Parabens are preservatives commonly used in personal care products. Preservatives are used to inhibit the growth of microbes or bacteria, making the product safe to use and also extending its shelf life. The three most common parabens in use are methylparaben, propylparaben and butylparaben. But there are many more and if you see the word or part word "paraben" then beware! These parabens are known to be eye and skin irritants, and have also been linked to breast cancer. Parabens are not carcinogenic themselves, but they are endocrine disruptors, meaning they have an effect on the normal functioning of hormones within the body. Parabens mimic oestrogen within the body, and increased oestrogen is involved with the increase in breast cells, which can also mean the increase in cancerous breast cellsiv. Parabens are easily absorbed into the skin, being introduced into the system even after just one application. This is a cause for concern considering they are very often used in products that come into direct contact with the skin such body lotions and deodorants.
Parabens
Chemically Composed
What is it?
Parabens are preservatives commonly used in personal care products. Preservatives are used to inhibit the growth of microbes or bacteria, making the product safe to use and also extending its shelf life. The three most common parabens in use are methylparaben, propylparaben and butylparaben. But there are many more and if you see the word or part word "paraben" then beware! These parabens are known to be eye and skin irritants, and have also been linked to breast cancer. Parabens are not carcinogenic themselves, but they are endocrine disruptors, meaning they have an effect on the normal functioning of hormones within the body. Parabens mimic oestrogen within the body, and increased oestrogen is involved with the increase in breast cells, which can also mean the increase in cancerous breast cellsiv. Parabens are easily absorbed into the skin, being introduced into the system even after just one application. This is a cause for concern considering they are very often used in products that come into direct contact with the skin such body lotions and deodorants.
How is it Made?
Most of the ethanol produced is fermented and distilled from the sugar in the starches of grains such as corn, sorghum and other wheats.
Parabens
Chemically Composed
What is it?
Parabens are preservatives commonly used in personal care products. Preservatives are used to inhibit the growth of microbes or bacteria, making the product safe to use and also extending its shelf life. The three most common parabens in use are methylparaben, propylparaben and butylparaben. But there are many more and if you see the word or part word "paraben" then beware! These parabens are known to be eye and skin irritants, and have also been linked to breast cancer. Parabens are not carcinogenic themselves, but they are endocrine disruptors, meaning they have an effect on the normal functioning of hormones within the body. Parabens mimic oestrogen within the body, and increased oestrogen is involved with the increase in breast cells, which can also mean the increase in cancerous breast cellsiv. Parabens are easily absorbed into the skin, being introduced into the system even after just one application. This is a cause for concern considering they are very often used in products that come into direct contact with the skin such body lotions and deodorants.
Alcohol Ethanol
Made from Plants
What is it?
Ethanol - also called ethyl alcohol, grain alcohol, or simply alcohol is an organic chemical compound.
How is it Made?
Most of the ethanol produced is fermented and distilled from the sugar in the starches of grains such as corn, sorghum and other wheats.
Is it Safe?
EWG rates it as a 1 (very low) as a:
Carcinogenic
Allergen/Immunotoxin
Developmental or Endocrine Disruptor
Eco-Toxin
There are recommended use restrictions when used in a cosmetic formula.
If you live local to Waihi and can call into us, you can swap your glass bottles and get a small discount on your replacement!
500g and 1000g Glass Bottles can be brought in when you come in store at Waihi.
We can then sterilise them and REUSE them!
Simply wash out your glass bottle and return it to us. You can swap it for any other glass bottle of the same size, it doesn't have to be the same soap kind. We will give you a 50c discount off your new bottle.
What's a Swappa?
If you live local to Waihi and can call into us, you can swap your glass bottles and get a small discount on your replacement!
500g and 1000g Glass Bottles can be brought in when you come in store at Waihi.
We can then sterilise them and REUSE them!
Simply wash out your glass bottle and return it to us. You can swap it for any other glass bottle of the same size, it doesn't have to be the same soap kind. We will give you a 50c discount off your new bottle.
How is it Made?
It is derived from isethionic acid and coconut fatty acids. In its raw state, it usually appears as white granular solids.
What's a Swappa?
If you live local to Waihi and can call into us, you can swap your glass bottles and get a small discount on your replacement!
500g and 1000g Glass Bottles can be brought in when you come in store at Waihi.
We can then sterilise them and REUSE them!
Simply wash out your glass bottle and return it to us. You can swap it for any other glass bottle of the same size, it doesn't have to be the same soap kind. We will give you a 50c discount off your new bottle.
Waihī Shop Hours
We have set hours for the Shop and for Click & Collect as this is our Factory Shop and when we are manufacturing the Shop cannot be open for safety reasons!
Find us at 111b Bradford Street, Waihī
Our Next Open Shop Day is....
No shop hours this week - sorry!
Click & Collect usually same day or within 24 hours of order even if the shop is not open.
Waihi Beach Farmers Market: Saturday, 30 March 2024 8.30am - 2pm (Limited Stock - you can pre-order online by Thursday 4pm and Click & Collect at the Market)
Waihī Shop Hours
We have set hours for the Shop and for Click & Collect as this is our Factory Shop and when we are manufacturing the Shop cannot be open for safety reasons!
Find us at 111b Bradford Street, Waihī
Our Next Open Shop Day is....
No shop hours this week - sorry!
Click & Collect usually same day or within 24 hours of order even if the shop is not open.
Waihi Beach Farmers Market: Saturday, 30 March 2024 8.30am - 2pm (Limited Stock - you can pre-order online by Thursday 4pm and Click & Collect at the Market)
How is it Made?
It is derived from isethionic acid and coconut fatty acids. In its raw state, it usually appears as white granular solids.
Waihī Shop Hours
We have set hours for the Shop and for Click & Collect as this is our Factory Shop and when we are manufacturing the Shop cannot be open for safety reasons!
Find us at 111b Bradford Street, Waihī
Our Next Open Shop Day is....
No shop hours this week - sorry!
Click & Collect usually same day or within 24 hours of order even if the shop is not open.
Waihi Beach Farmers Market: Saturday, 30 March 2024 8.30am - 2pm (Limited Stock - you can pre-order online by Thursday 4pm and Click & Collect at the Market)
Sodium Cocoyl Isethionate
Made from Coconut Oil - Palm Oil Free
What is it?
Sodium cocoyl isethionate is a mild surfactant (cleansing agent).
Sodium cocoyl isethionate can be used in personal care products as a gentle surfactant, helping to mix water with oil and dirt so they can be washed away, without stripping the skin or hair's natural barrier. Like many coconut-derived cleansers, it also contributes to lather, producing a luxurious creamy foam that does not dry out skin. Its ultra-mild properties make it it an ideal plant-based alternative to animal-derived sodium salts.
How is it Made?
It is derived from isethionic acid and coconut fatty acids. In its raw state, it usually appears as white granular solids.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Sodium Cocoyl Isethionate is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
Sodium Cocoyl Isethionate
Made from Coconut Oil - Palm Oil Free
What is it?
Sodium cocoyl isethionate is a mild surfactant (cleansing agent).
Sodium cocoyl isethionate can be used in personal care products as a gentle surfactant, helping to mix water with oil and dirt so they can be washed away, without stripping the skin or hair's natural barrier. Like many coconut-derived cleansers, it also contributes to lather, producing a luxurious creamy foam that does not dry out skin. Its ultra-mild properties make it it an ideal plant-based alternative to animal-derived sodium salts.
How is it Made?
It is derived from isethionic acid and coconut fatty acids. In its raw state, it usually appears as white granular solids.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Sodium Cocoyl Isethionate is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
Sodium Cocoyl Isethionate
Made from Coconut Oil - Palm Oil Free
What is it?
Sodium cocoyl isethionate is a mild surfactant (cleansing agent).
Sodium cocoyl isethionate can be used in personal care products as a gentle surfactant, helping to mix water with oil and dirt so they can be washed away, without stripping the skin or hair's natural barrier. Like many coconut-derived cleansers, it also contributes to lather, producing a luxurious creamy foam that does not dry out skin. Its ultra-mild properties make it it an ideal plant-based alternative to animal-derived sodium salts.
How is it Made?
It is derived from isethionic acid and coconut fatty acids. In its raw state, it usually appears as white granular solids.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Sodium Cocoyl Isethionate is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
Sodium Coco Sulfate
Made from Coconut Oil - Palm Oil Free
What is it?
Sodium Coco Sulfate is a plant-based surfactant that usually appears as a clear liquid with a mild sweet fatty aroma, and is found in many cleaning products, soaps and cleansers. It is gentle, but an effective cleanser especially for sensitive skin.
It is not an SLS, or SLES.
How is it Made?
Sodium Coco Sulfate is a sodium salt of the sulfate ester of coconut alcohol. It's what's known as a ‘non-ionic surfactant’, which means the molecules have no charge and help deliver non-streak cleaning. It also contributes to lather, wetting and suspension of dirt particles when washing so that they "float" off your skin, clothes, dishes, surfaces.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Sodium Coco Sulfate is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
Sodium Coco Sulfate
Made from Coconut Oil - Palm Oil Free
What is it?
Sodium Coco Sulfate is a plant-based surfactant that usually appears as a clear liquid with a mild sweet fatty aroma, and is found in many cleaning products, soaps and cleansers. It is gentle, but an effective cleanser especially for sensitive skin.
It is not an SLS, or SLES.
How is it Made?
Sodium Coco Sulfate is a sodium salt of the sulfate ester of coconut alcohol. It's what's known as a ‘non-ionic surfactant’, which means the molecules have no charge and help deliver non-streak cleaning. It also contributes to lather, wetting and suspension of dirt particles when washing so that they "float" off your skin, clothes, dishes, surfaces.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Sodium Coco Sulfate is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
Sodium Coco Sulfate
Made from Coconut Oil - Palm Oil Free
What is it?
Sodium Coco Sulfate is a plant-based surfactant that usually appears as a clear liquid with a mild sweet fatty aroma, and is found in many cleaning products, soaps and cleansers. It is gentle, but an effective cleanser especially for sensitive skin.
It is not an SLS, or SLES.
How is it Made?
Sodium Coco Sulfate is a sodium salt of the sulfate ester of coconut alcohol. It's what's known as a ‘non-ionic surfactant’, which means the molecules have no charge and help deliver non-streak cleaning. It also contributes to lather, wetting and suspension of dirt particles when washing so that they "float" off your skin, clothes, dishes, surfaces.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Sodium Coco Sulfate is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
Sodium Metasilicate
Made from Salt
What is it?
Sodium metasilicate is a chemical substance that can be produced by the reaction of sodium hydroxide (caustic soda) with silicone dioxide (a main component of sand). It is the main component of commercial sodium silicate solutions, used in a wide range of industries, and usually appears as a white, readily-dissolvable powder.
How is it Made?
By the reaction of sodium hydroxide (caustic soda) with silicone dioxide (a main component of sand).
Is it Safe?
EWG rates it as a 1 (very low) as a:
Carcinogenic
Eco-Toxin
It is a 2 as an Allergen/Immunotoxin. Sodium silicate is a known irritant if it comes in conact with the eyes or skin, and direct contact is best avoided.
Sodium silicate is a known irritant if it comes into contact with the eyes or skin; we take care using this ingredient and direct contact is best avoided.
Sodium Metasilicate
Made from Salt
What is it?
Sodium metasilicate is a chemical substance that can be produced by the reaction of sodium hydroxide (caustic soda) with silicone dioxide (a main component of sand). It is the main component of commercial sodium silicate solutions, used in a wide range of industries, and usually appears as a white, readily-dissolvable powder.
How is it Made?
By the reaction of sodium hydroxide (caustic soda) with silicone dioxide (a main component of sand).
Is it Safe?
EWG rates it as a 1 (very low) as a:
Carcinogenic
Eco-Toxin
It is a 2 as an Allergen/Immunotoxin. Sodium silicate is a known irritant if it comes in conact with the eyes or skin, and direct contact is best avoided.
Sodium silicate is a known irritant if it comes into contact with the eyes or skin; we take care using this ingredient and direct contact is best avoided.
Sodium Metasilicate
Made from Salt
What is it?
Sodium metasilicate is a chemical substance that can be produced by the reaction of sodium hydroxide (caustic soda) with silicone dioxide (a main component of sand). It is the main component of commercial sodium silicate solutions, used in a wide range of industries, and usually appears as a white, readily-dissolvable powder.
How is it Made?
By the reaction of sodium hydroxide (caustic soda) with silicone dioxide (a main component of sand).
Is it Safe?
EWG rates it as a 1 (very low) as a:
Carcinogenic
Eco-Toxin
It is a 2 as an Allergen/Immunotoxin. Sodium silicate is a known irritant if it comes in conact with the eyes or skin, and direct contact is best avoided.
Sodium silicate is a known irritant if it comes into contact with the eyes or skin; we take care using this ingredient and direct contact is best avoided.
Chlorine
What is it?
Chlorine is a highly reactive chemical element which appears in many different forms - from benign compounds in the human body to chlorides such as table salt, to potent solutions knowns as ‘bleach’. Chlorine-containing bleaching agents such as Sodium Dichloroisocyanurate and Sodium Hypochlorite are used in some dishwasher products to clean and remove stains. While not all forms of chlorine are of concern, we prefer to leave these ingredients out of our products.
The risks of direct exposure to chlorine are well-documented, and include skin irritation, eye irritation, or toxic if inhaled or swallowed. Most dishwasher powders are designed to avoid any direct human exposure, and a 2014 report for the Ministry of Health indicated the primary cause of harm was accidental ingestion or inhalation by children, with minimal exposure risk from residues left on dishes. However, the potential for compounds to become airborne still poses a risk, as a 2012 case study documented an apprentice cook developing respiratory symptoms, “immediately after exposure to a cloud of detergent powder that was made airborne by vigorous shaking of the package.”
Exposure through emissions via steam from a dishwasher utilising chlorine detergents was noted in a 2009 article, “Some automatic dishwashing detergents also contain dry chlorine that is activated when mixed with the water in the dishwasher. This means that when you open the dishwasher, chlorine fumes are released in the steam that leaks out. These can cause eye irritation and difficulty breathing, especially for those with respiratory problems.” A 2004 study also associated the use of chlorinated dishwashing detergents with increased emissions in the home.
Chlorine is known to disperse or break down in the environment relatively quickly, however its high reactivity and by-products can persist for longer and be highly toxic to aquatic life. Increased awareness of the environmental impacts of chlorine has been documented in the Fresh and Marine Water Quality Guidelines in New Zealand and Australia.
Chlorine
What is it?
Chlorine is a highly reactive chemical element which appears in many different forms - from benign compounds in the human body to chlorides such as table salt, to potent solutions knowns as ‘bleach’. Chlorine-containing bleaching agents such as Sodium Dichloroisocyanurate and Sodium Hypochlorite are used in some dishwasher products to clean and remove stains. While not all forms of chlorine are of concern, we prefer to leave these ingredients out of our products.
The risks of direct exposure to chlorine are well-documented, and include skin irritation, eye irritation, or toxic if inhaled or swallowed. Most dishwasher powders are designed to avoid any direct human exposure, and a 2014 report for the Ministry of Health indicated the primary cause of harm was accidental ingestion or inhalation by children, with minimal exposure risk from residues left on dishes. However, the potential for compounds to become airborne still poses a risk, as a 2012 case study documented an apprentice cook developing respiratory symptoms, “immediately after exposure to a cloud of detergent powder that was made airborne by vigorous shaking of the package.”
Exposure through emissions via steam from a dishwasher utilising chlorine detergents was noted in a 2009 article, “Some automatic dishwashing detergents also contain dry chlorine that is activated when mixed with the water in the dishwasher. This means that when you open the dishwasher, chlorine fumes are released in the steam that leaks out. These can cause eye irritation and difficulty breathing, especially for those with respiratory problems.” A 2004 study also associated the use of chlorinated dishwashing detergents with increased emissions in the home.
Chlorine is known to disperse or break down in the environment relatively quickly, however its high reactivity and by-products can persist for longer and be highly toxic to aquatic life. Increased awareness of the environmental impacts of chlorine has been documented in the Fresh and Marine Water Quality Guidelines in New Zealand and Australia.
Chlorine
What is it?
Chlorine is a highly reactive chemical element which appears in many different forms - from benign compounds in the human body to chlorides such as table salt, to potent solutions knowns as ‘bleach’. Chlorine-containing bleaching agents such as Sodium Dichloroisocyanurate and Sodium Hypochlorite are used in some dishwasher products to clean and remove stains. While not all forms of chlorine are of concern, we prefer to leave these ingredients out of our products.
The risks of direct exposure to chlorine are well-documented, and include skin irritation, eye irritation, or toxic if inhaled or swallowed. Most dishwasher powders are designed to avoid any direct human exposure, and a 2014 report for the Ministry of Health indicated the primary cause of harm was accidental ingestion or inhalation by children, with minimal exposure risk from residues left on dishes. However, the potential for compounds to become airborne still poses a risk, as a 2012 case study documented an apprentice cook developing respiratory symptoms, “immediately after exposure to a cloud of detergent powder that was made airborne by vigorous shaking of the package.”
Exposure through emissions via steam from a dishwasher utilising chlorine detergents was noted in a 2009 article, “Some automatic dishwashing detergents also contain dry chlorine that is activated when mixed with the water in the dishwasher. This means that when you open the dishwasher, chlorine fumes are released in the steam that leaks out. These can cause eye irritation and difficulty breathing, especially for those with respiratory problems.” A 2004 study also associated the use of chlorinated dishwashing detergents with increased emissions in the home.
Chlorine is known to disperse or break down in the environment relatively quickly, however its high reactivity and by-products can persist for longer and be highly toxic to aquatic life. Increased awareness of the environmental impacts of chlorine has been documented in the Fresh and Marine Water Quality Guidelines in New Zealand and Australia.
Phosphates
What is it?
Phosphates are a group of ingredients derived from phosphorous, which have been used in many detergents to improve cleaning performance. Phosphorous can cause environmental damage when it's released into waterways, including contributing to algae blooms and death of aquatic life. We choose to keep phosphates out of our products.
Phosphates have long been used in agriculture as nutrient-rich fertiliser, and are typically derived from phosphate rock (a finite resource, which may soon be depleted). In laundry and cleaning products, they're used as ‘builders’. Builders reduce water hardness (remove metal ions such as calcium and magnesium from water), and help bind and capture removed soil to prevent it from redepositing during the wash. A common phosphate used in detergents is sodium tripolyphosphate (STPP).
When used in detergents, phosphates are considered to be a low hazard to human health, however their use can lead to nutrient pollution in the environment. Awareness of this issue developed in the 80s and 90s, and action has been taken by some governments to ban the use of phosphates in detergents, including the EU and United States. When entering waterways, phosphates can promote rapid increase in some algae populations or even ‘bloom’ events. Algae overabundance absorbs a higher proportion of oxygen from the water, which in turn reduces the amount of essential oxygen available to other aquatic life. The problem with disturbing the marine ecosystem in this way becomes much larger than just killing off a few fish. Marine food webs are far more intricate and delicate than those on land, which means that even the smallest changes in dynamics can cause rapid and hugely detrimental consequences. Phosphate alternatives such as zeolites, are available to detergent manufacturers who wish to avoid this type of damage and take responsibility for their environmental impact.
Chemical class: Phosphorous Compounds
Chemical structure depicted: Trisodium Phosphate, Sodium Tripolyphosphate, Tetrasodium Pyrophosphate
Phosphates
What is it?
Phosphates are a group of ingredients derived from phosphorous, which have been used in many detergents to improve cleaning performance. Phosphorous can cause environmental damage when it's released into waterways, including contributing to algae blooms and death of aquatic life. We choose to keep phosphates out of our products.
Phosphates have long been used in agriculture as nutrient-rich fertiliser, and are typically derived from phosphate rock (a finite resource, which may soon be depleted). In laundry and cleaning products, they're used as ‘builders’. Builders reduce water hardness (remove metal ions such as calcium and magnesium from water), and help bind and capture removed soil to prevent it from redepositing during the wash. A common phosphate used in detergents is sodium tripolyphosphate (STPP).
When used in detergents, phosphates are considered to be a low hazard to human health, however their use can lead to nutrient pollution in the environment. Awareness of this issue developed in the 80s and 90s, and action has been taken by some governments to ban the use of phosphates in detergents, including the EU and United States. When entering waterways, phosphates can promote rapid increase in some algae populations or even ‘bloom’ events. Algae overabundance absorbs a higher proportion of oxygen from the water, which in turn reduces the amount of essential oxygen available to other aquatic life. The problem with disturbing the marine ecosystem in this way becomes much larger than just killing off a few fish. Marine food webs are far more intricate and delicate than those on land, which means that even the smallest changes in dynamics can cause rapid and hugely detrimental consequences. Phosphate alternatives such as zeolites, are available to detergent manufacturers who wish to avoid this type of damage and take responsibility for their environmental impact.
Chemical class: Phosphorous Compounds
Chemical structure depicted: Trisodium Phosphate, Sodium Tripolyphosphate, Tetrasodium Pyrophosphate
Phosphates
What is it?
Phosphates are a group of ingredients derived from phosphorous, which have been used in many detergents to improve cleaning performance. Phosphorous can cause environmental damage when it's released into waterways, including contributing to algae blooms and death of aquatic life. We choose to keep phosphates out of our products.
Phosphates have long been used in agriculture as nutrient-rich fertiliser, and are typically derived from phosphate rock (a finite resource, which may soon be depleted). In laundry and cleaning products, they're used as ‘builders’. Builders reduce water hardness (remove metal ions such as calcium and magnesium from water), and help bind and capture removed soil to prevent it from redepositing during the wash. A common phosphate used in detergents is sodium tripolyphosphate (STPP).
When used in detergents, phosphates are considered to be a low hazard to human health, however their use can lead to nutrient pollution in the environment. Awareness of this issue developed in the 80s and 90s, and action has been taken by some governments to ban the use of phosphates in detergents, including the EU and United States. When entering waterways, phosphates can promote rapid increase in some algae populations or even ‘bloom’ events. Algae overabundance absorbs a higher proportion of oxygen from the water, which in turn reduces the amount of essential oxygen available to other aquatic life. The problem with disturbing the marine ecosystem in this way becomes much larger than just killing off a few fish. Marine food webs are far more intricate and delicate than those on land, which means that even the smallest changes in dynamics can cause rapid and hugely detrimental consequences. Phosphate alternatives such as zeolites, are available to detergent manufacturers who wish to avoid this type of damage and take responsibility for their environmental impact.
Chemical class: Phosphorous Compounds
Chemical structure depicted: Trisodium Phosphate, Sodium Tripolyphosphate, Tetrasodium Pyrophosphate
Sodium Borate (Borax)
Mineral Element Boron
What is it?
Borax is a naturally occurring mineral from the element Boron.
It is used in cleaning products, as it is an effective cleaner and degreaser. However, it has very nasty safety concerns.
How is it Made?
Borax is a mined element.
Is it Safe?
NO!
EWG rates it as a 5 (high) as a:
Developmental or Endocrine Disruptor
Reproductive Toxin
Borax is a banned substance in Europe, and many other countries.
Sodium Percarbonate (also called Sodium Carbonate Peroxide) is a mineral-derived salt that usually appears in the form of a white crystalline powder. We use this ingredient as an oxidizing agent in some of our high-performance products for stain removal and improved cleaning.
How is it Made?
Sodium Percarbonate can be produced by reacting sodium carbonate (washing soda) with hydrogen peroxide. It's commonly used in cleaning products as a bleach activator, contributing oxygen to help remove colour pigments, soils and stains from dirty dishes or laundry, restoring them to their normal oxidized state.
Is it Safe?
EWG rates it as a 1-2 (very low) as a:
Carcinogenic
Allergen/Immunotoxin
Developmental or Endocrine Disruptor
Eco-Toxin
There are recommended use restrictions when used in a cosmetic formula.
A risk assessment by the Human & Environmental Risk Assessment (HERA) Project reviewed the health and environmental impact of sodium carbonate peroxide in household detergents, and found it to have no adverse effects on human health or the aquatic ecosystem. It can be an irritant if exposed to skin or eyes in high concentrations, and appropriate care should be taken when handling. Assessments show this ingredient breaks down into components during the wash (sodium carbonate and hydrogen peroxide) which are then effectively neutralised and degraded during wastewater treatment processes. It's also listed by the European Chemical Agency (ECHA) as having low potential to enter the environment from household cleaning products, with no evidence of bioaccumulation or environmental persistence from this use.
Sodium Percarbonate
Made from Salt
What is it?
Sodium Percarbonate (also called Sodium Carbonate Peroxide) is a mineral-derived salt that usually appears in the form of a white crystalline powder. We use this ingredient as an oxidizing agent in some of our high-performance products for stain removal and improved cleaning.
How is it Made?
Sodium Percarbonate can be produced by reacting sodium carbonate (washing soda) with hydrogen peroxide. It's commonly used in cleaning products as a bleach activator, contributing oxygen to help remove colour pigments, soils and stains from dirty dishes or laundry, restoring them to their normal oxidized state.
Is it Safe?
EWG rates it as a 1-2 (very low) as a:
Carcinogenic
Allergen/Immunotoxin
Developmental or Endocrine Disruptor
Eco-Toxin
There are recommended use restrictions when used in a cosmetic formula.
A risk assessment by the Human & Environmental Risk Assessment (HERA) Project reviewed the health and environmental impact of sodium carbonate peroxide in household detergents, and found it to have no adverse effects on human health or the aquatic ecosystem. It can be an irritant if exposed to skin or eyes in high concentrations, and appropriate care should be taken when handling. Assessments show this ingredient breaks down into components during the wash (sodium carbonate and hydrogen peroxide) which are then effectively neutralised and degraded during wastewater treatment processes. It's also listed by the European Chemical Agency (ECHA) as having low potential to enter the environment from household cleaning products, with no evidence of bioaccumulation or environmental persistence from this use.
Sodium Percarbonate
Made from Salt
What is it?
Sodium Percarbonate (also called Sodium Carbonate Peroxide) is a mineral-derived salt that usually appears in the form of a white crystalline powder. We use this ingredient as an oxidizing agent in some of our high-performance products for stain removal and improved cleaning.
How is it Made?
Sodium Percarbonate can be produced by reacting sodium carbonate (washing soda) with hydrogen peroxide. It's commonly used in cleaning products as a bleach activator, contributing oxygen to help remove colour pigments, soils and stains from dirty dishes or laundry, restoring them to their normal oxidized state.
Is it Safe?
EWG rates it as a 1-2 (very low) as a:
Carcinogenic
Allergen/Immunotoxin
Developmental or Endocrine Disruptor
Eco-Toxin
There are recommended use restrictions when used in a cosmetic formula.
A risk assessment by the Human & Environmental Risk Assessment (HERA) Project reviewed the health and environmental impact of sodium carbonate peroxide in household detergents, and found it to have no adverse effects on human health or the aquatic ecosystem. It can be an irritant if exposed to skin or eyes in high concentrations, and appropriate care should be taken when handling. Assessments show this ingredient breaks down into components during the wash (sodium carbonate and hydrogen peroxide) which are then effectively neutralised and degraded during wastewater treatment processes. It's also listed by the European Chemical Agency (ECHA) as having low potential to enter the environment from household cleaning products, with no evidence of bioaccumulation or environmental persistence from this use.
Sodium Carbonate
Made from Salt
What is it?
Sodium Carbonate or 'washing soda' is a white powder often used as a water softener.
How is it Made?
Sodium Carbonate is produced in large quantities from salt (sodium chloride) and limestone by a method known as the Solvay process.
Decyl glucoside is a plant-based surfactant that usually appears as a clear liquid with a mild sweet fatty aroma, and is found in many cleaning products, soaps and cleansers. We use this ingredient in our cleaning products for its gentle but effective cleansing properties, and general compatibility with sensitive skin.
How is it Made?
Decyl glucoside is derived from glucose (from corn or potato) and decyl alcohol (from coconut or palm). Ours is 100% Palm free and made from Coconut.
It's what's known as a ‘non-ionic surfactant’, which means the molecules have no charge and help deliver non-streak cleaning. It also contributes to lather, wetting and suspension of soils in cleaners.
Is it Safe?
Regarding its safety profile, a group of Alkyl Glucosides, including decyl glucoside, were assessed by the Cosmetic Ingredient Review (CIR) Expert Panel in 2013. They reviewed their safety for dermal exposure in cosmetics and concluded they are “safe in the present practices of use and concentration when formulated to be nonirritating.” EWG notes studies showing allergic contact dermatitis to decyl and lauryl glucoside exists in a small percentage of the population, and appropriate care should be taken for those with sensitivities. This ingredient is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
EWG rates it as a 1 (very low) as a:
Carcinogenic
Developmental or Endocrine Disruptor
And a 2 as an Allergen/Immunotoxin. However, this is only in very high and concentrated levels and our usage is a very low level and heavily diluted.
Decyl glucoside is a plant-based surfactant that usually appears as a clear liquid with a mild sweet fatty aroma, and is found in many cleaning products, soaps and cleansers. We use this ingredient in our cleaning products for its gentle but effective cleansing properties, and general compatibility with sensitive skin.
How is it Made?
Decyl glucoside is derived from glucose (from corn or potato) and decyl alcohol (from coconut or palm). Ours is 100% Palm free and made from Coconut.
It's what's known as a ‘non-ionic surfactant’, which means the molecules have no charge and help deliver non-streak cleaning. It also contributes to lather, wetting and suspension of soils in cleaners.
Is it Safe?
Regarding its safety profile, a group of Alkyl Glucosides, including decyl glucoside, were assessed by the Cosmetic Ingredient Review (CIR) Expert Panel in 2013. They reviewed their safety for dermal exposure in cosmetics and concluded they are “safe in the present practices of use and concentration when formulated to be nonirritating.” EWG notes studies showing allergic contact dermatitis to decyl and lauryl glucoside exists in a small percentage of the population, and appropriate care should be taken for those with sensitivities. This ingredient is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
EWG rates it as a 1 (very low) as a:
Carcinogenic
Developmental or Endocrine Disruptor
And a 2 as an Allergen/Immunotoxin. However, this is only in very high and concentrated levels and our usage is a very low level and heavily diluted.
Decyl glucoside is a plant-based surfactant that usually appears as a clear liquid with a mild sweet fatty aroma, and is found in many cleaning products, soaps and cleansers. We use this ingredient in our cleaning products for its gentle but effective cleansing properties, and general compatibility with sensitive skin.
How is it Made?
Decyl glucoside is derived from glucose (from corn or potato) and decyl alcohol (from coconut or palm). Ours is 100% Palm free and made from Coconut.
It's what's known as a ‘non-ionic surfactant’, which means the molecules have no charge and help deliver non-streak cleaning. It also contributes to lather, wetting and suspension of soils in cleaners.
Is it Safe?
Regarding its safety profile, a group of Alkyl Glucosides, including decyl glucoside, were assessed by the Cosmetic Ingredient Review (CIR) Expert Panel in 2013. They reviewed their safety for dermal exposure in cosmetics and concluded they are “safe in the present practices of use and concentration when formulated to be nonirritating.” EWG notes studies showing allergic contact dermatitis to decyl and lauryl glucoside exists in a small percentage of the population, and appropriate care should be taken for those with sensitivities. This ingredient is also listed by the European Chemical Agency (ECHA) as being readily biodegradable, with low potential for bioaccumulation or aquatic toxicity.
EWG rates it as a 1 (very low) as a:
Carcinogenic
Developmental or Endocrine Disruptor
And a 2 as an Allergen/Immunotoxin. However, this is only in very high and concentrated levels and our usage is a very low level and heavily diluted.
Brassica alcohol is an emollient and emulsifier. It thickens and stabilises formulas while reducing static and providing conditioning and smoothing properties to hair care products.
How is it Made?
Brassica Alcohols is a fatty acid extracted from Rapeseed Oil (Brassica). Rapeseed Oil is what you would know as Canola Oil from your kitchen!
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Brassica alcohol is an emollient and emulsifier. It thickens and stabilises formulas while reducing static and providing conditioning and smoothing properties to hair care products.
How is it Made?
Brassica Alcohols is a fatty acid extracted from Rapeseed Oil (Brassica). Rapeseed Oil is what you would know as Canola Oil from your kitchen!
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Brassica alcohol is an emollient and emulsifier. It thickens and stabilises formulas while reducing static and providing conditioning and smoothing properties to hair care products.
How is it Made?
Brassica Alcohols is a fatty acid extracted from Rapeseed Oil (Brassica). Rapeseed Oil is what you would know as Canola Oil from your kitchen!
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Pro Vitamin B5/Panthenol comes from Vitamin B5 and is a moisturising compound. It comes from either plant or animal sources. Ours comes only from Coconut Oil.
Provitamin B5/Pantenol can be found in hair products to make it look and feel better. It promotes shine, fullness, moisturises and smoothes.
How is it Made?
Stearyl alcohol is in a class known as fatty alcohols, which, unlike irritating types of alcohols, do not dry out skin. Stearyl alcohol is typically produced through hydrogenation (process change from a liquid into a solid or semi-solid state) of stearic acid. Stearic acid is a saturated fatty acid prevalent in animal fats, but rich plant sources of stearic acid include palm fruit, cocoa butter and shea butter. The stearyl alcohol we use is derived from Coconut Oil.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Pro Vitamin B5/Panthenol comes from Vitamin B5 and is a moisturising compound. It comes from either plant or animal sources. Ours comes only from Coconut Oil.
Provitamin B5/Pantenol can be found in hair products to make it look and feel better. It promotes shine, fullness, moisturises and smoothes.
How is it Made?
Stearyl alcohol is in a class known as fatty alcohols, which, unlike irritating types of alcohols, do not dry out skin. Stearyl alcohol is typically produced through hydrogenation (process change from a liquid into a solid or semi-solid state) of stearic acid. Stearic acid is a saturated fatty acid prevalent in animal fats, but rich plant sources of stearic acid include palm fruit, cocoa butter and shea butter. The stearyl alcohol we use is derived from Coconut Oil.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Pro Vitamin B5/Panthenol comes from Vitamin B5 and is a moisturising compound. It comes from either plant or animal sources. Ours comes only from Coconut Oil.
Provitamin B5/Pantenol can be found in hair products to make it look and feel better. It promotes shine, fullness, moisturises and smoothes.
How is it Made?
Stearyl alcohol is in a class known as fatty alcohols, which, unlike irritating types of alcohols, do not dry out skin. Stearyl alcohol is typically produced through hydrogenation (process change from a liquid into a solid or semi-solid state) of stearic acid. Stearic acid is a saturated fatty acid prevalent in animal fats, but rich plant sources of stearic acid include palm fruit, cocoa butter and shea butter. The stearyl alcohol we use is derived from Coconut Oil.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Stearyl alcohol is an organic compound, usually appearing in the form of white crystalline granules, derived from fats and oils.
Stearyl alcohol has a range of uses in different types of products: In skin care products, it can be used to modify the viscosity (thickness) of lotions or as an emollient (moisturiser), leaving skin soft and smooth. In personal and hair care products, it can be used as an emulsifier or emulsion stabiliser, helping emulsifying ingredients more effectively reduce surface tension between water and oil, improving performance.
Our Stearyl alcohol is Palm Oil Free, and Animal Oil Free. It is made from Coconut Oil.
How is it Made?
Stearyl alcohol is in a class known as fatty alcohols, which, unlike irritating types of alcohols, do not dry out skin. Stearyl alcohol is typically produced through hydrogenation (process change from a liquid into a solid or semi-solid state) of stearic acid. Stearic acid is a saturated fatty acid prevalent in animal fats, but rich plant sources of stearic acid include palm fruit, cocoa butter and shea butter. The stearyl alcohol we use is derived from Coconut Oil.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Stearyl alcohol is an organic compound, usually appearing in the form of white crystalline granules, derived from fats and oils.
Stearyl alcohol has a range of uses in different types of products: In skin care products, it can be used to modify the viscosity (thickness) of lotions or as an emollient (moisturiser), leaving skin soft and smooth. In personal and hair care products, it can be used as an emulsifier or emulsion stabiliser, helping emulsifying ingredients more effectively reduce surface tension between water and oil, improving performance.
Our Stearyl alcohol is Palm Oil Free, and Animal Oil Free. It is made from Coconut Oil.
How is it Made?
Stearyl alcohol is in a class known as fatty alcohols, which, unlike irritating types of alcohols, do not dry out skin. Stearyl alcohol is typically produced through hydrogenation (process change from a liquid into a solid or semi-solid state) of stearic acid. Stearic acid is a saturated fatty acid prevalent in animal fats, but rich plant sources of stearic acid include palm fruit, cocoa butter and shea butter. The stearyl alcohol we use is derived from Coconut Oil.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Stearyl alcohol is an organic compound, usually appearing in the form of white crystalline granules, derived from fats and oils.
Stearyl alcohol has a range of uses in different types of products: In skin care products, it can be used to modify the viscosity (thickness) of lotions or as an emollient (moisturiser), leaving skin soft and smooth. In personal and hair care products, it can be used as an emulsifier or emulsion stabiliser, helping emulsifying ingredients more effectively reduce surface tension between water and oil, improving performance.
Our Stearyl alcohol is Palm Oil Free, and Animal Oil Free. It is made from Coconut Oil.
How is it Made?
Stearyl alcohol is in a class known as fatty alcohols, which, unlike irritating types of alcohols, do not dry out skin. Stearyl alcohol is typically produced through hydrogenation (process change from a liquid into a solid or semi-solid state) of stearic acid. Stearic acid is a saturated fatty acid prevalent in animal fats, but rich plant sources of stearic acid include palm fruit, cocoa butter and shea butter. The stearyl alcohol we use is derived from Coconut Oil.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Cetearyl alcohol is a white waxy solid ingredient with a mild soapy odour, and is in a group known as a ‘fatty alcohols’. Unlike more conventional alcohols like ethanol, fatty alcohols have notably different properties - typically they are non-irritating and non-drying to skin.
Cetearyl alcohol has a range of uses in different types of products: In skin care products, it can be used to modify the viscosity (thickness) of lotions or as an emollient (moisturiser), leaving skin soft and smooth. In personal and hair care products, it can be used as an emulsifier or emulsion stabiliser, helping emulsifying ingredients more effectively reduce surface tension between water and oil, improving performance.
Cetearyl alcohol is primarily made from cetyl and stearyl alcohols, which can be synthetically produced or derived from plant oils such as coconut and palm, or from animal oils.
Our Cetearyl alcohol is Palm Oil Free, and Animal Oil Free. It is made from Coconut Oil.
How is it Made?
Cetearyl Alcohol is in a class of compounds known as fatty alcohols, which are derived from natural fats and oils. Cetearyl Alcohol ws first discoverd and produced from whale oil in the 19th Century, however production has thankfully evolved and it is now produced from palm or coconut oil. The Cetearyl Alcohol we use is strictly palm free and made from Coconut Oil.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Cetearyl alcohol is a white waxy solid ingredient with a mild soapy odour, and is in a group known as a ‘fatty alcohols’. Unlike more conventional alcohols like ethanol, fatty alcohols have notably different properties - typically they are non-irritating and non-drying to skin.
Cetearyl alcohol has a range of uses in different types of products: In skin care products, it can be used to modify the viscosity (thickness) of lotions or as an emollient (moisturiser), leaving skin soft and smooth. In personal and hair care products, it can be used as an emulsifier or emulsion stabiliser, helping emulsifying ingredients more effectively reduce surface tension between water and oil, improving performance.
Cetearyl alcohol is primarily made from cetyl and stearyl alcohols, which can be synthetically produced or derived from plant oils such as coconut and palm, or from animal oils.
Our Cetearyl alcohol is Palm Oil Free, and Animal Oil Free. It is made from Coconut Oil.
How is it Made?
Cetearyl Alcohol is in a class of compounds known as fatty alcohols, which are derived from natural fats and oils. Cetearyl Alcohol ws first discoverd and produced from whale oil in the 19th Century, however production has thankfully evolved and it is now produced from palm or coconut oil. The Cetearyl Alcohol we use is strictly palm free and made from Coconut Oil.
Is it Safe?
EWG rates it as a 1 (scores 1-10 - 10 is worst) as a:
Cetearyl alcohol is a white waxy solid ingredient with a mild soapy odour, and is in a group known as a ‘fatty alcohols’. Unlike more conventional alcohols like ethanol, fatty alcohols have notably different properties - typically they are non-irritating and non-drying to skin.
Cetearyl alcohol has a range of uses in different types of products: In skin care products, it can be used to modify the viscosity (thickness) of lotions or as an emollient (moisturiser), leaving skin soft and smooth. In personal and hair care products, it can be used as an emulsifier or emulsion stabiliser, helping emulsifying ingredients more effectively reduce surface tension between water and oil, improving performance.
Cetearyl alcohol is primarily made from cetyl and stearyl alcohols, which can be synthetically produced or derived from plant oils such as coconut and palm, or from animal oils.
Our Cetearyl alcohol is Palm Oil Free, and Animal Oil Free. It is made from Coconut Oil.