First, develop new antibacterial agents.
In order to improve the antibacterial effect, researchers continue to explore new antibacterial agents. These new antibacterial agents include new fungicides, antibacterial peptides, antibacterial epoxides and so on. They have stronger antibacterial activity, can kill or inhibit the growth of bacteria more effectively, and provide more reliable protection for medical and food fields.
Second, the application of nanomaterials
Nano-materials have unique properties such as high specific surface area and high activity, and have broad application prospects in the field of antibacterial materials. Nano-antibacterial materials with high antibacterial performance can be prepared by combining nano-materials with antibacterial agents. This nano antibacterial material has a broad application prospect in the fields of medical treatment, environmental protection, daily necessities and so on.
Third, the application of composite materials.
In order to improve the durability and stability of antibacterial agents, researchers combine antibacterial agents with other materials. Such as nano-metal particles, carbon nanotubes, graphene and other materials are combined with antibacterial agents to prepare composite antibacterial materials with excellent antibacterial properties. This composite antibacterial material has broad application prospects in the fields of medical devices, household items and so on.
Fourth, intelligent antibacterial materials.
Intelligent antibacterial materials are an important development direction of antibacterial materials in the future. The material can control the release of antibacterial agent through external stimuli such as electric field and light field, and realize intelligent regulation of antibacterial effect. In addition, it is a new attempt to control the release of antibacterial agents by magnetism. This intelligent antibacterial material can improve the antibacterial effect and convenience, and provide new solutions for medical care, environmental protection and other fields.
Verb (abbreviation of verb) wear-resistant and antibacterial material
With the rise of smart wearable devices, wearable antibacterial materials have also become a research hotspot. This material can be made into smart clothes, smart bracelets and other forms, which can keep people in an antibacterial state for a long time and improve their quality of life. The development of wearable antibacterial materials will bring new opportunities for health monitoring, disease prevention and other fields.
VI. Health and Environmental Protection
With the improvement of consumers' requirements for health, hygiene and environmental protection, the development of antibacterial materials needs to pay more attention to environmental protection and health. Therefore, it has become an important research direction to develop biodegradable antibacterial agents and non-toxic and harmless antibacterial materials. This concept of health and environmental protection will help to promote the sustainable development of antibacterial materials and create a healthier and better living environment for mankind.