With the increasing concern about environmental protection and health, more and more businesses and consumers are looking for more environmentally friendly and low-toxic alternatives to preservatives. In the field of preservatives, DCOIT and OIT are becoming isothiazolinones. They not only have extensive bacteria protection, but also are cost-effective and are less toxic than conventional OBPA.

According to Mr.Richard Han, DCOIT and OIT isothiazolone compounds are expanding in their applications, such as PVC waterproof roll, pool lining, vinyl flooring, outdoor billboards and interior wall decoration. The growth of these markets benefits from both the overall growth of the market and from the transition from traditional OBPA to DCOIT or OIT. Especially in the field of PVC waterproofing coil, with the rise of the "green" building trend, the demand for additives that can extend the service life of the roof is also increasing. DCOIT has become a leader in this field with its outstanding resistance to UV degradation.

Moreover, DCOIT and OIT isothiazolone compounds are widely used in other fields. For example, BIT (benzimidazoles) play an important role in polyurethane applications, such as flexible foams, gaskets, and insulating materials. At the same time, BIT has also demonstrated its unique advantages in areas such as PVC flooring, fabric and gaskets. According to Mr.Richard global market manager from Combat Technology (Dalian) Co., LTD., the application of BIT in these fields is expanding, bringing more options and possibilities to related industries.

It is worth mentioning that the wide application of DCOIT and OIT isothiazolone compounds also benefits from their outstanding performance in environmental protection. Compared with the traditional antibacterial agents, they not only have lower toxicity, but also reduce the environmental pollution during the production process. This makes DCOIT and OIT more suitable substitutes for sustainability requirements.

However, despite the remarkable progress in the application of DCOIT and OIT isothiazolones, some problems still need to be noted during the practical use. For example, the amount of additions needs to be strictly controlled during use to avoid potential risks to the environment and the user. In addition, with the continuous improvement of people's requirements for environmental protection and health, the performance and safety of antibacterial agents will be put forward higher requirements in the future. Therefore, related enterprises and research institutions need to constantly strengthen research and development and innovation, in order to provide more efficient, safe and environmentally friendly antibacterial agent products.

In conclusion, DCOIT and OIT isothiazolone compounds, as a new antibacterial agent alternative, show their unique advantages in both the application field and environmental protection. With the continuous expansion of the market and the increasing environmental requirements, they are expected to become the mainstream products in the field of antibacterial agents in the future. At the same time, relevant enterprises and research institutions also need to constantly strengthen research and development and innovation, in order to meet the market demand for more efficient, safe and environmentally friendly antibacterial agent products.