Portable in situ/operando optical microscopy technology for electrode reactions detection and applied in developing advanced high-performance zinc secondary batteries
In the development of next-generation secondary batteries, the aqueous zinc-based secondary batteries show great potential in large-scale energy storage systems and military power applications due to their high safety and low-cost advantages. To date, various novel materials and detection technologies are developing actively. Herein, a lab-developed portable in situ/operando optical microscopy probing device is shown, which can quickly and directly visualize the morphology evolution of the electrode surface in the electrode reaction process to reveal the reaction mechanisms on electrode. Moreover, this developed technology can also be applied in new electrolyte strategy studies to promote the development of an advanced zinc secondary battery with high performance.
Renewable hydrogen economy- R&D of electrolysis energy storage and application of green hydrogen industry-academia consortium project
The water supply operating module of the hyporheic flow project combined with region water distribution, drought countermeasures, and high turbidity water treatment.
The design development technology and Power Generation system of Organic Rankine Cycle and Trans-critical Organic Rankine Cycle for Conversion of Low-and-Medium Heat.
High practicality surface modification technology for enhancing hydrogen production via water electrolysis and solid-state hydrogen storage efficiency
Technology maturity:Experiment stage
Exhibiting purpose:Display of scientific results
Trading preferences:Technical license/cooperation、Negotiate by self
Coming soon!