Chinese manufacturing is accelerating its global expansion; bio-lighting technology serves global agricultural innovation.

By 2025, Chinese bio-supplementary lighting companies, leveraging their technological innovation and scenario adaptability, accelerated their global expansion, becoming key technology suppliers for the global green transformation of agriculture. Companies like Shanghai Sansi, through cross-regional technology transfer and industry-academia-research collaboration, have propelled Chinese bio-supplementary lighting solutions to the global market, demonstrating strong international competitiveness. In the North American market, Shanghai Sansi's solutions have achieved large-scale application. Addressing the extreme weather and light fluctuations faced by Tylei Farm in the Midwestern United States, Sansi customized a modular plant supplementary lighting system. Through dynamic spectral adjustment and multi-environmental factor synergy technology, it ensures stable year-round growth for crops such as lettuce and herbs. With its high-quality taste and nutritional value, the farm's products have successfully entered high-end supermarkets, becoming a model project for sustainable agriculture in the region. Simultaneously, Shanghai Sansi has collaborated extensively with Ohio State University to jointly develop an intelligent light regulation model, exploring the correlation mechanism between light requirements and crop stress resistance for field crops such as corn and soybeans. The relevant findings have been incorporated into the state's agricultural technology extension system. In the domestic market, the technological upgrades of leading enterprises are driving the transformation of traditional agricultural bases. In Shouguang, Shandong, known as the "Vegetable Capital of China," Shanghai Sansi's all-weather controllable lighting system, combined with environmental monitoring and an intelligent decision-making platform, effectively solves the problem of slow vegetable growth caused by prolonged cloudy days in winter. This system precisely matches the growth rhythms of crops such as cucumbers and tomatoes with market demand, driving the transformation of traditional greenhouses towards standardized and digitalized planting. Experts from the U.S. Agricultural Sustainable Development Association commented that the demand-driven R&D approach of Chinese companies has broken the traditional dependence of agriculture on natural conditions, providing a new path for global agricultural development.