Dr.Bahareh Azimi | biomedical | Best Researcher Award

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Dr.Bahareh Azimi | biomedical | Best Researcher Award

PhD Scholar at  Chitkara University, India

Dr. Bahareh Azimi is a distinguished researcher in the field of Textile Engineering, specializing in Textile Chemistry and Fiber Science. With a passion for advancing materials science applications in medicine, she focuses on developing innovative therapeutic strategies using polymeric nanofibers and nanoparticles. Her research is dedicated to improving health outcomes through cutting-edge technology and materials.

 

Professional Profile 

🎓 Education

Dr. Bahareh Azimi holds a Ph.D. in Textile Engineering with a focus on Textile Chemistry and Fiber Science from Amirkabir University of Technology, completed between September 23, 2010, and November 23, 2014, in Tehran, Iran. She also has an equivalent Ph.D. in Industrial Engineering (Curriculum in Chemistry and Materials Engineering) issued by the University of Pisa, Italy. Additionally, Dr. Azimi earned her Master’s Degree in Textile Engineering (Textile Chemistry and Fiber Science) from Amirkabir University of Technology from September 23, 2007, to October 24, 2009, and completed her Bachelor’s degree in the same field at the University of Yazd from September 23, 2003, to September 6, 2007.

🏢 Work Experience

Dr. Azimi is currently a postdoctoral researcher at the Department of Civil and Industrial Engineering at the University of Pisa since September 16, 2024. Her previous roles include a postdoctoral position in the Department of Surgical, Medical, Molecular, and Critical Area Pathology at the University of Pisa, where she focused on manufacturing and characterizing piezoelectric polymer nanofibers for cochlear implants. She has also worked on circular management of operating room waste in orthopedics and traumatology and has contributed to various projects involving the production of polymeric and composite nanofibers. Notably, she was a postdoctoral researcher at the Brazilian National Research Council, where she developed polymeric films with luminescent nanocrystals for dosimetric applications.

🧬 Skills

Dr. Azimi possesses advanced skills in electrospinning technology, materials characterization, and the development of biomimetic scaffolds. Her expertise extends to polymer and composite materials for tissue engineering applications, particularly in regenerative medicine. She is proficient in both experimental and theoretical methodologies, allowing her to address complex biomedical challenges effectively.

Awards and Honors 🏆

In 2024, Dr. Azimi received funding for her project titled “Artificial Intelligence Enabled Electrospinning Approach to Fight Pulmonary Cancer” through the Marie Skłodowska-Curie Actions-Seal of Excellence@UNIPI. This recognition underscores her innovative contributions to research and her commitment to addressing significant health challenges.

Membership 🤝

Dr. Azimi is an active member of various professional organizations related to Textile Engineering and materials science. Her memberships facilitate collaboration with peers and access to the latest advancements in her field, contributing to her continuous professional development.

Teaching Experience 📚

Dr. Azimi has experience in teaching and mentoring students in Textile Engineering, focusing on subjects related to textile chemistry and materials science. Her engaging teaching style and dedication to student success have made her a respected educator in her academic community.

🔬 Research Focus

Dr. Azimi’s current research includes developing biomimetic scaffolds for tissue regeneration, nanoparticle-mediated drug delivery systems for targeted therapy, and electroactive nanocomposites for electromechanical tissue engineering, particularly in the auditory system. She has been actively involved in nanomedicine, particularly exploring in vitro applications of piezoelectric ceramic nanomaterials such as zinc oxide, lithium niobate, and barium titanate nanoparticles, as well as their polymer composites for creating electrically sensitive cells. Her comprehensive research also addresses the development of devices from nano to macroscale, aimed at facilitating regeneration and modeling both normal and pathological tissues, with an emphasis on tissue engineering applied to electromechanically responsive tissues.

Conclusion 

Dr. Bahareh Azimi’s extensive research contributions, innovative methodologies, and dedication to advancing biomedical applications through materials science make her a strong candidate for the Best Researcher Award. Her work has the potential to significantly enhance health outcomes, particularly in the fields of tissue engineering and regenerative medicine. By addressing areas for improvement, such as public engagement and interdisciplinary collaboration, Dr. Azimi can further amplify her impact and leadership in research, reinforcing her candidacy for this prestigious recognition.

📚 Publication 

  • Antifouling Properties of Electrospun Polymeric Coatings Induced by Controlled Surface Morphology
    • Authors: Favrin, F.L., Zavagna, L., Sestini, M., Batoni, G., Danti, S.
    • Year: 2024
    • Journal: Energy and Environmental Materials
  • Electrospun Fiber-Based Tubular Structures as 3D Scaffolds to Generate In Vitro Models for Small Intestine
    • Authors: Zavagna, L., Canelli, E.F., Azimi, B., Milazzo, M., Danti, S.
    • Year: 2024
    • Journal: Macromolecular Materials and Engineering
  • Development and Characterization of Sodium Alginate-Based Bio-hybrid Super Absorbent Polymer with High Retention Capacity Suitable for Baby Diapers
    • Authors: Ismaeilimoghadam, S., Jonoobi, M., Hamzeh, Y., Seggiani, M., Danti, S.
    • Year: 2024
    • Journal: Journal of Polymers and the Environment
  • Piezoelectric Yield of Single Electrospun Poly(acrylonitrile) Ultrafine Fibers Studied by Piezoresponse Force Microscopy and Numerical Simulations
    • Authors: Montorsi, M., Zavagna, L., Scarpelli, L., Danti, S., Labardi, M.
    • Year: 2024
    • Journal: Polymers
  • Remnant polarization and structural arrangement in P(VDF-TrFE) electrospun fiber meshes affect osteogenic differentiation of human mesenchymal stromal cells
    • Authors: Azimi, B., Labardi, M., Sorayani Bafqi, M.S., Persano, L., Danti, S.
    • Year: 2024
    • Journal: Materials and Design
  • Recent advances in biomaterials for tissue-engineered constructs: Essential factors and engineering techniques
    • Authors: Norouzi, S., Saveh Shemshaki, N., Norouzi, E., Aboudzadeh, M.A., Bagherzadeh, R.
    • Year: 2024
    • Journal: Materials Today Chemistry
  • Bacterial Cellulose Electrospun Fiber Mesh Coated with Chitin Nanofibrils for Eardrum Repair
    • Authors: Azimi, B., Rasti, A., Fusco, A., Danti, S., Lazzeri, A.
    • Year: 2024
    • Journal: Tissue Engineering – Part A
  • Self-Powered Nanostructured Piezoelectric Filaments as Advanced Transducers for New Cochlear Implants
    • Authors: Mokhtari, F., Danti, S., Azimi, B., Varley, R.J., Razal, J.M.
    • Year: 2024
    • Journal: Energy and Environmental Materials
  • Emerging Multiscale Biofabrication Approaches for Bacteriotherapy
    • Authors: Rovelli, R., Cecchini, B., Zavagna, L., Batoni, G., Danti, S.
    • Year: 2024
    • Journal: Molecules
  • Application of Cellulose-Based Materials as Water Purification Filters; A State-of-the-Art Review
    • Authors: Azimi, B., Sepahvand, S., Ismaeilimoghadam, S., Jonoobi, M., Danti, S.
    • Year: 2024
    • Journal: Journal of Polymers and the Environment

Dr Tanmoy Bhattacharya | Computational Modeling | Best Researcher Award

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Dr Tanmoy Bhattacharya |  External Professor | Best Researcher Award🏆

External Professor at Santa Fe Institute,United States🎓

Tanmoy Bhattacharya is a distinguished scientist and researcher, currently holding the position of Scientist 5 and Laboratory Fellow at Los Alamos National Laboratory (LANL) and serving as an External Professor at the Santa Fe Institute. With a career spanning over three decades, Bhattacharya has made significant contributions to physics, computational biology, and microbiology. He is renowned for his interdisciplinary research, leadership in scientific collaborations, and innovations in computational tools that have had a lasting impact on the scientific community.

Professional Profile 

🧑‍🎓Education🎓

Tanmoy Bhattacharya’s academic journey began at the prestigious Indian Institute of Technology (IIT) Kharagpur, where he earned his B.Sc. in Physics in 1982, followed by an M.Sc. in Physics in 1984 under the guidance of Prof. Debabrata Basu. He then pursued his Ph.D. in Physics at the Tata Institute of Fundamental Research in Bombay, India, completing his dissertation on “Tree Unitarity Breakdown in Spontaneously Broken N=1 Supergravity Theories and Phenomenology of a Superlight Gravitino” in 1989 under the mentorship of Prof. Probir Roy.

💼Work Experience

Bhattacharya’s professional career began with post-doctoral fellowships at Brookhaven National Laboratory, Centre de Energie Atomique in Saclay, and Los Alamos National Laboratory (LANL) between 1989 and 1995. He transitioned to a staff role at LANL in 1995 and has been a significant contributor to the laboratory ever since. His roles have evolved from Limited Term Staff Member to Scientist 5 and Laboratory Fellow, reflecting his growing expertise and leadership within the institution. Additionally, he served as a Professor at the Santa Fe Institute from 2006 to 2017 and continues to contribute as an External Professor.

🛠️Skills

Tanmoy Bhattacharya possesses a wide range of skills, including expertise in theoretical physics, computational biology, and microbiology. His technical skills extend to programming and software development, having contributed to the creation of tools like hyperTeX, the hyperref LaTeX package, and the development of the Apache webserver. His ability to lead large-scale research collaborations and his contributions to computational methods in high-energy physics and lattice quantum chromodynamics demonstrate his proficiency in both scientific research and technical innovation.

🏆Awards and Honors

Bhattacharya has been the recipient of numerous prestigious awards throughout his career. Some of his notable honors include the Los Alamos Distinguished Performance Award (1999, 2022), the Duke CHAVI-ID Outstanding Contributions Award (2015), and recognition as a Highly Cited Researcher by Clarivate Analytics in multiple years (2016, 2018, 2019, 2020). In 2020, he was named a Los Alamos Laboratory Fellow, a testament to his exceptional contributions to the scientific community. Most recently, in 2023, he was recognized among the top scientists in Biology and Biochemistry by research.com and was part of the LANL team that won an R&D 100 award for the “CANDLE” project.

 Membership 🏛️

Tanmoy Bhattacharya is a member of the American Physical Society, actively participating in divisions such as Computational Physics and Particles and Fields. He has held leadership roles in the US Lattice Quantum Chromodynamics (USQCD) collaboration, contributing to the strategic direction of high-energy physics. Additionally, he moderates the hep-lat arXiv and is involved in the International Society of Genetic Genealogy.

Research Focus 🔬

Bhattacharya’s research focuses primarily on theoretical physics, computational biology, and microbiology. His work in lattice quantum chromodynamics (LQCD) has been pivotal in understanding fundamental particles and forces. In the field of computational biology, he has made significant contributions to HIV research and genetic analysis, as evidenced by his work with the HIV Genetics and HIV Database teams at LANL. His interdisciplinary approach allows him to tackle complex problems at the intersection of physics, biology, and computer science, making his research both innovative and impactful across multiple fields.

📖Publications : 

  1. High dimensional predictions of suicide risk in 4.2 million US Veterans using ensemble transfer learning
    🗓️ 2024 | 📰 Scientific Reports | 🧠📈
  2. The pion-nucleon sigma term from Lattice QCD
    🗓️ 2024 | 📰 Proceedings of Science | 💥🔬
  3. Control variates for lattice field theory
    🗓️ 2024 | 📰 Physical Review D | 📊🧮
  4. Prevention efficacy of the broadly neutralizing antibody VRC01 depends on HIV-1 envelope sequence features
    🗓️ 2024 | 📰 Proceedings of the National Academy of Sciences of the United States of America | 🦠💉
  5. Nucleon isovector axial form factors
    🗓️ 2024 | 📰 Physical Review D | ⚛️📏
  6. Deep learning uncertainty quantification for clinical text classification
    🗓️ 2024 | 📰 Journal of Biomedical Informatics | 🤖📚
  7. Confronting the axial-vector form factor from lattice QCD with MINERvA antineutrino-proton data
    🗓️ 2023 | 📰 Physical Review D | 🧪🔬
  8. Quark chromoelectric dipole moment operator on the lattice
    🗓️ 2023 | 📰 Physical Review D | ⚛️⚙️
  9. Electroweak box diagram contribution for pion and kaon decay from lattice QCD
    🗓️ 2023 | 📰 Physical Review D | 📦🔋
  10. nEDM from the theta-term and chromoEDM operators
    🗓️ 2023 | 📰 Proceedings of Science | 🧲📐