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| Figure 1 The relationship between cell traction and photoluminescence intensity changes and intensity time-domain changes constructed by InGaN/GaN multiple quantum well nanowires With funding from the National Natural Science Foundation of China (Approval Numbers: 61875015, 51872231, 82001982) and other funding, the Beijing Institute of Nano Energy and Systems Researcher Li Zhou, Researcher Zhai Junyi, Wang Zhonglin and a team of academician Wang Zhonglin jointly developed a real-time dynamic force for cardiomyocytes. Cells produce cell traction force (CTF) during the process of movement, migration, contraction, relaxation and stretching In response to this challenge, the collaborative research team proposed a method for real-time measurement of the force distribution of living cells with ultra-high spatial resolution based on the effect of piezoelectric optoelectronics The research work provides a new research method and platform for the clinical research of cardiovascular diseases, helps to understand the biomechanical properties of cardiomyocytes and the interaction between cardiomyocytes, cardiomyocytes and extracellular matrix, and for disease detection and drug screening.
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