Energy-saving and carbon-reducing multifunctional bionic self-powered bicycle system
Our team combines the characteristics of snake scales with TENG technology to develop a bionic self-powered bicycle system, which includes multiple LEDs (light emitting diodes) warning subsystems and smart seat cushion with multiple pressure sensing units. Through the various structural designs based on contact electrification and electrostatic induction principles, our techniques can become one of the potential emerging green energy sources. And by converting various mechanical energy in the environment into electrical output, it can directly drive various electronic products and be used as various self-powered sensors for IOT (internet of things) applications.
Method for manufacturing an active substance for inducing self-lysis in microalgae cells, active substance obtained therefrom, and method for inducing self-lysis in microalgae cells
Method for manufacturing an active substance for inducing self-lysis in microalgae cells, active substance obtained therefrom, and method for inducing self-lysis in microalgae cells
Method for manufacturing an active substance for inducing self-lysis in microalgae cells, active substance obtained therefrom, and method for inducing self-lysis in microalgae cells
Method for manufacturing an active substance for inducing self-lysis in microalgae cells, active substance obtained therefrom, and method for inducing self-lysis in microalgae cells
Technology maturity:Prototype
Exhibiting purpose:Display of scientific results
Trading preferences:Exclusive license/assignment、Technical license/cooperation、Negotiate by self
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