Important progress has been made in the field of micro -nano -storage devices in the research team of Three Gorges University

Recently, Dr. Xu Wangwang, a new micro -nano -energy storage device team at the School of Materials and Chemical Technology of the Three Gorges University, has achieved important research progress in the fields of new proton batteries, nanomone functional materials.存储”（Proton Storage in Metallic Nanobelts through the Grotthuss Mechanism）在线发表于国际著名期刊《美国化学会志》（Journal of the American Chemical Society，JACS，IF=16.383，doi.org/10.1021/jacs.2c03844）， This result is also the first research papers published by the first unit on JACS for the first time.

The ideal electrochemical energy storage device is to store a large amount of energy at the minimum volume with the shortest time. The lower the quality of the load, the higher the theoretical energy density. Therefore, protons are considered to be the most ideal load of high energy and high -power electrochemical energy storage devices. However, because proton -based electrochemical energy storage devices usually contain strong acidic electrolytes, the electrode selection range is less and the reaction mechanism is not perfect. In view of this, the team proposed for the first time to realize the GROTTHUSS mechanism, non -diffusion process, and rapid proton transmission in the H1.75MOO3 nano belt, which is electrochemical activated. At the same time, in the electrochemical activated H1.75moo3 nanometer belt, the electron-vocal coupling caused by the existence of the JAHN-TELLER effect presents a metal state. This paper successfully verified the internal and electrode/electrode/electrolyte interface of the internal phase of the inorganic material H1.75moo3 in the Arnnisus equation. The huge potential of electrochemical energy storage devices that do not need to be diffused. This research has been supported by the National Natural Science Foundation of China, Energy and Environmental Materials Innovation, and Innovation of Innovation, inorganic non -metallic crystal and energy conversion materials key laboratories.

It is understood that Xu Wangwang, the person in charge of the new micro -nano -energy storage device team of the School of Materials and Chemical Engineering, a master's tutor. The research fields include the preparation process and application of hydrogen ion batteries and solid -state zinc ion batteries. Already in international famous journals such as Jacs, Adv. As a guest editor of SCI journals such as Frontiers in Chemistry, Energies, Chem. Eng. J., ACS Appl. Mater. Interfaces and other journals. (Correspondent: Three Gorges University Yi Na)

- END -