פרסים לחוקרים
פרופ דורון אורבך זכה בפרס ע"ש John B. Goodenough
Congratulations to Prof. Doron Aurbach from BINA and the Department of Chemistry on receiving the prestigious John Goodenough Award, established by the Electrochemical Society (ECS). This award honors outstanding researchers with proven achievements and significant contributions to the global energy research community.
כל הכבוד לדר' אולגה גירשביץ!!
🌟 Exciting News! 🌟
Thrilled to share that Dr. Olga Girshevitz has been awarded the Excellence Award at the IVS Conference for her outstanding contributions to surface science.
Her dedication, innovative approach, and commitment to advancing knowledge have truly set her apart. This recognition is a testament to her hard work and the impact she continues to make in BINA.
Congratulations, Dr Girshevitz! Your achievement inspires us all to strive for excellence.
פרופ' אייל הנדל זכה בפרס הרקטור היוקרתי לחדשנות מדעית
Prof. Handel was awarded for his pioneering work in genetic editing technologies to cure blood and immune system diseases. This year, he published two groundbreaking papers. In the first study, published in the journal Molecular Therapy Nucleic Acids, he presented preclinical evidence for the genetic correction of Bubble Boy Disease, a genetic disease characterized by the absence of an immune system. In the second study, published in the journal Nature Communications, Prof. Handel developed an innovative genetic editing method that replaces a faulty DNA segment with a correct one while removing the defective DNA from the genome. This method is preferable to existing genetic editing methods and may allow more efficient treatment of genetic diseases. To learn more about Prof. Handel and his research, you can watch this video: https://www.youtube.com/watch?v=oNuncsZQHOw&t=1s
דר' תומר לוי זכה בפרס הרקטור היוקרתי לחדשנות מדעית
Dr. Lewi was awarded for his research on the extraordinary optical properties of materials from the chalcogenide family. His team measured the highest refractive index ever reported in the optical field (n~11) in bismuth telluride, a topological quantum material with unique properties. They developed a nano-photonic component capable of compressing light to dimensions 10 times smaller than its wavelength. Additionally, they demonstrated that mapping the phase of light in a near field can provide information about the local optical properties of materials, which is not available in other ways. In another project, the team developed optical components that are not temperature-dependent and hold potential for space optics applications. To learn more about Dr. Lewi and his research, you can watch this video: https://youtu.be/me4m1G6UScg?si=NDJbhHpkDxpRBlIO