Advanced Materials and Liquid Crystal Institute
Kent State Researchers Use Liquid Crystal to Control Bacteria Movement
A liquid crystal research group at Kent State led by Oleg Lavrentovich, Ph.D., is knocking on the doors of the biomedical industry with its current project. The recent publication of research explains a technique of controlling bacteria movement with liquid crystal structures that could have a potential impact in many areas of research and medical care.
Kent State Researchers Challenge the Growing Antibiotic-Resistant Bacteria Problem With New Compound
“The pessimistic estimate is that by 2050, antibiotics could be obsolete,'' said Songping Huang, Ph.D., professor in the Department of Chemistry and Biochemistry in the College of Arts and Sciences. Huang and his Kent State team, including Min-Ho Kim, Ph.D., associate professor in the Department of Biological Sciences, are working on closing that chasm with the development of new antimicrobials.
Kent State Researchers Use Liquid Crystal to Control Bacteria Movement
A liquid crystal research group at Kent State led by Oleg Lavrentovich, Ph.D., is knocking on the doors of the biomedical industry with its current project. The recent publication of research explains a technique of controlling bacteria movement with liquid crystal structures that could have a potential impact in many areas of research and medical care.
Kent State Physics Professor Elected as 2020 Fellow of Prestigious Scientific Society
Jonathan V. Selinger, professor and Ohio Eminent Scholar in Kent State University’s Department of Physics, in the College of Arts and Sciences, and the Advanced Materials and Liquid Crystal Institute, has been elected a Fellow of the American Association for the Advancement of Science (AAAS), the world’s largest general scientific society and publisher of the journal Science.
Kent State Physics Professor Elected as 2020 Fellow of Prestigious Scientific Society
Jonathan V. Selinger, professor and Ohio Eminent Scholar in Kent State University’s Department of Physics, in the College of Arts and Sciences, and the Advanced Materials and Liquid Crystal Institute, has been elected a Fellow of the American Association for the Advancement of Science (AAAS), the world’s largest general scientific society and publisher of the journal Science.
Materials Science Research Receives Grant for New X-ray Scattering Instrument
Kent State University’s Advanced Materials and Liquid Crystal Institute soon will be home to a new X-ray scattering instrument capable of examining materials in scales from as small as a fraction of a nanometer to as large as several micrometers.
Physicists Analyze Organic Electrochemical Transistors for Medical Sensing
The medical and science communities are always seeking new ways to study and monitor organs and common diseases to improve human health and quality of life. While there is a seemingly endless need for versatile, low-cost, yet highly sensitive biochemical sensor devices, there are many step…
Graduate Student Creates Smart Glass for Privacy and Heat Applications
Yingfei Jiang, a College of Arts and Science graduate student in the Chemical Physics program and the Advanced Materials and Liquid Crystal Institute at Kent State University, and his advisor Deng-Ke Yang, Ph.D., a professor in the Department of Physics, have invented the first ever dual-mode smart glass technology that can control both radiant energy flow (heat) and privacy through a tinted material.
Environmental Science and Design 2020 Symposium Lives on Online
The COVID-19 pandemic halted Kent State University’s plans for the 2020 Environmental Science and Design Symposium, but it hasn’t impeded the spirit of the conference. In late April, Environmental Science and Design Research Initiative (ESDRI) leadership, in collaboration with representatives from …
Materials Science Research Receives Grant for New X-ray Scattering Instrument
Kent State University’s Advanced Materials and Liquid Crystal Institute soon will be home to a new X-ray scattering instrument capable of examining materials in scales from as small as a fraction of a nanometer to as large as several micrometers.