- Crystal Clear Colloidal Silver: The clarity of this solution signifies high quality and superior ionic content, ensuring optimal performance.
- Neutral pH Level of 7.5: Formulated with a balanced pH for safe and effective use on various applications.
- Amber Glass Bottle: Supplied in an amber glass bottle to protect the solution from light exposure, preserving its purity and effectiveness.
- Manufactured in the UK: Produced under strict temperature-controlled laboratory conditions, guaranteeing consistent quality and safety.
- 100% Natural & Vegan-Friendly: Contains only Medical Grade Reverse Osmosis Water and 99.99% Pure Silver, free from synthetic additives and animal-derived ingredients.
- Trusted Expertise: We have been producing premium quality colloidal silver products since 2011, proudly offering the widest range of colloidal silver solutions available.
- Free from nanoparticles.
Product Description
-
Ionic Silver
Made with pure silver ions suspended in deionised water, ionic silver offers antibacterial benefits. This is the most common kind of solution on the market.
-
True Colloidal Silver
True colloidal silver contains microscopic pure silver particles suspended in water, not ions. It’s amber-coloured, stable, and delivers long-lasting support.
-
True Colloidal Silver
Our Amber Silver is compliant with EU cosmetic regulation (EC) No 1223/200. Top-tier and skin approved! This is the same silver we use for all our skin care products.
10ppm Silver Benefits
Gently supports skin hygiene with natural antibacterial and antifungal action; ideal for daily cleansing.
20ppm Silver Benefits
Enhanced antibacterial and antifungal support for more intensive care of minor skin issues and irritations.
Amber Silver Benefits
High purity, particle-rich formula provides superior skin cleansing and antimicrobial properties for long-term use.
Combined Benefits
Made in the UK with pure silver and water, in amber glass for best preservation, gentle and effective for daily use
100% natural, antibacterial and antifungal with a high pH of 9.5, packaged in amber glass and proudly manufactured in the UK.
Colloidal Silver: Comparison of Our Solutions
| Customer Reviews | 4.1 out of 5 stars 123 | 4.4 out of 5 stars 27 | 4.4 out of 5 stars 115 | 4.4 out of 5 stars 206 | 4.5 out of 5 stars 123 | 4.6 out of 5 stars 742 | 4.6 out of 5 stars 104 |
| Price | £29.95£29.95 | £11.87£11.87 | £15.37£15.37 | £12.95£12.95 | £8.95£8.95 | £13.95£13.95 | £10.95£10.95 |
| PPM | Amber | Amber | 20ppm | 20ppm | 20ppm | 10ppm | 10ppm |
| Volume | 300ml | 100ml | 300ml | 100ml | 20ml | 300ml | 100ml |
| Amber Glass | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ |
| Antibacterial | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ | ✔ |
| Application | Refill | Spray | Refill | Spray | Spray | Refill | Spray |
| Ionic Silver | ✘ | ✘ | ✔ | ✔ | ✔ | ✔ | ✔ |
| True Colloidal Silver | ✔ | ✔ | ✘ | ✘ | ✘ | ✘ | ✘ |
-
What’s the difference between 10 PPM and 20 PPM silver solutions?
10ppm (parts per million) means that for every million parts of the liquid, 10 parts are silver. 20ppm means that for every million parts of the liquid, 20 parts are silver.
-
How do I choose between a spray or dropper application?
Sprays are convenient for broader areas or quick applications, while droppers offer more precise control.
-
What’s the advantage of True Colloidal Silver over ionic silver?
True Colloidal Silver contains particles, not ions, offering more stability and deeper, longer-lasting antimicrobial effects.
-
Are refill bottles more economical than sprays or droppers?
Yes, refill bottles offer cost savings and are a convenient way to keep sprays and droppers topped up without additional waste.
Sourcing with Care - Supporting The UK
We are committed to prioritising partnerships with UK-based suppliers wherever possible, reducing our carbon foot-print and boosting the UK economy. While some ingredients and materials may originate from outside the UK, we carefully select suppliers who align with our values of sustainability and quality.
Scientifically Tested
Our Colloidal Silver has been scientifically tested and shown to have negative effects on harmful bacteria. These results support its potential as an effective option for reducing bacterial presence in various applications.