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Using the low-cost and large-scale silk printing technology, wuzhongshuai, a researcher from Dalian Institute of Chemical Physics, Chinese Academy of Sciences, has prepared a secondary water system planar zinc manganese micro battery with good commercial and specific application prospects, high flexibility, high safety and long service life based on the company's after-sales service. Relevant research has been published in the national science review

the development of a new generation of miniaturized and wearable electronic products has enhanced our company's enhanced strength, which has greatly stimulated people's urgent need for matching new concept, high safety and long-life micro energy storage devices, especially planar micro batteries. When the oil pump is started, the pulley on the oil pump drives the pulley on the worm through the belt. The planar micro battery has the characteristics of high integration, which overcomes the shortcomings of the traditional sandwich battery, such as large volume, poor mechanical flexibility, and easy separation of the interface when the bending specimen is as flat as possible. It is a new type of wearable electronic device power source with great development prospects

the team has developed a low-cost, simple, efficient and large-scale silk printing technology, and successfully prepared a new concept water planar zinc manganese micro battery with good mechanical flexibility, high safety and long life. They first used manganese dioxide, zinc powder and graphene as functional materials to configure the positive and negative electrodes of zinc manganese battery and graphene fluid collecting thixotropic ink respectively, and then used the multi-step silk printing method to realize the low-cost large-scale preparation of planar zinc manganese micro battery

the new zinc manganese battery not only has the characteristics of environmental friendliness and high safety, but also shows an ultra long service life. In addition, the diversity of printing substrates can meet the needs of different application scenarios

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