Zinc Ricinoleate Powder

• INCI Name: Zinc Ricinoleate
• CAS Number: 13040-19-2
• Chemical Name: Zinc bis(12-hydroxy-9-octadecenoate); Zinc salt of Ricinoleic Acid
• Chemical Formula: C₃₆H₆₆O₆Zn (approximate)
• Source: Derived from ricinoleic acid (the primary fatty acid of Castor Oil, Ricinus communis)
• Grade: Cosmetic Grade
• Appearance: Fine white to off-white powder
• Odour: Essentially odourless — no characteristic scent
• Solubility: Insoluble in water; sparingly soluble in polar solvents; soluble in warm oils and glycerin at low concentrations; best incorporated as a fine dispersion
• pH (10% dispersion): Approximately 6.5–8.0
• Melting Point: Approximately 100–120°C
• Phase Addition: Can be dispersed in either oil phase or water phase; disperse in oil phase for anhydrous formulations; for aqueous formulations best dispersed in glycerin or propylene glycol before addition to water phase
• Usage Rate: 0.5–5.0% of total formulation weight
• Shelf Life: 2+ years in sealed storage
• Storage: Store in a sealed container in a cool, dry place away from moisture and direct sunlight

HOW IT WORKS — THE ODOUR ABSORPTION MECHANISM

Understanding Zinc Ricinoleate requires understanding what body odour actually is:

What causes body odour:

Fresh sweat is largely odourless. Body odour develops when skin-resident bacteria (primarily Corynebacterium species and Staphylococcus hominis) metabolise eccrine and apocrine sweat components — particularly branched-chain fatty acids and amino acids — into volatile organic compounds (VOCs). The specific VOCs responsible for the characteristic underarm odour include compounds such as 3-methyl-2-hexenoic acid (3M2H), butyric acid, isovaleric acid, and various thioalcohols and sulphur compounds. It is these volatile molecules, not the sweat itself, that produce the odour we perceive.

How Zinc Ricinoleate captures odour:

Zinc Ricinoleate has an extraordinary affinity for the specific VOC molecules responsible for body odour. The zinc centre and the long-chain ricinoleate structure together create an active site that binds to these odour molecules through a combination of coordinate bonding (zinc's Lewis acid character attracting electron-rich sulphur and nitrogen groups in odour compounds), hydrophobic interaction (the long carbon chain trapping fatty acid odour compounds), and hydrogen bonding. When an odour molecule encounters Zinc Ricinoleate it becomes bound to the complex — its vapour pressure drops to near zero — making it non-volatile and therefore imperceptible to smell even though the molecule still physically exists in the complex.

The result: Rather than covering body odour with fragrance or preventing its formation by killing bacteria, Zinc Ricinoleate intercepts and traps odour molecules the moment they form — rendering them odourless without requiring the deodorant to be antibacterial. The captured odour is washed away when the product is next removed with soap and water.

Why this is superior to masking: Fragrance masking simply competes with the odour signal — add enough fragrance and you overwhelm the nose's ability to detect the underlying smell. Under high sweating conditions or as fragrance fades, the underlying odour returns. Zinc Ricinoleate actually removes the odour signal. Formulations using Zinc Ricinoleate remain effective even as fragrance fades — they do not require fragrance to be odour-effective.

RECOMMENDED USAGE RATES

Natural Deodorant Stick (anhydrous)

• Zinc Ricinoleate: 1–3% of total formulation
• Disperse in the warm liquid oils phase before adding waxes; ensure complete and uniform dispersion
• Combine with sodium bicarbonate (5–15%) and arrowroot/cornflour (20–40%) for comprehensive odour control

Natural Deodorant Cream (anhydrous)

• Zinc Ricinoleate: 1–3%
• Blend into the base oils and butters; stir thoroughly for even dispersion

Natural Deodorant Spray (aqueous)

• Zinc Ricinoleate: 0.5–2%
• Pre-disperse in glycerin or propylene glycol (5–10 parts glycerin per 1 part Zinc Ricinoleate) before incorporating into the water phase; stir continuously during addition; do not expect full solution — a fine, stable dispersion is the goal

Natural Deodorant Roll-On (aqueous)

• Zinc Ricinoleate: 0.5–2%
• Same pre-dispersion method as spray; ensure particle size is small enough to flow through roll-on ball mechanism without clogging

Body Powder (dry deodorant)

• Zinc Ricinoleate: 1–5% in dry powder blend
• Blend thoroughly with arrowroot, cornflour, kaolin clay, and sodium bicarbonate; no pre-dispersion required in dry systems

Room Spray / Odour Eliminator Spray

• Zinc Ricinoleate: 1–3%
• Pre-disperse in glycerin or alcohol before diluting into water; target broad household odour neutralisation (cooking, pet, smoke)

Fabric Freshener Spray

• Zinc Ricinoleate: 0.5–2%
• Same approach as room spray; safe for fabric contact at these concentrations

Pet Grooming Products (shampoo, odour spray)

• Zinc Ricinoleate: 0.5–2%
• Neutralises pet-specific malodour compounds; highly effective for dog and cat grooming

Foot Deodorant Products

• Zinc Ricinoleate: 2–5% in foot creams, foot powders, and foot sprays
• Higher rates appropriate for foot odour which tends to be more intense than underarm odour

TYPICAL APPLICATIONS

• Natural deodorant sticks (anhydrous)
• Natural deodorant creams (anhydrous)
• Natural deodorant sprays (aqueous)
• Natural deodorant roll-ons
• Dry powder deodorants
• Foot deodorant creams, powders, and sprays
• Body powders with odour control
• Room sprays and odour eliminator sprays
• Fabric freshener sprays
• Pet grooming and odour control products
• Shoe deodorant products
• Sports and gym product odour control

• True odour absorption — captures and immobilises volatile odour molecules at the molecular level; does not mask or cover odour; does not require fragrance to be effective; one of very few cosmetic ingredients with this genuine mechanism
• Uniquely complementary to all other deodorant actives — addresses the odour signal itself; antibacterials address the bacterial source; combine for comprehensive, multi-mechanism deodorant efficacy
• Works on all malodour types — not selective to specific odour compounds; broad-spectrum odour trapping effective against the full range of human body odour VOCs including fatty acids, thioalcohols, and sulphur compounds
• Odour molecules captured, not destroyed — the complex washes away cleanly at the next wash; no breakdown products; no interference with skin microbiome
• Fragrance-independent efficacy — continues to trap odour molecules even after fragrance fades from the product; important for honest performance claims in fragrance-free or lightly scented formulations
• Excellent skin tolerance — non-irritating, non-sensitising at cosmetic use concentrations; suitable for sensitive skin deodorant formulations
• Castor oil-derived — ricinoleic acid from Ricinus communis; natural-derived origin story for natural and clean beauty positioning
• Effective at low usage rates (0.5–3%) — cost-efficient; minimal impact on formulation aesthetics or texture
• White powder — does not colour formulations; compatible with natural white or lightly tinted deodorant aesthetics
• Fragrance-free — adds no scent of its own; complete fragrance freedom in formulation design
• Versatile beyond personal care — applicable in room sprays, fabric fresheners, pet grooming, and industrial odour control

• Cosmetic grade — safe for direct skin contact in deodorant and personal care applications at 0.5–5%
• Non-irritating and non-sensitising at cosmetic use concentrations — suitable for sensitive skin deodorant formulations
• Avoid contact with eyes; if contact occurs rinse thoroughly with water for several minutes
• For external use only — not for ingestion; keep away from mouth
• Zinc-containing compound — do not inhale powder in bulk handling; use a dust mask when working with large quantities; standard powder handling precautions apply
• Keep out of reach of children
• Store sealed away from moisture — absorbs atmospheric moisture if left unsealed; reseal immediately after use
• Do not use in aerosol/spray formulations that may be inhaled — standard precaution for any fine powder-containing spray product
• Environmental: Zinc Ricinoleate at cosmetic use concentrations and typical wash-off quantities is not expected to present significant aquatic toxicity concerns; dispose of product and rinse water according to local regulations

What is the INCI name for Zinc Ricinoleate?

The INCI name is Zinc Ricinoleate. This name must appear on your finished cosmetic product ingredient list when selling deodorant or other cosmetic products in Australia.

How is Zinc Ricinoleate different from sodium bicarbonate in a natural deodorant?

Sodium bicarbonate (baking soda) works primarily through two mechanisms: its alkaline pH creates an unfavourable environment for odour-causing bacteria, and it partially neutralises acidic sweat odour compounds. Zinc Ricinoleate works by physically trapping and immobilising volatile odour molecules regardless of their pH — it captures them through molecular adsorption. The two are highly complementary: sodium bicarb reduces bacterial odour production, Zinc Ricinoleate captures whatever odour molecules are still produced. Using both gives significantly better results than either alone.

Why can't I just use more fragrance instead?

Fragrance masking is fundamentally different from odour absorption. Adding fragrance to a deodorant creates a competing sensory signal — your nose processes the fragrance rather than the odour. But under heavy sweating, prolonged wear, or as fragrance fades over the day, the underlying odour re-emerges. Zinc Ricinoleate removes the odour signal rather than competing with it — meaning deodorant effectiveness does not depend on fragrance persistence. This enables genuinely effective, longer-lasting natural deodorant with minimal or no added fragrance.

Can I use Zinc Ricinoleate in a water-based spray deodorant?

Yes — with careful formulation. Zinc Ricinoleate is not water soluble; it must be pre-dispersed in glycerin or propylene glycol (at approximately 1 part Zinc Ricinoleate to 5–10 parts glycerin) to create a fine, stable dispersion before incorporation into the water phase. Use a high-shear mixer or homogeniser for the finest, most stable dispersion. The finished spray should be shaken before use. Particle size management is important for roll-on applications — ensure the dispersion is fine enough to flow through the roll-on mechanism without clogging.

Is Zinc Ricinoleate suitable for sensitive skin deodorant formulations?

Yes — Zinc Ricinoleate is generally well-tolerated at cosmetic use concentrations and is specifically valued in sensitive skin deodorant formulations because it provides genuine odour control without relying on high concentrations of sodium bicarbonate, which can cause skin irritation and rash in some individuals (particularly those with eczema or compromised skin barrier). A bicarb-free deodorant using Zinc Ricinoleate as the primary odour active alongside magnesium hydroxide is a popular approach for sensitive skin natural deodorant formulation.

What is the difference between Zinc Ricinoleate and Zinc Oxide in deodorant?

Zinc Oxide works primarily as an antimicrobial and astringent — it reduces bacterial populations on skin (reducing odour production) and mildly reduces sweating. Zinc Ricinoleate is an odour absorbent — it traps the volatile odour molecules produced by bacteria rather than killing the bacteria. Both contain zinc but work through entirely different mechanisms and are complementary. Zinc Oxide (1–5%) + Zinc Ricinoleate (1–3%) in the same deodorant formulation addresses both odour production (zinc oxide antibacterial) and odour molecules produced (zinc ricinoleate absorption) for more comprehensive control.

How long does the odour-absorbing effect last?

Zinc Ricinoleate continues to trap odour molecules for as long as active complex sites remain available — essentially for the duration that the product is on the skin. As complex sites become saturated with trapped odour molecules, efficacy reduces. The trapped complex is removed at the next wash with soap and water, at which point fresh deodorant application renews the supply of active sites. At typical usage rates of 1–3% in a stick or cream deodorant, adequate active sites are available for 8–24 hours of odour trapping under normal sweat conditions.

YOU MAY ALSO NEED

• Sodium Bicarbonate (Food Grade Baking Soda) — essential antibacterial complement to Zinc Ricinoleate in natural deodorant sticks and creams
• Arrowroot Organic Powder — moisture absorber in natural deodorant formulations; blends with Zinc Ricinoleate
• Cornflour (Wheaten) — cost-effective moisture absorber in natural deodorant powder blends
• Precipitated Silica — high-performance oil and moisture absorber; blends with Zinc Ricinoleate in deodorant powders
• Shea Butter (Refined & Organic) — primary butter base for natural deodorant sticks and creams
• Candelilla Wax (Vegetable) — vegan hardening wax for Zinc Ricinoleate-based natural deodorant sticks
• Beeswax Pellets (Natural) — natural hardening wax for Zinc Ricinoleate-based deodorant sticks
• Essential Oils Collection — scent your natural deodorant formulations; Tea Tree, Lavender, and Cedarwood popular choices
• Kaolin Clay (Australian) — additional moisture and odour absorption in deodorant powder and cream formulations