Miriding Mutailipu | Inorganic Chemistry | Young Scientist Award

Prof Dr. Miriding Mutailipu | Inorganic Chemistry | Young Scientist Award🏆

Chinese Academy of Sciences, China

Author Profile

Early Academic Pursuits:

Prof. Miriding Mutailipu began his academic journey with a strong foundation in material science and engineering, earning his Bachelor of Science degree from the College of Material Science and Engineering at Hunan University. This provided him with essential knowledge in the field and laid the groundwork for his future research endeavors. He pursued his passion for inorganic functional materials by furthering his studies at the Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Sciences. Here, he completed his Ph.D. in Material Physics and Chemistry under the guidance of Prof. Dr. Shilie Pan. During this time, he delved into the intricate realm of metal borates, setting the stage for his subsequent research focus.

Professional Endeavors:

After completing his Ph.D., Prof. Mutailipu continued his academic journey at the Xinjiang Technical Institute of Physics & Chemistry, Chinese Academy of Sciences, where he progressed from an Associate Professor to a Full Professor in Material Physics and Chemistry. Throughout his career, he has dedicated himself to advancing the understanding and application of borate chemistry, particularly in the design and synthesis of novel optical functional materials.

Contributions and Research Focus:

His research has centered on the design, synthesis, and characterization of new borates with a keen focus on their optical properties. His investigations into the structural chemistry of metal borates and their potential as nonlinear optical materials have led to significant advancements in the field. His expertise extends to single crystal growth and characterization, allowing for a comprehensive understanding of the correlation between crystal structure and material properties.

Accolades and Recognition:

His contributions to the field of borate chemistry have earned him recognition both nationally and internationally. As evidenced by his extensive publication record in prestigious peer-reviewed journals and the authorization of multiple Chinese invention patents, his work has made a significant impact on the scientific community. He has received funding and support from various prestigious organizations, including the National Key R&D Program of China and the National Natural Science Foundation of China.

Impact and Influence:

His research has not only expanded the fundamental understanding of borate chemistry but also has practical implications in the development of new materials with tailored optical properties. His work has the potential to drive advancements in various fields, including photonics, telecommunications, and optoelectronics.

Legacy and Future Contributions:

His legacy lies in his pioneering research in borate chemistry and his dedication to advancing the field of inorganic functional materials. His work serves as a foundation for future researchers to build upon, offering new avenues for exploration and innovation. Moving forward, he continues to contribute to the scientific community through his ongoing research, mentorship of young scientists, and pursuit of knowledge at the forefront of material science and chemistry.

Citations

A total of  3948 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations           3948
  • h-index              27
  • i10-index           44

Notable Publications 

Achieving the full-wavelength phase-matching for efficient nonlinear optical frequency conversion in C (NH2) 3BF4

Discovery of First Magnesium Fluorooxoborate with Stable Fluorine Terminated Framework for Deep‐UV Nonlinear Optical Application

Hydroxyfluorooxoborate Na [B3O3F2 (OH) 2]⋅[B (OH) 3]: Optimizing the Optical Anisotropy with Heteroanionic Units for Deep Ultraviolet Birefringent Crystals

PbB5O7F3: A High-Performing Short-Wavelength Nonlinear Optical Material

Toward the enhancement of critical performance for deep-ultraviolet frequency-doubling crystals utilizing covalent tetrahedra

Achieving the full-wavelength phase-matching for efficient nonlinear optical frequency conversion in C (NH2) 3BF4

Strong nonlinearity induced by coaxial alignment of polar chain and dense [BO3] units in CaZn2 (BO3) 2

Borates: A Rich Source for Optical Materials

Guanidinium fluorooxoborates as efficient metal-free short-wavelength nonlinear optical crystals

 

Ketevan Tavamaishvili | Nanochemistry, Biocomposites, Medicinal Chemistry | Outstanding Scientist Award

Dr. Ketevan Tavamaishvili | Nanochemistry, Biocomposites, Medicinal Chemistry

Georgian American University, Georgia

Author Profile

Early Academic Pursuits:

Ketevan Tavamaishvili embarked on her academic journey with an innate curiosity for Chemical Sciences, which blossomed during her childhood. Graduating from Tbilisi State University in 1998, she obtained a degree equivalent to a Master’s in Chemistry in the United States. This solid foundation paved the way for her pursuit of higher education and research.

Professional Endeavors:

In 2004, Tavamaishvili achieved a significant milestone by completing her Doctorate program at Tbilisi State University, earning the esteemed title of Candidate of Sciences in Chemistry, akin to a Ph.D. in the U.S. Her professional journey thereafter saw her deeply immersed in scientific studies, academic writing, and collaborative research efforts.

Contributions and Research Focus:

Her contributions span a diverse array of disciplines within chemistry, including Nanochemistry, Medicinal Chemistry, and Analytical Chemistry. Her work has ranged from developing innovative methodologies for analyzing controlled substances like Buprenorphine to tackling environmental challenges such as the identification of persistent organic pollutants.

Accolades and Recognition:

Throughout her career, Her contributions have garnered recognition from esteemed institutions and individuals worldwide. Noteworthy accolades include receiving funding awards for her research endeavors, commendations from government officials including the President and Prime Minister of Georgia, and acknowledgment from international bodies like the U.S. Embassy.

Impact and Influence:

Her impact extends beyond academia, as evidenced by her involvement in projects with real-world implications. Her role in improving forensic analysis methodologies and securing FDA approval for medical methodologies underscores her influence in both scientific and regulatory spheres.

Legacy and Future Contributions:

As Tavamaishvili continues her research journey, her focus on investigating new nanomaterials for medical applications promises to contribute significantly to the field of medicine. Her legacy lies in her dedication to advancing scientific knowledge and translating research findings into tangible solutions for societal challenges.

Notable Publications

Air pollution modeling and its application XIX
C Borrego, AI Miranda
(5) 2008

Theoretical review and clinical use. Quantitative assessment of the autonomic nervous system based on heart rate variability analysis. Valley Stream, NY: Intellewave
A Riftine
(4) 2016

Theoretical review and clinical use
A Riftine
(2) 2016

Biomimetic VEGF-loaded bilayer scaffold fabricated by 3D printing and electrospinning techniques for skin regeneration
AMD Pajooh, M Tavakoli, MH Al-Musawi, A Karimi, E Salehi, ...
2024

Recent advances in nanocarrier-based targeted drug delivery: for lung, colon, and breast cancers
P Sabouri, S Bahdori, A Mohsennejadesaniyani, SMR Hosseini, ...
2023

Journal of Composites and Compounds
W He, Y Wang, L Zhong, SA Delbari, AS Namini, D Kim, HW Jang, ...
2023

Estimation of sources of environmental contamination by polychlorinated biphenyls on the territory of Georgia
KG Ketevan Tavamaishvili, Koba Amirkhanashvili
2010

Research mercury organic compounds created in the system: Hg (II)-Fulvic acid by the method GC
N Buachidze, K Chikviladze, K Tavamaishvili
2005

Recent advances in nanocarrier-based targeted drug delivery for lung, colon, and breast cancers
LA Marika Sulashvili, Darya Nejadkoorki, Ketevan Tavamaishvili, Husain ...

Intellewave Heart Rate Variability testing with clusterization of Spectral Function Components
A Riftine

GEORGIAN Engineering News 2006, Vol. 3
KD Amirkhanashvili, KG Tavamaishvili, KM Gamkrelidze

GEORGIAN ENGINEERING NEWS
KD Amirkhanaslivili, LG Eprikashvili, KG Tavamaishvili

 

Mª Vanessa Tabernero | Chemistry | Women Researcher Award

Dr. Mª Vanessa Tabernero | Chemistry | Women Researcher Award

Magro Universidadd E Alcalá, Spain

Author Profile

Early Academic Pursuits:

Dr. María Vanessa Tabernero Magro began her academic journey by earning a PhD in Chemistry from the University of Alcalá, where she currently serves as a Lecturer (Associate Professor) in Inorganic Chemistry. Her early research focused on the synthesis and characterization of group 4 metals complexes with cyclopentadienyl ligands, specifically their activity as catalysts in Ziegler-Natta processes for styrene and ethylene polymerization.

Professional Endeavors:

Throughout her career, She has engaged in diverse research endeavors, including research stays at the Universitá degli Studi di Salerno, Italy, under the guidance of Prof. Dr. Alfonso Grassi. She expanded her research to heterogeneous polymerization processes, developing a new type of solid cocatalyst for Ziegler-Natta ethylene polymerization using modified clays. Her contributions also extend to catalytic processes, exploring s-block metal compounds for ring opening polymerization, and investigating catalytic oxidation of olefins and sulfides, along with the obtention of biopolymers.

Contributions and Research Focus:

With a research experience spanning more than 15 years, She has made significant contributions, supervising multiple doctoral theses and contributing to various innovative teaching projects. Her research, reflected in 28 articles in high-impact journals, spans areas such as polymerization, catalysis, and the synthesis of biopolymers from biomass.

Accolades and Recognition:

Her impactful work has garnered recognition, with an H-index of 13 and 398 citations. Notably, she led the project "Titanium nanocatalysts for sulfoxidation processes" and received awards in 2020 and 2022 for the "Most original and innovative formula for disseminating science to society" at the Science Promotion and Popularisation Awards.

Impact and Influence:

Dr. Tabernero Magro's impact extends beyond research, with active participation in numerous national and international research projects. As the Dean of Chemistry Degree at the University of Alcalá from 2017 to 2023, she played a crucial role in shaping the academic landscape.

Legacy and Future Contributions:

Her legacy includes a wealth of scientific publications, successful supervision of doctoral and master's theses, and a substantial teaching experience of over 3,500 hours. Currently involved in the "GREATBOND" project, Dr. Tabernero Magro continues to contribute to greener approaches for smart composite hybrid materials.In the future, her focus on polymerization from biomass, particularly promising results with anethole and myrcene, showcases a commitment to sustainable and circular practices in the field of chemistry. Dr. Tabernero Magro's dedication to both research and education positions her as a significant figure in the chemistry community, leaving a lasting impact on the scientific landscape.

Citations

A total of  439 citations for his publications, demonstrating the impact and recognition of his research within the academic community.
  • Citations               439
  • h-index                  13
  • Documents           27

Notable Publications 

Titanium-catalyzed synthesis of polymyrcene and polyanethol and application as sustainable additives for poly(lactic acid)

σ-Hole triel bonds in aluminium derivatives

Stereospecific synthesis of chiral titanium complexes bearing a bifunctionalized cyclopentadienyl-terpenoid ligand derived from α-pinene

Cyclopentadienyl-silsesquioxane titanium compounds as suitable candidates for immobilization on silica-based supports

Intramolecular C-F Activation in Schiff-Base Alkali Metal Complexes

Aluminates with fluorinated schiff bases: Influence of the alkali metal–fluorine interactions in structure stabilization

Chiral Titanium(IV) Complexes Containing Polydentate Ligands Based on α-Pinene. Catalytic Activity in Sulfoxidation with Hydrogen Peroxide