Salam Titinchi | Stem Cell Research | Editorial Board Member

Published on by Cell Biologist

Prof. Dr. Salam Titinchi | Stem Cell Research | Editorial Board Member

University of the Western Cape | South Africa

Professor J.J. Titinchi is an established chemist with extensive expertise in inorganic, organic, and materials chemistry, with a strong emphasis on functional materials and catalytic systems. His research focuses on the design, synthesis, and application of heterogeneous catalysts, nanostructured materials, metal–organic frameworks, and functional inorganic materials for sustainable chemical processes, including green chemistry, energy conversion, and environmental remediation. With over three decades of academic experience, he has made significant contributions to advancing structure–property relationships in catalytic and functional materials and their industrial and environmental applications. His scholarly output reflects consistent impact, with an h-index of 25 (Scopus) and approximately 1,760 citations, underscoring the relevance of his work in materials and chemical sciences. He has supervised a substantial number of postgraduate researchers, contributing to capacity building and knowledge transfer in advanced chemistry research. His international research engagement is reflected through collaborative programs and visiting professorships, particularly in the United States and Europe. In addition, he has played a leading role in shaping the scientific community through organizing and chairing international conferences on functional materials, chemical engineering, and nanotechnology. His sustained research productivity and recognition as an established researcher highlight his significant contribution to contemporary chemical and materials research.

Profile: Scopus

Featured Publications:

Titinchi, J. J., et al. (2025). C4C recent developments: Carbonaceous-supported catalysts for CO₂ conversion into cyclic carbonates. [Journal name not specified].

Titinchi, J. J., et al. (2024). Overcoming curcumin’s limitations: Synthetic derivatives in diabetes and cancer management. [Journal name not specified].

Titinchi, J. J., et al. (2025). Asymmetrical curcumin derivative: Synthesis, structural exploration, Hirshfeld surface analysis, and computational study. Structural Chemistry.

Titinchi, J. J., et al. (2025). Synthesis, in silico and antimicrobial activity study of substituted aromatic imines and their corresponding amines. Results in Chemistry.

Titinchi, J. J., et al. (2025). Fault seal analysis for geological carbon dioxide storage in the Pletmos Basin, offshore South Africa. Marine Georesources and Geotechnology.

Titinchi, J. J., et al. (2024). Evaluating the therapeutic potential of curcumin and synthetic derivatives: A computational approach to anti-obesity treatments. International Journal of Molecular Sciences.

Titinchi, J. J., et al. (2023). Medicinal chemistry perspectives on the development of piperazine-containing HIV-1 inhibitors. [Journal name not specified].

Titinchi, J. J., et al. (2023). Substituent and solvent effects on UV–visible absorption spectra of chalcone derivatives: Experimental and computational studies. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy.

Titinchi, J. J., et al. (2023). Curcuminoid nanovesicles as advanced therapeutics. [Journal name not specified].

Tarun katheriya | Stem Cell Research | Research Excellence Award

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Dr. Tarun katheriya | Stem Cell Research | Research Excellence Award

IIT BHU Varanasi | India

Tarun Katheriya is a physicist with extensive expertise in the synthesis, characterization, and analysis of advanced functional materials, particularly negative-permittivity ceramics, perovskites, and multifunctional composites for electromagnetic interference (EMI) shielding and wearable electronics. His Ph.D. research focused on developing epsilon-negative materials, including layered perovskites and glass-ceramics, with tunable dielectric and conductive properties. He has synthesized a variety of electro-ceramics and glass-ceramics, exploring their dielectric behavior through classical and modified Drude models, and demonstrated their EMI shielding effectiveness. Notably, his work includes investigating coil-less inductive properties in conducting ceramics and studying the electrochemical performance of these materials. Katheriya has contributed to understanding the correlation between conductivity and permittivity in doped perovskites, as well as high-temperature dielectric properties in layered oxides. His research integrates experimental synthesis with theoretical modeling, advanced characterization techniques such as XRD, SEM, impedance analysis, and vector network analysis, and simulation tools including FullProf, Zview, and Gaussian. His published work highlights innovations in metal-free nanocomposites, negative-permittivity behavior, and multifunctional EMI shielding, positioning him at the forefront of materials development for next-generation electronic applications.

Profiles: Google Scholar | Scopus | Orcid

Featured Publications: 

  1. Katheriya, T., Pandey, S., & Upadhyay, S. (2025). New frontiers in ceramic composites: Tunable electromagnetic interference shielding by realizing negative permittivity in SnO₂/LaNiO₃ nanocomposites. Journal of Materials Chemistry C.

  2. Katheriya, T., Nirala, G., & Upadhyay, S. (2025). Study of negative permittivity in nanosized LaNiO₃ for electromagnetic interference shielding: A modified Drude model approach. ACS Applied Electronic Materials.

  3. Katheriya, T., Nirala, G., & Upadhyay, S. (2024). Establishing the correlation of negative permittivity and AC conductivity of La₂₋ₓSrₓNiO₄ (x = 0, 0.1, 0.3, 1.0) for microwave shielding applications. Journal of Materials Chemistry C, 12(23), 8473–8484.

  4. Katheriya, T., & Upadhyay, S. (2023). High-temperature study of dielectric and electrical conduction behavior of La₂NiO₄. Physica Scripta, 98(10), 105969.

  5. Verma, H., Mittal, A., Kumar, P., Katheriya, T., Bhattacharya, B., & Upadhyay, S. (2025). Enhanced supercapacitor performance of rGO-modified LaFeO₃ perovskite: Experimental and DFT insights. Materials Chemistry and Physics, 131771.

  1. Nirala, G., Katheriya, T., Yadav, D., Verma, H., & Upadhyay, S. (2023). The evolution of coil-less inductive behavior in La-doped Sr₂MnO₄. Emergent Materials, 6(6), 1951–1962. https://doi.org/[DOI if available]Nirala, G., Yadav, D., Katheriya, T., & Upadhyay, S. (2022). Temperature-dependent negative permittivity in solid solutions Sr₂Mn₁₋ₓSnₓO₄ (x = 0, 0.3, 0.5). Journal of the European Ceramic Society, 42(2), 453–461.

  2. Nirala, G., Katheriya, T., Yadav, D., Pandey, S., & Upadhyay, S. (2022). Effect of Nb doping on epsilon negative behaviour of Sr₂MnO₄. Journal of Materials Science, 57(33), 15862–15875.

  3. Mishra, R. K., Avinashi, S. K., Kumari, S., Nain, R., Katheriya, T., Dwivedi, R. K., … Gautam, C. (2024). Synergistic doping effect of La₂O₃ on BaO–TiO₂–SiO₂ glass-ceramics: Evolution of physical, structural, morphological, and dielectric behaviour for electronics applications. Journal of Alloys and Compounds, 990, 174354.

ALICIA MARIA TAMAYO CARBON | Stem Cell Research | Women Researcher Award

Published on by Cell Biologist

Dr. ALICIA MARIA TAMAYO CARBON | Stem Cell Research | Women Researcher Award

Dr. ALICIA MARIA TAMAYO CARBON , HOSPITAL CLÍNICO QUIRÚRGICO HERMANOS AMEIJEIRAS , Cuba

Dra. C. Alicia María Tamayo Carbón is a highly accomplished specialist in plastic surgery and caumatology at the Hermanos Ameijeiras Clinical and Surgical Hospital in Cuba. With extensive academic and professional qualifications, she holds a medical degree, multiple specializations in comprehensive general medicine, plastic surgery, and caumatology, and is an expert in regenerative therapy. She is a researcher, professor, and author of numerous scientific papers and book chapters. Dra. Tamayo Carbón is recognized for her pioneering work in regenerative therapy using adipose tissue. She has received national recognition with awards like the National Impact Award from ANIR and the Meritorious Researcher Award from CIGB. Dra. Tamayo has collaborated with various institutions on groundbreaking research in regenerative medicine and gender reassignment. She is a prominent member of several professional organizations, contributing significantly to medical advancements in Cuba and beyond.

Publication Profile: 

Orcid

Strengths for the Award:

Dra. Alicia María Tamayo Carbón is an outstanding candidate for the Women Researcher Award due to her extensive contributions to the fields of plastic surgery, caumatology, and regenerative therapy. Her pioneering work in adipose tissue-based regenerative therapy has had a profound impact on the medical community, both nationally and internationally. With 11 ongoing research projects, 125 published journals, and significant collaborations with renowned institutions, her academic and clinical achievements have earned her multiple accolades such as the National Impact Award and Meritorious Researcher Award. Additionally, her leadership roles in scientific councils and her involvement in various groundbreaking projects highlight her influence and dedication to advancing medical practices, particularly in cosmetic and reconstructive surgery, as well as in gender reassignment. Her contributions have also led to the publication of books, patents, and a strong academic presence.

Areas for Improvement:

While Dra. Tamayo’s work is extensive and impactful, expanding her visibility in international collaborations outside of Cuba and increasing her citation index could enhance her global recognition. Further engagement in multidisciplinary collaborations, particularly in the areas of advanced technologies like AI or machine learning in surgery, could be explored to push the boundaries of her work in regenerative therapy.

Education:

Dra. Alicia María Tamayo Carbón’s academic journey reflects her dedication to advancing medical knowledge and practice. She began with a medical degree, followed by first-degree specialization in comprehensive general medicine. Her pursuit of excellence continued as she achieved both first- and second-degree specialization in plastic surgery and caumatology. Additionally, she holds a diploma in healthcare management and a university postgraduate degree in aesthetic medicine from the University of the Atlantic, Barcelona, Spain. Her academic foundation is complemented by a specialization in regenerative therapy, reinforcing her commitment to innovative treatments in her field. Dra. Tamayo Carbón’s academic achievements are paired with a passion for teaching, as she serves as a professor for the Master’s program in Aesthetic Medicine in Barcelona. Her educational path has laid the groundwork for her contributions to regenerative therapy and aesthetic medicine, making her a recognized expert in her field.

Experience:

Dra. Alicia María Tamayo Carbón boasts a rich professional background in plastic surgery and regenerative therapy. As a full professor and researcher, she has significantly contributed to the field of regenerative therapy, particularly in the use of adipose tissue for medical treatments. Her extensive experience is underscored by her clinical work at the Hermanos Ameijeiras Clinical and Surgical Hospital in Cuba. Dra. Tamayo has also held pivotal roles in national and international collaborations, including projects with the Cuban Institute of Hematology and Immunology and CEADEN, focusing on stem cell research and tissue engineering. She has been a key figure in developing regenerative therapy applications for skin disorders, gender reassignment, and reconstructive surgery. Her leadership as the head of the national specialty group and her board membership in the Cuban Society of Plastic Surgery and Caumatology further highlight her influence. Dra. Tamayo’s professional career is marked by continuous advancements in surgical and therapeutic techniques.

Research Focus:

Dra. Alicia María Tamayo Carbón’s research focus lies at the intersection of plastic surgery, regenerative medicine, and tissue engineering. Her groundbreaking work in regenerative therapy, particularly the use of adipose tissue and stem cells for medical treatments, has positioned her as a leader in this field. She has led numerous projects that explore adipose-derived stem cells, nanofat, and tissue engineering, particularly in reconstructive surgery, cosmetic procedures, and gender reassignment. Dra. Tamayo has collaborated with several national and international institutions to explore the phenotypic characterization of stem cells and their application in regenerative therapies. Her work also includes investigating new methods in tissue engineering, such as 3D bioprinting of biodegradable scaffolds for regenerative purposes. She has actively contributed to the development of clinical trials targeting stem cells from umbilical cord adipose tissue. Through her research, Dra. Tamayo Carbón aims to improve patient outcomes and advance the field of regenerative therapy in aesthetic and reconstructive surgery.

Publications Top Notes:

  1. “Utilidad del tejido adiposo en el tratamiento de las deformidades mentonianas. Un rescate de la lipotransferencia” 🦷💉
  2. “Identificación y caracterización de células madre hematopoyéticas en tejido adiposo obtenidas por nanograsa” 🧬🔬
  3. “Masculinización torácica aplicada al tratamiento de la ginecomastia grave” 💪🏽👨‍⚕️
  4. “Restauración volumétrica autóloga en pacientes con hemiatrofia adiposa facial” 🤲🏽💉
  5. “Mastoplastia de aumento, complemento indispensable de feminización en trastornos de identidad de género” 🌸🏥
  6. “Aplicación del protocolo de recuperación posquirúrgica mejorada en la liposucción abdominal” 💪🏼🛏️
  7. “Nanofat, su expansión en la asistencia médica” 🧴⚙️
  8. “Reconstrucción mamaria con colgajo dérmico en cirugía de lesión benigna con alto riesgo de malignidad” 💕🏥
  9. “Activation of the Immune System by Irresponsible use of Modeling Substances” 🦠⚠️
  10. “Tratamiento quirúrgico periorbitario, un enfoque desde la cirugía plástica” 👁️💉

Conclusion:

Dra. C. Alicia María Tamayo Carbón is an exemplary figure in the medical field, particularly in regenerative medicine and plastic surgery. Her groundbreaking research and continuous efforts to improve patient outcomes through innovative therapies make her a deserving candidate for the Research for Women Researcher Award. Her contributions have not only advanced scientific knowledge but also positively impacted clinical practices, demonstrating her exceptional commitment to both research and education. Dra. Tamayo’s expertise, leadership, and sustained contributions solidify her as a leader and an inspiration for future generations of female researchers.