These antibacterial and antimicrobial cards not only tackle the infection-control challenges associated with reusable public transit tickets but also substantially ease the disinfection and防疫 responsibilities faced by ticket departments and organizations, thereby making a significant contribution to public health and safety.

Silone's antibacterial cards achieve a remarkable antimicrobial and bacteriostatic effect by incorporating antibacterial materials directly into the card's surface. The selected antibacterial agents effectively inhibit and eliminate hundreds of pathogenic microorganisms, including E. coli and Staphylococcus aureus, while maintaining their potency without triggering resistance. These cards also exhibit broad-spectrum杀菌 properties, promote tissue repair and regeneration, demonstrate exceptional penetration, deliver long-lasting protection, and even display notable antiviral activity.

As one of the widely used payment tools, cards are applicable across various industries. Some types of cards even require recycling and multiple rounds of reuse, making the demand for their antimicrobial properties both urgent and clearly defined. For instance, in today’s public transportation sector—including rail transit—efforts to manage ticket card hygiene during pandemic times currently rely heavily on individual sanitation practices or regular disinfection procedures conducted by the card-issuing organizations. However, this approach involves a massive workload and must be carried out repeatedly at fixed intervals.

These antibacterial and antimicrobial cards not only address the infection-control challenges inherent in reusable public transit tickets but also significantly ease the disinfection and防疫 burdens faced by ticket departments and organizations, making a substantial contribution to public health and safety.

II. Key Innovation Points:

Silone's antibacterial cards achieve a remarkable antimicrobial and bacteriostatic effect by incorporating antibacterial materials directly into the card's surface. The selected antibacterial agents effectively inhibit and eliminate hundreds of pathogenic microorganisms, including E. coli and Staphylococcus aureus, while maintaining their potency without triggering resistance. These cards also exhibit broad-spectrum杀菌 properties, promote tissue repair and regeneration, demonstrate exceptional penetration, deliver long-lasting protection, and even display notable antiviral activity.

III. Demonstrated Effects and Value:

The antibacterial card's antimicrobial function inhibits the growth of bacteria and other microorganisms, effectively preventing the spread and transmission of harmful pathogens.

The antibacterial layer in the antimicrobial card possesses the ability to inhibit and kill bacteria, thereby reducing damage caused by bacterial attacks on the card itself. Additionally, it effectively minimizes the spread of diseases resulting from bacterial infections. As a result, this approach helps lower the health-related risks associated with illness. At the same time, it further decreases the likelihood of cross-infection caused by bacteria, ultimately cutting down on healthcare costs for individuals and boosting both their quality of life and overall health levels. Ultimately, this contributes to higher per capita labor productivity while also supporting energy-saving and emission-reduction goals.

4. Physical Sample of the Antibacterial Card

V. Implementation Cases

It has already been promoted and implemented in the financial industry and the rail transit sector.

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