Abstract
At present, nanofiber antibacterial materials, especially silver antibacterial materials, are one of the most popular antibacterial materials. Nanofiber antibacterial materials are the most widely used materials due to their antibacterial spectrum and persistence. In fact, the storage and anti-yellowing properties of nanofiber antibacterial materials are of great concern in the application of industrial and consumer goods. However, there are few studies on the uniform preparation, storage, and anti-yellowing properties of antibacterial materials. Thus, we prepared nanofiber antibacterial materials by adding surfactants and studied the dispersion and storage time of the spinning solution. After spinning and forming the membrane, we tried to study the fiber morphology and environmental factors prepared by different proportions. Finally, we also tried to study the properties of the nanofiber membrane, such as contact angle, anti-yellowing, and antibacterial property. In a word, we explored the basic rules of material preparation, storage, and yellowing resistance so as to provide guidance for nanofiber antibacterial material industrial production.
Highlights
In theory, antibacterial material refers to a kind of chemical substance that interferes with the normal development of bacteria after interaction with bacteria and viruses and still has an inhibitory effect on the growth and development of bacteria after a period of time.1 The effect of antibacterial materials is that it can hinder the growth of bacteria, and antibacterial materials with good antibacterial effect can even kill bacteria
The preparation and optimization of silver nanofiber antibacterial materials for commercial use were experimentally explored and analyzed, in which the solution viscosity and the change of solution state stored for a long time were explored to confirm the proportion design and storage time of the solution in the actual production
The micro-morphology had a key influence on the properties of the thin membranes
Summary
Antibacterial material refers to a kind of chemical substance that interferes with the normal development of bacteria after interaction with bacteria and viruses and still has an inhibitory effect on the growth and development of bacteria after a period of time. The effect of antibacterial materials is that it can hinder the growth of bacteria, and antibacterial materials with good antibacterial effect can even kill bacteria. Antibacterial material refers to a kind of chemical substance that interferes with the normal development of bacteria after interaction with bacteria and viruses and still has an inhibitory effect on the growth and development of bacteria after a period of time.. The effect of antibacterial materials is that it can hinder the growth of bacteria, and antibacterial materials with good antibacterial effect can even kill bacteria. With the development of economy and society, human beings are faced with the invasion of bacteria in the .. As people pay more and more attention to the living environment and health, the research and application of antibacterial materials have attracted more and more attention in various fields. Antibacterial materials are mainly divided into natural antibacterial materials, organic antibacterial materials, and inorganic antibacterial materials at present. The commonly used preparation methods of antibacterial materials are as follows: antibacterial agent soaking, master batch doping or coating, and so on.
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
