Microcurrent Mask
Revolutionize your skincare with our easy-to-use, microcurrent single-layer mask
Tailor-made for radiant, youthful skin.
Microcurrent Single Layer Mask
Microcurrent single layer mask is an innovative mask that uses microcurrent technology to enhance skin care.
It works by opening skin channels and releasing a safe level of microcurrent, which improves skin permeability and helps active ingredients penetrate deeply into the skin.
Effects:
- Penetration-Promoting: Enhances the ability of active ingredients to enter the skin.
- Transdermal Absorption: Facilitates the absorption of skincare ingredients through the skin.
Advanced Microcurrent Single-Layer Technology:
Self-discharging flexible electronic mask.
Our microcurrent technology stands out from traditional externally powered devices. While microcurrent promotes wound re-epithelialization, external power sources are typically bulky and heavy, making them unsuitable for use.
Leveraging our expertise in flexible electronics, we developed a self-discharging medical dressing that enhances transdermal drug absorption and accelerates wound healing.
This medical technology has been adapted for skincare, resulting in our microcurrent single-layer mask.
This mask delivers effective skincare ingredients deep into the skin, promoting collagen and elastin synthesis. It also tightens facial contours through bioelectrical effects.
Our seamless integration of microcurrent wires into a single-layer nonwoven fabric makes it simple and convenient for busy individuals to enjoy youthful, healthier skin.
Microcurrent Facial Mask for Consumers
Designed for versatility, microcureent facial mask can be tailored to meet the needs of both 2C individual consumers and beauty salons, offering a complete facial mask with skincare solution.
Microcurrent Mask Cloth for Business
Microcurrent single-layer mask cloth leverages advanced technology to cater to various 2B business applications, including skincare, post-aesthetic recovery, wound treatment, and medicated patches.
It provides customizable mask cloths with specific shapes, sizes, and microcurrent wire layouts.
Technology Advantages
Self-powered
Using fiber based primary microcurrent, no external power supply is required. After conducting with the skin, it releases a micro current of 0.2-2mA automatically, with a continuous discharge time of about 1 hour.
High Performance Adaptability
It serves as a conduit to deliver nutrients or medicine deep into the skin through the microcurrent wire. In addition to oil without ion channels, any liquids such as cream, gel, or water, can conduct electricity.
High Materials Adaptability
It can be combined with various non-woven fabrics to produce self discharge fabrics, with stable performance, controllable size and current value, and easy cutting.
Good Fit with Skin
It fits well with the skin and provides users with a comfortable experience.
Theoretical Basis: Damage Current Theory
by Robert Otto Becker
Robert Otto Becker (May 31, 1923 − May 14, 2008) was a U.S. orthopedic surgeon and researcher in electrophysiology/electromedicine.
In 1961, Robert Becker published his research in the world’s famous journal (Journal of Bone and Joint Surgery): the starting engine for post- traumatic regeneration in animals and humans comes from direct current regeneration signals flowing along the nerves.
This pioneering work earned him significant recognition, including two Nobel Prize nominations.
His research laid the foundation for understanding the bioelectric mechanisms that drive healing and regeneration in living organisms.
Mechanism of Microcurrent Action
Microcurrent Accelerates Wound Healing
- Increasing BMP6 (bone morphogenetic protein 6) enhances cell proliferation, differentiation, and tissue formation.
- Downregulating nuclear factor KB activity reduces the release of inflammatory mediators.
- Upregulating VEGF (vascular endothelial growth factor) mRNA stimulates endothelial cell migration, proliferation, and division.
- Increasing ATP (adenosine triphosphate) provides energy to accelerate metabolism in damaged tissues, reducing inflammation, promoting vascular regeneration, and speeding up wound epithelialization.
Microcurrent Transderma Delivery
Under the influence of microcurrent, the stratum corneum becomes disrupted, with widened intercellular gaps and expanded hair follicles.
This allows drugs or skincare ingredients to penetrate more effectively through the lipid cells and hair follicle channels, enhancing both the quantity and rate of transdermal absorption.
Electric Field Distribution Diagram
Electric Field Distribution Diagram
The electric field is distributed radially to the entire membrane cloth with the conductive fiber as the center, and as the distance from the conductive fiber increases, the electric field intensity gradually weakens.
Schematic Diagram of Local Microcurrent Flow
Zoom in on part of the product and mark the direction of the ion current.
Similar to the electric field distribution, the ion current also shows a trend that the current value decreases as the distance from the conductive fiber increases.
Microcurrent Penetration-promoting Effect
Effect of Applying Skincare Products with Hands
Under the action of microcurrent, the cracks in the skin epidermis increase, the lipid bilayer arrangement in the stratum corneum relaxes, the intercellular spaces increase, and a large number of new permeable pores are formed.
Effect of Using Microcurrent Mask
"+": Positive ions in skin care ingredients
"-": Negative ions in skin care ingredients
Lonic skin care ingredients use the principle of same-electricity repulsion to be introduced into the skin under the action of an electric field.
Promote the penetration of skin care ingredients. Positive ions in skin care ingredients Negative ions in skin care ingredients
Microcurrent Mask Feel on the skin
Gentle and effective: 98% of users feel little to no sensation with our microcurrent mask
The sensation on the skin varies based on the thickness of your stratum corneum. Those with thinner skin may feel a slight sting, while those with thicker skin likely won’t feel anything, similar to wearing a regular mask.
The stratum corneum acts as a resistor; thicker or drier skin has higher resistance, resulting in less current and a milder sensation.
Conversely, thinner or more hydrated skin has lower resistance, making the current more noticeable.
In user tests, over 98% of participants felt little to no sensation, and any sensation was entirely acceptable.
Let Us Make You Younger by Microcurrent
Discover the transformative power of our microcurrent technology
Inquire now for radiant, youthful skin