将高能生化陶瓷及多种天然矿石纳米化，在高温状态下融合而成富氢微球，当水通过富氢微球时可形成数万对电极和磁场，形成电子丰富的负电场，对水进行电解，“H2O→H+ +OH-”，而“OH-”在负电场环境中会被弹回而无法进入，但“H+”能轻易进入负电场，并在电子丰富的状态下受磁场能量的影响变成“H+ +2 e-”产生负氢离子“H-”，进而生产氢气“H+ +H-→H2”。同时这种富氢微球还可以将产生的氢气稳定的存在水中。
High-energy biochemical ceramics and a variety of natural ores are nano-sized and fused to form hydrogen-rich microspheres at high temperatures. When water passes through hydrogen-rich microspheres, tens of thousands of counter electrodes and magnetic fields can be formed to form electron-rich negative electric fields. Electrolysis, "H2O→H+ + OH-", and "OH-" will be bounced back in the negative electric field environment, but "H+" can easily enter the negative electric field and be subjected to magnetic field energy in the state rich in electrons. The effect becomes "H+ + 2 e-" to produce a negative hydrogen ion "H-", which in turn produces hydrogen "H+ + H-→ H2". At the same time, the hydrogen-rich microspheres can also stably generate hydrogen in the water.
The water becomes weakly alkaline due to the hydroxide anion produced. In the rain, this hydrogen-rich microsphere has the function of far infrared and magnetic field, which is the molecular chain breakage of the macromolecular water, forming a vibrant small molecule water.