11.5.20-Beijing-Xuanhe-Zhao

Conference Video|Duration: 24:56
November 5, 2020
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    Whereas human tissues and organs are mostly soft, wet and bioactive; machines are commonly hard, dry and biologically inert. Merging humans, machines and their intelligence is of imminent importance in addressing grand societal challenges in health, sustainability, security, education and joy of living. However, interfacing humans and machines is extremely challenging due to their fundamentally contradictory properties. At MIT Zhao Lab, we exploit soft materials technology to form long-term, high-efficacy, multi-modal interfaces and convergence between humans and machines.

    In this talk, I will first discuss the mechanics and general principles to design extreme properties including tough, resilient, adhesive, strong, fatigue-resistant and conductive for soft materials. Then I will discuss a set of soft materials technology platforms, including i). bio adhesives for instant strong adhesion of diverse wet dynamic tissues and machines; ii).bio electronics for long-term multi-modal neural interfaces; iii). Bio robots for teleoperated and autonomous navigations and operations in previously inaccessible lesions such as in cerebral and coronary arteries. I will conclude the talk with a perspective on future human-machine convergence enabled by soft materials technology.
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  • Video details
    Whereas human tissues and organs are mostly soft, wet and bioactive; machines are commonly hard, dry and biologically inert. Merging humans, machines and their intelligence is of imminent importance in addressing grand societal challenges in health, sustainability, security, education and joy of living. However, interfacing humans and machines is extremely challenging due to their fundamentally contradictory properties. At MIT Zhao Lab, we exploit soft materials technology to form long-term, high-efficacy, multi-modal interfaces and convergence between humans and machines.

    In this talk, I will first discuss the mechanics and general principles to design extreme properties including tough, resilient, adhesive, strong, fatigue-resistant and conductive for soft materials. Then I will discuss a set of soft materials technology platforms, including i). bio adhesives for instant strong adhesion of diverse wet dynamic tissues and machines; ii).bio electronics for long-term multi-modal neural interfaces; iii). Bio robots for teleoperated and autonomous navigations and operations in previously inaccessible lesions such as in cerebral and coronary arteries. I will conclude the talk with a perspective on future human-machine convergence enabled by soft materials technology.
Locked Interactive transcript

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