Purity With Purpose

We are dedicated to conducting our business in a way that supports both human health and the wellbeing of the planet. Our packaging decisions are approached with the same practicality and discipline that guide our formulations. We use compostable pouches as our primary packaging format and supply ingredients in larger-volume quantities to reduce packaging intensity and the frequency of repurchasing. This model supports both cost efficiency and a measurable reduction in material use over time. Our commitment extends beyond materials selection. We continuously review how our products are designed, packaged, and distributed to minimize environmental impact while preserving product stability and safety.

How To Send Back Pouch

To further close the loop, we have partnered with Circular Cube Composting Company, an innovative organization that collects used compostable packaging and processes it through an industrial composting system, converting post-consumer waste into nutrient-rich soil. Through this partnership, we aim to ensure that our packaging choices are supported by practical end-of-life solutions rather than intention alone.

Step 1: Use the enclosed envelope to return your empty packaging to ourfacility. The envelope is prepaid so you don’t need to apply a stamp.

Step 2: Once you seal the envelope, drop it in a mailbox, and your part in closing the loop is finished — and we greatly appreciate it.

The Chemistry of Composting: What Happens to the Pouch?

Our compostable pouches are designed to be broken down through industrial composting processes that combine controlled heat, moisture and microbial activity to convert materials into nutrient-rich organic matter.

Step 1: Preparation
Used pouches are shredded and combined with organic materials such as food and green waste to create the right balance for composting.

Step 2: Controlled Composting
The composting environment is maintained at elevated temperatures (approximately 60°C / 140°F), allowing the compostable polymers, including plant-based PLA (polylactic acid), to break down into simpler natural compounds.

Step 3: Microbial Conversion
Naturally occurring microorganisms convert the remaining organic material into humus, along with water (H₂O) and carbon dioxide (CO₂). The result is nutrient-rich compost that can be used to support new plant growth.

This process allows compostable materials to return to the natural cycle when disposed of through appropriate industrial composting systems, supporting a more responsible packaging lifecycle.

Why are we so committed to this mission?

Plastic is widely used because it is durable and lightweight, but that same durability means it remains in the environment for an extremely long time. Most conventional plastics do not fully break down. Instead, they gradually fragment into smaller particles known as microplastics, which can accumulate in soil, waterways, and oceans, and eventually move through the broader ecosystem.

Today, microplastics are being detected across many parts of the environment, including the food chain. While plastic plays an important role in protecting product quality and safety, there is increasing awareness that packaging choices must also consider long-term environmental impact.

You may wonder, "Does recycling solve the problem?" Recycling is important and should always be encouraged, but the reality is that not all plastics are widely recyclable, and many can only be processed a limited number of times before they are directed to landfill. Compostable materials, when processed through appropriate industrial composting systems, are designed to break down into organic matter rather than persist as long-term plastic waste.

Our vision is to champion a sustainable future with measurable actions and embracing innovative green initiatives that indeed impact the planet in a positive way.