HannaDanylovych | Biochemistry | Best Researcher Award

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HannaDanylovych | Biochemistry | Best Researcher Award

Dr. HannaDanylovych, Palladin Institute of Biochemistry of National academy Sciences of Ukraine, Β Ukraine.

Hanna V. Danylovych, born on May 20, 1974, in Kyiv, is a distinguished Ukrainian scientist specializing in biochemistry. With a Master’s degree in Biology from the National University of Kyiv Mohyla Academy, she has been a Senior Scientist at the O.V. Palladin Institute of Biochemistry since 2016. Her research focuses on elucidating the biochemical mechanisms of nitric oxide action on smooth muscle cells’ calcium transport systems, particularly in mitochondria. Hanna has published over 70 scientific articles and authored a monograph. She received the prestigious Palladin Award from the National Academy of Sciences of Ukraine in 2023.Β πŸ…πŸ“š

Publication Profile

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Education πŸŽ“

Dr.Hanna V. Danylovych, born on May 20, 1974, in Kyiv, Ukraine, embarked on her academic journey by earning a Master’s degree in Biology from the National University of Kyiv Mohyla Academy in 1999. Since then, she has dedicated her career to scientific exploration at the O.V. Palladin Institute of Biochemistry of the National Academy of Sciences of Ukraine. Rising through the ranks, she currently serves as a Senior Scientist in the Department of Muscle Biochemistry, where she delves into the intricate mechanisms governing smooth muscle physiology. With a Ph.D. in Biochemistry and a Doctorate in Biological Sciences, her research focuses on elucidating the roles of nitric oxide and macrocyclic polyphenolic compounds in regulating mitochondrial calcium transport systems, offering novel insights into smooth muscle function and bioenergetics.Β πŸ§ͺ

Professional Experience πŸ‘©β€πŸ’Ό

Dr.Hanna V. Danylovych, a prominent biochemist, has excelled in her career since 1999, specializing in muscle biochemistry at the O.V. Palladin Institute of Biochemistry, National Academy of Sciences of Ukraine. Her groundbreaking research on nitric oxide and mitochondrial function has garnered international recognition, including the prestigious Palladin Award. πŸ§¬πŸ†

Research Focus πŸ§ πŸ”¬

Dr.Hanna V. Danylovych’s research primarily focuses on elucidating the biochemical and physicochemical mechanisms underlying the action of reactive nitrogen and oxygen species on the Ca2+ transport systems of smooth muscle cells, particularly in the myometrium and uterine smooth muscle mitochondria. 🧬 Her investigations extend to studying nitric oxide biosynthesis and its regulatory effects on Ca2+ homeostasis and bioenergetic characteristics. Additionally, she explores the potential of macrocyclic polyphenolic compounds, such as calix[4]arenes, as modulators of mitochondrial Ca2+ transport systems. This research significantly contributes to understanding smooth muscle cell physiology and holds promise for developing novel therapeutic interventions.

Publication Top Notes

  1. A systematic literature review on trust in the software ecosystem
    F Hou, S Jansen
    πŸ“œ Empirical Software Engineering 28 (1), 8
    πŸ” Cited by: 15
    πŸ“… 2023
  2. Trustseco: A distributed infrastructure for providing trust in the software ecosystem
    F Hou, S Farshidi, S Jansen
    πŸ“œ International Conference on Advanced Information Systems Engineering, 121-133
    πŸ” Cited by: 11
    πŸ“… 2021
  3. TrustSECO: An interview survey into software trust
    F Jansen, S Jansen, F Hou
    πŸ“œ arXiv preprint arXiv:2101.06138
    πŸ” Cited by: 5
    πŸ“… 2021
  4. Analyzing the Performance of the Unmanned Bank to Explore the Failure Reasons for AI Projects
    F Hou
    πŸ“œ Proceedings of the 2nd International Conference on Artificial Intelligence …
    πŸ” Cited by: 5
    πŸ“… 2020
  5. The role of software trust in selection of open-source and closed software
    F Hou, F Jansen, A De Vries, S Jansen
    πŸ“œ 2023 IEEE/ACM 11th International Workshop on Software Engineering for …
    πŸ” Cited by: 2
    πŸ“… 2023
  6. Sentiment analysis for software quality assessment
    F Liang, F Hou, S Farshidi, S Jansen
    πŸ“œ Proceedings of the 22nd Belgium-Netherlands Software Evolution Workshop …
    πŸ” Cited by: 1
    πŸ“… 2023
  7. A survey of the state‐of‐the‐art approaches for evaluating trust in software ecosystems
    F Hou, S Jansen
    πŸ“œ Journal of Software: Evolution and Process, e2695
    πŸ“… 2024

 

 

 

Yang Gao | Advanced Functional Materials | Outstanding Scientist Award

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Prof. Yang Gao | Advanced Functional Materials | Outstanding Scientist Award

Prof. Yang Gao, China Agricultural University, China

🌟 Prof. Yang Gao is a distinguished scholar at China Agricultural University, specializing in elasticity and defects in quasicrystalline materials. With a B.S. from Beijing University of Technology and M.S. and Ph.D. from Peking University, he has made significant contributions to multi-physics phenomena interaction. As a Humboldt scholar and visiting professor at prestigious institutions worldwide, including Harvard and Columbia University, his research spans over 200 journal papers. Prof. Gao’s pioneering work includes developing accurate quasicrystalline beam and plate theories and optimizing material design for reliability and durability. He has received numerous awards, including the Humboldt Fellowship and Natural Science Awards. πŸ†

 

Publication Profile

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Research Focus

πŸ”¬ Prof. Yang Gao’s research focus lies in the intricate realm of quasicrystalline materials, particularly exploring their mechanical and physical behavior. With pioneering work in elasticity and defects, he has developed theoretical models and exact solutions for various problems in quasicrystal media. Prof. Gao’s investigations encompass multi-physics phenomena, including damage and failure analysis, reliability, and durability optimization. His contributions span from exact solutions for multilayered quasicrystal plates to the refinement of beam and plate theories. Through over 200 journal papers and numerous awards, he continues to advance understanding in this complex field, shedding light on the properties and applications of quasicrystals. 🌐

 

Publication Top Notes

Plane problems of cubic quasicrystal media with an elliptic hole or a crack

An exact solution for a multilayered two-dimensional decagonal quasicrystal plate

Free Vibration of a Multilayered One-Dimensional Quasi-Crystal Plate

Green’s functions of one-dimensional quasicrystal bi-material with piezoelectric effect

Three-dimensional Green’s functions for two-dimensional quasi-crystal bimaterials

General solutions of three-dimensional problems for two-dimensional quasicrystals

An exact closed-form solution for a multilayered one-dimensional orthorhombic quasicrystal plate

General solutions of plane elasticity of one-dimensional orthorhombic quasicrystals with piezoelectric effect

A general treatment of three‐dimensional elasticity of quasicrystals by an operator method

Three-dimensional exact thermo-elastic analysis of multilayered two-dimensional quasicrystal nanoplates