Atomic Cluster and Nanocage Antibacterial Technology Standardization Process

Selling through specifications is a common practice. For many of AntiBactabs’ partners, the ability to shift perceptions and influence thinking is crucial for either having your product specified or changing an existing specification.

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THE 4 KEY CRITERIA WE CONSIDER

To explore how our antimicrobial additives can be integrated into your production process, or if you’re interested in enhancing your products with the proven AntiBactabs technology.

MAKE YOUR PRODUCT ANTIMICROBIAL

we focus on the following:

  1. THE MATERIAL
    The first step is selecting the right additive for your material. The goal is to achieve exceptional antimicrobial performance without compromising the appearance or functionality of your product.

  2. THE MANUFACTURING PROCESS
    It’s crucial to understand how your product is made. This helps us recommend the best antimicrobial additive that will seamlessly integrate into your material, without altering your existing manufacturing methods.

  3. THE FINISHED PRODUCT’S OBJECTIVE
    We need to understand the end goal of your product. This includes its design, intended market, primary purpose, and the environment in which it will be used.

  4. THE LONG-TERM PERFORMANCE
    Lastly, we assess the durability of the antimicrobial properties over time. Ensuring that the additive maintains its effectiveness throughout the product’s life cycle is key for long-lasting protection.

ANTIBACTABS ADDITIVE SPECIFICATION PROCESS

Maximizing the potential of your AntiBactabs protected product can make the difference between success or failure in getting your product specified. To assist you, we provide detailed information about AntiBactabs antimicrobial features, which you can incorporate into your existing specifications.

THE COMPANY
The technology supplier demonstrates a Certified Quality Management system. This system covers products and their supply, supported by independent ISO9001 accreditation.
The supplier follows a responsible, ethical environmental policy, verified by ISO14001 accreditation.
The antimicrobial technology provider’s instructions, technical expertise, customer support, and product testing systems have been evaluated. They meet the standards required for verifying efficacy and have been certified by SGS International.

YOUR PRODUCT
The product has been validated and certified to show an antimicrobial performance of over 95% reduction in microbes.
The antimicrobial performance is measured using internationally recognized testing standards, relevant to the treated material.
Standard tests include, but are not limited to, ISO,FDA,SGS.
The antimicrobial product must come with a Certificate of Analysis, produced by an independent or accredited laboratory.
The product undergoes regular quality control testing, with certificates provided as evidence. “Regular” means testing within a 12-month period.
The antimicrobial efficacy of the product must be attributed to the active substance in the technology, not other factors.

ANTIMICROBIAL TECHNOLOGY

  • Atomic Cluster: Atomic clusters are tiny groups of atoms bonded together with distinct physical and chemical properties, exhibiting quantum size effects and surface effects due to their nanoscale size.

  • Nanocage: Nanocages are structures made of nanomaterials with precise pores and adjustable internal spaces. They have high surface area and chemical stability, making them promising for antimicrobial applications.

  • Antimicrobial Mechanisms: The mechanisms include:

    • Disrupting bacterial cell walls.

    • Interfering with bacterial metabolism by targeting enzyme systems.

    • Producing reactive oxygen species that damage bacterial DNA and proteins.

  • Synthesis Methods for Antimicrobial Materials:

    • Chemical Vapor Deposition (CVD) for atomic clusters.

    • Hydrothermal Synthesis for creating uniform antimicrobial nanomaterials.

    • Sol-gel Process for producing nanoscale atomic clusters.

  • Applications in Environmental Management: Atomic clusters and nanocages are used in water treatment and air purification, removing harmful microorganisms.

  • Biomedical Applications: The technology is used to develop new antimicrobial agents to combat antibiotic-resistant bacteria, and can be used in medical devices and wound healing.

  • Food Preservation: Nanocage technology is applied to food packaging to release antimicrobial clusters, extending shelf life and preventing bacterial growth.

  • Properties of Nanocages: Nanocages have unique physical and chemical properties, such as high surface activity and the ability to be modified for enhanced antibacterial effects. They can also be used for controlled molecular filtration.