Wetting agent technology will achieve cross-border integration with more fields, expanding its application scope and market space. For example, in the medical field, wetting agents can be used to improve the lubricity and biocompatibility of medical devices; In the field of new energy, wetting agents can be used to improve the photoelectric conversion efficiency and stability of solar panels.

Under the guidance of the circular economy concept, future wetting agent technology will pay more attention to the recycling of resources and the resource utilization of waste. By designing a circular economy closed-loop production system, efficient resource utilization and minimal waste emissions in the production process of wetting agents can be achieved, promoting the industry towards sustainable development.

With the powerful computing and data analysis capabilities of artificial intelligence, future wetting agent formula optimization will be more efficient and accurate. By building an AI assisted formula optimization platform, the optimal raw material combination and ratio scheme can be quickly screened, reducing research and development costs and time cycles, and improving the market competitiveness of products.

The widespread application of IoT technology will provide convenient remote monitoring and management methods for the production and application of wetting agents. Through the Internet of Things platform, real-time monitoring of the operating status of production equipment, changes in production environment parameters, and product usage can be achieved, providing strong support for production management and decision-making.

In summary, the path of innovation in wetting agent technology in the future will be full of opportunities and challenges. Promote sustainable development of the industry through measures such as research and development of green raw materials, improvement of biodegradability, and energy-saving and emission reducing production processes; Enhance product performance through technological innovations such as nanomaterial reinforcement and precise molecular structure design; Expand market space and application areas through strategies such as intelligent control application optimization and cross-border integration application expansion; Ultimately achieving a comprehensive upgrade and sustainable development of wetting agent technology.