Current position: Yanpingliu website >>Research Focus
Yanping LIU

Personal Information

Professor  
Supervisor of Doctorate Candidates  
Supervisor of Master's Candidates  

Main positions:1. Instructor of the "Talent Program" of the Chinese Ministry of Education and the China Association for Science and Technology2. Specially appointed expert of Hunan Overseas Chinese Federation3. "Optics" , editorial board4. Member of American Physical Society, American Society of Electrical and Electronics Engineers, American Chemical Society, Royal Society of Chemistry.

Research Focus

Cross direction: Separation of chiral drug molecular , artificial bionic synaptic devices

  • Chirality is a key feature of many drugs, and the ability to selectively detect and manipulate chiral molecules is of great importance in drug development. HandyMolecule is a molecular screening and manipulation platform that uses artificial biosynthetic neural synapses to selectively detect and manipulate chiral molecules. It utilizes a unique combination of nanostructured electrodes and microfluidics to rapidly detect and manipulate chiral molecules, enabling accurate and efficient drug screening and development. The platform is capable of detecting and manipulating molecules in a wide range of sizes, shapes, and conformations, and can be used to identify and optimize new drugs. It also has the potential to be used in the development of novel drug delivery systems, such as targeted drug delivery, and can be used to investigate the effects of chirality on drug efficacy.

  • Artificial neuromorphic synapse device is a device that mimics the function of a biological synapse. It is based on the principles of artificial intelligence and machine learning, and is able to process and transmit information in a similar way to the human brain. The device consists of an array of transistors, capacitors and resistors that can be programmed to simulate the behavior of a biological synapse. It can be used to create artificial neural networks, which are used in artificial intelligence applications such as image recognition and natural language processing. The device can also be used to create neuromorphic computing systems, which are capable of learning and adapting to changes in their environment.