduating from the Faculty of Sciences 📘. Her strong academic foundation in molecular science and nanotechnology laid the groundwork for her innovative research in drug delivery and nanomedicine 💡🔬.

Experience 💼

Andrea Bernardos is currently a Profesora Titular de Universidad 👩‍🏫 at the Universitat Politècnica de València (UPV) since December 2024, working full-time in the Department of Chemistry at IDM 🧪. Her expertise spans biochemistry, inorganic and pharmaceutical chemistry, cell biology, agricultural engineering, and materials technology 🔬🌾⚙️. Prior to this, she was an Investigadora Distinguida at UPV (2021–2024) and a researcher at CIBER-BBN (2020), focusing on biomaterials and nanomedicine 🧫🧠. She also served as a senior researcher at Senolytic Therapeutics S.L. (2018–2020), bridging academic science and biotech innovation 💼💊. Her career combines excellence in research, teaching, and multidisciplinary collaboration 🌍📚.

Achievements 🏆

Prof. Dr. Andrea Bernardos 🎓 has been awarded prestigious post-doctoral research grants that highlight her exceptional talent and contribution to scientific advancement. She received the Torres Quevedo Grant 🧪 from the Spanish Ministry of Economy, Industry, and Competitiveness, supporting her innovative work at Senolytic Therapeutics S.L. for three years (2018–2021). Additionally, she was honored with the Beatriz Galindo Grant 🌍—a highly competitive initiative for attracting top-tier research talent—by the Ministry of Science and Innovation. This grant supported her continued research excellence at the Universidad Politécnica de Valencia within the Department of Chemistry 🔬, underscoring her leadership in academia and applied science.

Conferences 📜

Prof. Dr. Andrea Bernardos 🧬 has actively contributed to international scientific forums with groundbreaking research. At the 5th International Caparica Symposium on Nanoparticles/Nanomaterials and Applications 2022 in Portugal 🇵🇹, she delivered an oral presentation on “Lactose-Gated Mesoporous Silica Particles for Controlled Intestinal Release of Essential Oil Components”, demonstrating her expertise in smart drug delivery systems 🌿💊. Additionally, at the X Longevity World Forum in Valencia, Spain 🇪🇸, she shared insights as the corresponding author on “The Challenge to Develop Medicines by Targeting Senescent Cells”, contributing to the frontier of anti-aging and cellular therapy research 🧫🧓.

Research Focus 🔬

Prof. Dr. Andrea Bernardos 🧪 focuses her research on innovative nanotechnology-based approaches for biomedical and environmental applications. Her work spans diverse themes such as biosensors for airborne virus detection 🦠🔬 (Talanta), fluorescent probes for cancer biomarkers 🎯🧫 (Dyes and Pigments), COVID-19-related metabolomics 🧬💉 (Journal of Medical Virology), and antimicrobial nanomaterials 🌿🧼 (IJMS). She also explores chemical strategies for senescent cell removal ⚗️🧓 and smart organonanoclays for triggered biomolecule release 📦💡. Through her interdisciplinary work, Dr. Bernardos contributes significantly to health, safety, and materials science, demonstrating a strong commitment to innovation and real-world impact.

Publications 📄

LC biosensors (Bio-LC): New Resonant Sensors for Direct Detection of Airborne Viruses
🧪 Journal: Talanta (2025-11)
👩‍🔬 Authors: Patricia Noguera, Nuria Pastor-Navarro, Andrea Bernardos, Serena Medaglia, Miguel Alcañiz-Fillol, Rafael Masot-Peris, David Giménez-Romero
🔬 Focus: Airborne virus detection via resonant biosensors

Development of a Novel Near-Infrared Fluorescent Probe Based on Nile Blue for the Detection of Leucine Aminopeptidase as a Cancer Biomarker
🧪 Journal: Dyes and Pigments (2025-09)
👩‍🔬 Authors: Marcia Domínguez, David Azorín-Soriano, Jessie García-Fleitas, Jennifer Soler-Beatty, Andrea Bernardos, et al.
🔬 Focus: Cancer biomarker detection

Metabolomic Biomarkers of Pulmonary Fibrosis in COVID‐19 Patients One Year After Hospital Discharge
🧪 Journal: Journal of Medical Virology (2025-03)
👩‍🔬 Authors: Marina Botello‐Marabotto, Julia Tarrasó, Alba Mulet, Lucía Presa‐Fernández, Estrella Fernández‐Fabrellas, Andrea Bernardos, et al.
🔬 Focus: Long-term COVID-19 metabolomics

Antimicrobial Surfaces: Stainless Steel Functionalized with the Essential Oil Component Vanillin
🧪 Journal: International Journal of Molecular Sciences (2024-11-12)
👩‍🔬 Authors: Serena Medaglia, Ángela Morellá-Aucejo, María Ruiz-Rico, Félix Sancenón, Luis A. Villaescusa, Ramón Martínez-Máñez, M. Dolores Marcos, Andrea Bernardos
🔬 Focus: Antimicrobial surface technology

Chemical Strategies for the Detection and Elimination of Senescent Cells
🧪 Journal: Accounts of Chemical Research (2024-05-07)
👩‍🔬 Authors: Jessie García-Fleitas, Alba García-Fernández, Vicente Martí-Centelles, Félix Sancenón, Andrea Bernardos, Ramón Martínez-Máñez
🔬 Focus: Targeting senescent cells in aging and disease

Evaluación de Sesiones Prácticas de Laboratorio de Materiales y Nanomateriales en Química, para Alumnos de Primer Curso de Ingeniería Física
🧪 Conference: INRED 2023 (2023-07-13)
👩‍🔬 Authors: Andrea Bernardos Bau, Vicente Martí Centelles, María Dolores Marcos Martínez, Susana Querol Magdalena, Joana Oliver Talens
🔬 Focus: Nanomaterial lab education methods

Gated Organonanoclays for Large Biomolecules: Controlled Release Triggered by Surfactant Stimulus
🧪 Journal/Details not provided
👩‍🔬 Author: Andrea Bernardos
🔬 Focus: Smart delivery systems for biomolecules