Prof. Ali Maleki – Nanobiomaterials – Best Researcher Award

Prof. Ali Maleki - Nanobiomaterials - Best Researcher Award

Iran University of Science and Technology - Iran

Author Profile 

GOOGLE SCHOLAR

🌱 Early academic pursuits

Ali Maleki began his academic journey with a passion for chemistry, pursuing a bachelor's, master's, and doctoral degree, each contributing to his foundational expertise in the field. as a student, he exhibited a keen interest in organic and green chemistry, dedicating himself to unraveling the potential of environmentally friendly chemical processes. his early research laid the groundwork for his future innovations in nanochemistry and catalytic reactions.

👩‍🔬 Professional endeavors

currently a full professor at the iran university of science and technology (iust), ali maleki has cultivated a vibrant academic and research career. he actively engages in teaching, mentoring, and leading groundbreaking studies in chemistry. his professional journey is marked by a dedication to fostering innovation, reflected in his role as an editor and contributor to several prominent books and scholarly publications. his efforts have not only advanced the department of chemistry but have also elevated iust's reputation in the global academic community.

🔬 Contributions and research focus

Ali Maleki's research is centered around green chemistry, nanochemistry, and catalytic reactions. he has pioneered advancements in multicomponent reactions, heterocycles, and pharmaceutical compound synthesis. his work on magnetic, polymer, and hybrid nanomaterials has opened new frontiers in nanotechnology, Nanobiomaterials offering sustainable solutions for environmental and biomedical applications. his contributions also extend to the development of novel catalysts, which have enhanced the efficiency of organic reactions, further bridging the gap between theoretical and practical chemistry.

🏆 Accolades and recognition

with an h-index of 84, ali maleki's influence in the field of chemistry is undeniable. his work has been published in numerous high-impact journals such as coordination chemistry reviews and acs applied materials & interfaces. he has also edited and contributed chapters to several prestigious books, showcasing his expertise and Nanobiomaterials leadership in the scientific community. his research has earned him widespread recognition, solidifying his reputation as a global thought leader in chemistry.

🌍 Impact and influence

through his innovative research, ali maleki has made significant contributions to the fields of environmental sustainability, healthcare, and material science. his work on nanocomposites and biocompatible materials has advanced biomedical applications, offering new solutions for drug delivery, cancer therapy, and wastewater Nanobiomaterials remediation. his research not only addresses critical scientific challenges but also inspires the next generation of chemists to prioritize sustainability and innovation.

🔗 Legacy and future contributions

Ali Maleki's legacy lies in his ability to integrate green chemistry principles with cutting-edge nanotechnology. as he continues his academic and research endeavors, he is committed to expanding the boundaries of chemical science. his future work aims to further refine catalytic processes, develop smarter biomaterials, and explore the untapped potential of hybrid nanomaterials. through his dedication, he is set to leave an indelible mark on the world of chemistry, ensuring a more sustainable and innovative future.

Notable Publications 

  1. Title: A historical overview of the activation and porosity of metal–organic frameworks
    Authors: X. Zhang, Z. Chen, X. Liu, S.L. Hanna, X. Wang, R. Taheri-Ledari, A. Maleki, ...
    Journal: Chemical Society Reviews
  2. Title: Carbon based nanomaterials for tissue engineering of bone: Building new bone on small black scaffolds: A review
    Authors: R. Eivazzadeh-Keihan, A. Maleki, M. De La Guardia, M.S. Bani, K.K. Chenab, ...
    Journal: Journal of Advanced Research
  3. Title: Potassium phthalimide-N-oxyl: a novel, efficient, and simple organocatalyst for the one-pot three-component synthesis of various 2-amino-4H-chromene derivatives in water
    Authors: M.G. Dekamin, M. Eslami, A. Maleki
    Journal: Tetrahedron
  4. Title: A green, porous and eco-friendly magnetic geopolymer adsorbent for heavy metals removal from aqueous solutions
    Authors: A. Maleki, Z. Hajizadeh, V. Sharifi, Z. Emdadi
    Journal: Journal of Cleaner Production
  5. Title: Fe3O4/SiO2 nanoparticles: an efficient and magnetically recoverable nanocatalyst for the one-pot multicomponent synthesis of diazepines
    Authors: A. Maleki
    Journal: Tetrahedron
  6. Title: Green oxidation protocol: Selective conversions of alcohols and alkenes to aldehydes, ketones and epoxides by using a new multiwall carbon nanotube-based hybrid nanocatalyst
    Authors: A. Maleki
    Journal: Information not provided here.

Dr. Camila De Oliveira Melo – Nanotecnologia – Young Scientist Award

Dr. Camila De Oliveira Melo - Nanotecnologia - Young Scientist Award

Universidade Estadual da Paraíba - Brazil

Author Profile

SCOPUS

ORCID

🎓 Early academic pursuits

Camila De Oliveira melo began her journey into the world of pharmaceuticals with a bachelor’s degree in pharmacy from universidade estadual da paraíba (uepb) in 2015. her early academic interests focused on innovative drug delivery systems, specifically the pre-formulation study of polymeric nanoparticles to carry l-asparaginase, a promising approach for cancer treatment. her drive to explore advanced biotechnological solutions led her to pursue a master’s degree in pharmaceutical sciences (2018), where she worked on pla nanoparticles containing spiro-acridinic derivatives with anticancer activity. her strong foundation in biotechnology and pharmacy culminated in her doctoral degree from rede nordeste de biotecnologia (renorbio) at universidade federal do rio grande do norte (ufrn), where she focused on drug delivery systems aimed at cancer therapy using spiro-acridinic derivatives.

🔬 Professional endeavors

Camila’s professional experience is deeply rooted in biotechnology and pharmaceutical sciences. she has worked extensively in developing polymeric nanoparticles, contributing to innovative cancer treatments. her research during her doctorate involved the development and biological evaluation of spiro-acridinic-derived drug delivery systems, demonstrating her commitment to advancing cancer therapies. her expertise also extends to the creation of nanoemulsions containing essential oils, which offer potential in various pharmaceutical applications. camila has shown consistent dedication to improving the efficacy and solubility of hydrophobic drugs through inclusion complexes, broadening her contribution to pharmaceutical sciences.

🧬 Contributions and research focus

Camila's primary research focus lies in the development of cutting-edge drug delivery systems. her work has emphasized the creation of polymeric nanoparticles, specifically pla-based systems, aimed at improving the accumulation of therapeutic agents in tumor tissues via the enhanced permeability and retention (epr) effect. Nanotecnologia her research has contributed significantly to the advancement of cancer treatment, with a focus on increasing the bioavailability and effectiveness of hydrophobic drugs. additionally, camila’s exploration of nanoemulsions and inclusion complexes has opened doors for future applications in drug solubility and targeted delivery.

🏆 Accolades and recognition

in 2022, camila was recognized as one of the six brazilian researchers selected for the prestigious course "nanobiotecnologia aplicada ao combate da covid19," funded by the ministry of science, technology, and innovations (mctic). this recognition highlights her role as a leading figure in nanotechnology applications in brazil, Nanotecnologia particularly her expertise in employing nanoparticles for critical health challenges like cancer and covid-19. her work has been supported by notable funding bodies like the foundation for research support of the state of paraíba (fapesq), showcasing the trust in her research contributions.

🌍 Impact and influence

Camila’s contributions to cancer research, particularly in the area of nanoparticle-based drug delivery systems, have had a significant impact on the field of pharmaceutical biotechnology. her research has the potential to revolutionize cancer treatment by offering more effective drug delivery methods, enhancing drug Nanotecnologia solubility, and reducing side effects. her work on nanoemulsions and inclusion complexes also presents a wide range of pharmaceutical applications, influencing future research in drug development. camila's selection for the nanobiotechnology course reflects her growing influence in both national and international scientific communities.

🔮 Legacy and future contributions

Camila de Oliveira melo’s legacy lies in her groundbreaking research on nanoparticle-based drug delivery systems for cancer therapy. her work is a testament to her commitment to innovation and improving patient outcomes. moving forward, she is likely to continue making strides in the development of advanced drug delivery technologies, with the potential to influence future research in oncology, nanotechnology, and biopharmaceuticals. her expertise in enhancing drug solubility and efficacy positions her as a key player in the future of pharmaceutical biotechnology.

Notable Publications 

  • Title: Enhancing the Antischistosomal Activity of Carvacryl Acetate Using Nanoemulsion
    Authors: De Souza, R.L., Mengarda, A.C., Roquini, D.B., Moraes, J.D., Oliveira, E.E.
    Journal: Nanomedicine, 2023, 18(4), pp. 331–342
  • Title: Nanotechnology as a Tool to Improve the Biological Activity of Carvacrol: A Review
    Authors: Souza, R.L.D., Dantas, A.G.B., Melo, C.D.O., Felício, I.M., Oliveira, E.E.
    Journal: Journal of Drug Delivery Science and Technology, 2022, 76, 103834
  • Title: Therapeutic Efficacy of Carvacrol-Loaded Nanoemulsion in a Mouse Model of Schistosomiasis
    Authors: Xavier, E.S., de Souza, R.L., Rodrigues, V.C., Oliveira, E.E., de Moraes, J.
    Journal: Frontiers in Pharmacology, 2022, 13, 917363
  • Title: The Compound (E)-2-Cyano-N,3-diphenylacrylamide (JMPR-01): A Potential Drug for Treatment of Inflammatory Diseases
    Authors: Da Silva, P.R., Do Espírito Santo, R.F., Melo, C.O., de Moura, R.O., Dos Santos, V.L.
    Journal: Pharmaceutics, 2022, 14(1), 188
  • Title: Xylan Microparticles for Controlled Release of Mesalamine: Production and Physicochemical Characterization
    Authors: Urtiga, S.C.D.C., Alves, V.M.O., Melo, C.D.O., Oliveira, E.E., Egito, E.S.T.D.
    Journal: Carbohydrate Polymers, 2020, 250, 116929

Dr. Debalina Bhattacharya – Bionanotechnology – Best Researcher Award

Dr. Debalina Bhattacharya - Bionanotechnology - Best Researcher Award

MAULANA AZAD COLLEGE - India

Professional Profile

SCOPUS

Early Academic Pursuits

Debalina Bhattacharya began her academic journey in Microbiology, completing her graduation from the University of Calcutta in 2006. She then pursued her Master's degree from Jadavpur University, graduating in 2008. Her academic excellence continued with the award of a Ph.D. in NanoBiotechnology from Jadavpur University in 2014. Her early academic pursuits laid a strong foundation for her subsequent research and professional achievements.

Professional Endeavors

Following her Ph.D., Debalina Bhattacharya was awarded the prestigious UGC-Dr. DS Kothari postdoctoral fellowship in 2015, allowing her to conduct research at the Department of Biochemistry, University of Calcutta. In 2018, she received her second postdoctoral research grant from DST-SERB (National Post Doctoral Fellowship) at the Department of Biotechnology, University of Calcutta. Her postdoctoral work significantly advanced her expertise in NanoBiotechnology and related fields. Currently, she serves as an Assistant Professor at Maulana Azad College, a position she has held since 2019.

Contributions and Research Focus

Debalina Bhattacharya’s research interests span across Nanotechnology, Diabetes, Exosomal Biology, and Cancer Biology. Her work on the autophagic response pathway in type 2 diabetes, particularly with diabetic patient samples, is noteworthy. She has also worked extensively with different cancerous cell lines. Her expertise in various types of nanomaterial synthesis and polymer-based targeted drug delivery in malignant Bionanotechnology cell lines has led to significant advancements in these areas. Recently, she published two research papers in reputed international journals on Exosomal Biology for intercellular connections, highlighting her contributions to this emerging field.

Accolades and Recognition

Debalina Bhattacharya's research has garnered significant recognition. She has a citation index of 626 based on Scopus, demonstrating the impact of her work. She has published 23 review and research articles, 21 book chapters in renowned international publishing houses such as Elsevier, Wiley, Springer, and Taylor & Francis. Additionally, she has authored two books: "Nanocellulose: A Biopolymer for Biomedical Bionanotechnology Applications" (ISBN: 978-1-394-17237-5) and "Exosomal RNA: Role in Human Diseases and Therapy" (ISBN: 9780443140075, 0443140073). Her editorial appointments include Associate Editor in Frontiers in Fuels and Review Editor in Frontiers in Nanotechnology, reflecting her standing in the scientific community.

Impact and Influence

Debalina Bhattacharya's research has made significant contributions to the fields of Nanotechnology and Biomedical Sciences. Her work on nanomaterial synthesis and targeted drug delivery systems has potential applications in treating various diseases, including cancer and diabetes. Her research on exosomal biology for intercellular connections is pioneering, offering new insights into cellular communication and disease Bionanotechnology mechanisms. Her collaborations, such as with Dr. Mainak Mukhopadhyay of JIS University, further enhance the impact of her work.

Legacy and Future Contributions

As Debalina Bhattacharya continues her research and teaching, her legacy will be defined by her innovative contributions to Nanotechnology and Biomedical Sciences. Her work has already influenced these fields, and her ongoing research promises to yield further advancements. Her commitment to scientific excellence and her contributions to understanding and treating complex diseases ensure that her legacy will be enduring. Her future contributions will likely continue to shape the landscape of modern biomedical research, providing new solutions and insights into some of the most pressing health challenges of our time.

NOTABLE PUBLICATIONS

Assoc Prof Dr. Junxing Han – Nano Materials and Nano Catalysis – Best Researcher Award

Assoc Prof Dr. Junxing Han - Nano Materials and Nano Catalysis - Best Researcher Award

Institute of Resources and Environment, Beijing Academy of Science and Technology - China

AUTHOR PROFILE

SCOPUS

ORCID  

EARLY ACADEMIC PURSUITS

Junxing Han embarked on his academic journey with a Bachelor's degree from Hebei Normal University, where he developed a novel organometallic reduction method to convert D-(-)-α-phenylglycine to R-(-)-2-phenylglycinol. He continued his studies at the same institution, obtaining a Master's degree under the supervision of Professors Yanqin Liu and Shitian Han, where he synthesized various anticancer compounds and conducted successful cytotoxicity tests.

PROFESSIONAL ENDEAVORS

Han's professional career is marked by several prestigious positions. He served as an Assistant Professor at the Institute of Process Engineering, Chinese Academy of Sciences from 2012 to 2015. Subsequently, he held post-doctoral positions at Tulane University and the University of Helsinki, working on advanced catalysis and synthesis techniques. From 2018 to 2020, he was an Associate Professor at the Beijing Institute of Nanoenergy and Nanosystems, before moving to his current role at the Institute of Resources and Environment, Beijing Academy of Science and Technology in 2020.

CONTRIBUTIONS AND RESEARCH FOCUS ON NANO MATERILAS AND NANO CATALYSIS

Throughout his career, Han has made significant contributions to the field of catalysis and energy storage. His research interests include organic-inorganic hybrid materials, single-atom catalysts, Nano Materials and Nano Catalysis  and electrocatalysts for energy applications. Notable projects include the development of Fe-based single-atom catalysts for oxygen reduction reactions and the synthesis of dual-site single-atom catalysts for advanced oxidation reactions and hydrogen evolution reactions.

IMPACT AND INFLUENCE

Han's research has had a considerable impact on the scientific community, evidenced by his extensive publication record. His work on single-atom Fe-Nx-C catalysts and their applications in zinc-air batteries has been particularly influential, Nano Materials and Nano Catalysis with high citation rates in prestigious journals like Advanced Functional Materials and Nano Energy. His pioneering research has led to advancements in energy storage technologies and green chemistry, positioning him as a leading figure in his field.

LEGACY AND FUTURE CONTRIBUTIONS

Junxing Han's legacy is defined by his innovative approach to catalysis and sustainable energy solutions. His research has paved the way for more efficient and environmentally friendly technologies in the field of renewable energy and chemical engineering. Looking forward, Han aims to further explore the potential of single-atom catalysts and hybrid materials, contributing to the development of next-generation energy storage systems and green catalytic processes.

NOTABLE PUBLICATIONS

Functionalized melamine-based Dendron-OMS hybrids as highly-efficient catalysts for the nitroaldol (Henry) reaction   2024

Toxicity reduction of reverse osmosis concentrates from petrochemical wastewater by electrocoagulation and Fered-Fenton treatments  2022(19)

Pore Modified FDU-12 as a Novel Container for Dendron Growth  2017(5)

N-Doped Sub-3 nm Co Nanoparticles as Highly Efficient and Durable Aerobic Oxidative Coupling Catalysts  2016(16)

Promoting effects of MgO, (NH4)2SO4 or MoO3 modification in oxidative esterification of methacrolein over Au/Ce0.6Zr0.4O2-based catalysts  2016(27)