Dr. Liang Guo is currently the Founder & CEO of Twibetu, Inc., a neurotechnology startup based in the Silicon Valley at California. He had studied and worked for many years at renowned universities in China and the United States, as well as well-known technology company in Silicon Valley. He is a world-renowned scientist in the field of neural interface technology, founder of the emerging field of cybertissue neuroprosthetics, and the first Chinese scientist worldwide to engage in stretchable electronics and stretchable neural interfaces research. Previously, he had worked at Amazon's Lab126 in Silicon Valley, California. Before joining Amazon, he had been an associate professor in the Department of Electrical and Computer Engineering at The Ohio State University. He obtained his Bachelor's degree in Biomedical Engineering from Tsinghua University in 2004 and his Ph.D. degree in Bioengineering from the Georgia Institute of Technology in 2011. He then conducted postdoctoral research at the Massachusetts Institute of Technology under the guidance of the renowned Professor Robert S. Langer. In September 2013, he became an assistant professor (tenure-track) in the Department of Electrical and Computer Engineering and the Department of Neuroscience at The Ohio State University, and was promoted to associate professor in May 2021. During his seven years at The Ohio State University from 2013 to 2021, he obtained more than ten research grants as the principal investigator (PI) with a total self funding of close to 1.7 million dollars. His main research interest lies in the application of neural interface technology to brain-computer interface systems, including stretchable neural microelectrodes, biomaterials, neural tissue engineering, biophysical modeling and cybertissue neuroprosthetics. He has published over 30 scientific papers in internationally renowned academic journals such as Science, Advanced Materials, and IEEE Transactions on Biomedical Engineering, among which he was the first author or corresponding author of 28 papers. He has obtained five US or international patents related to his research and has written three scholarly books. His research has been cited over 2,100 times, and he has an H-index of 21. Dr. Guo has developed a theory on electrical neuronal interfacing, completely and thoroughly unraveling the underlying biophysical mechanisms and fundamental principles of neural interfacing, recording and stimulation. His textbook, ``Principles of Electrical Neural Interfacing: A Quantitative Approach to Cellular Recording and Stimulation''---an outcome of his integrative research and teaching summarizing this theory, represents an important textbook in the field of neural engineering. One of his research papers, ``Bio-Inspired Polymer Composite Actuator and Generator Driven by Water Gradients,'' published in Science in 2013, received strong international attention. It was covered by more than 20 mainstream media outlets, including C&EN, Boston Globe, NBC News, and ScienceDaily. It was also selected by the Massachusetts Institute of Technology as ``MIT's Best Research Paper of 2013" and appeared twice on the school's homepage. The high-density stretchable neural electrode array technology platform he developed during his Ph.D. research received a US patent and won a $370,000 technology translation fund (Small Business Innovation Research award) for Axion Biosystems, Inc. Dr. Guo currently serves as an associate editor for the Neural Technology specialty section of Frontiers in Neuroscience, as well as a reviewer for more than 40 high-level academic journals, including Advanced Materials, Nature Communications, Science Advances, etc. He is one of the few professors who have won two prestigious early-stage US national awards: the 2017 US Defense Advanced Research Projects Agency (DARPA) Young Faculty Award (DARPA’s most prestigious award for rising stars and elite researchers to develop innovative new research directions), and the 2018 US National Science Foundation (NSF) CAREER Award (NSF’s most prestigious award for academic role models in research and education). Dr. Guo's research areas are currently highly popular research and commercialization directions.