Aqua Technology adheres to the service concept of "safety, efficiency, health and environmental protection" and is technology-based to develop a new generation of environmentally friendly and healthy disinfection products and solutions. Aqua disinfection technology can quickly kill various bacteria and viruses in the waterway, achieving 99.99% effective disinfection. Compared with traditional disinfection methods, Aqua disinfection products only need to be powered on and water added, without any additives or by-products, truly safe, non-toxic, environmentally friendly and residue-free.

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BDD (Boron-Doped Diamond) patented disinfection technology electrolyzes water molecules at low voltage to generate highly oxidizing hydroxyl radicals –OH and ozone O3 and other disinfection factors, which can quickly kill various bacteria and viruses.
Aqua BDD developed electrode electrolysis to produce ozone is an advanced water electrolysis technology that uses "boron-doped diamond (Boron-Doped Diamond, BDD) electrode material" to electrolyze water. This method has the advantages of high efficiency, environmental protection, and no need to add chemicals. Stable electrochemical performance and corrosion resistance: Aqua BDD disinfection technology electrodes can still maintain good stability and electrode activity under acidic, neutral, and alkaline conditions; not easy to be contaminated, with self-cleaning effect: BDD electrode surface is not prone to "poisoning" pollution, maintaining the performance of the electrode. Because the "reagent" of electrochemical oxidation is electrons, which is a clean reactant, and the oxidant does not need to be added in this process, there is no secondary pollution.

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Chemical vapor deposition (CVD) is one of the common methods for synthesizing diamond. A certain amount of boron source is doped into the gas source, so that boron atoms enter the diamond lattice to replace some carbon atoms and become acceptor centers. At the same time, hole carriers are generated in the lattice, allowing electrons to move freely in the lattice, and diamond will be transformed into a p-type semiconductor. The BDD electrode can be prepared by depositing boron-doped diamond on a substrate of a fixed shape. The CVD method is currently the most mature method for preparing BDD electrodes. High preparation cost: The preparation of BDD electrodes usually adopts the CVD process, and the equipment is expensive.

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