What does an ergothioneine specification sheet include?

A specification sheet typically includes identity details, purity and assay results, safety-related parameters such as heavy metals and microbiology, and handling information.

What does ≥98% HPLC purity mean?

It indicates that at least 98% of the detected material matches ergothioneine under the specified HPLC method. Buyers should also verify method validation and impurity scope.

Why is a COA important in bulk sourcing?

A COA confirms that a specific production batch meets defined specifications and supports traceability and regulatory compliance.

Ergothioneine Specification Sheet Explained: What Procurement Teams Should Check

Introduction: Why Specifications Matter More Than Claims

For procurement teams, specification sheets and COA documents matter far more than marketing language.

When sourcing ergothioneine as a raw material, buyers are not evaluating promises — they are verifying:

identity
purity
safety parameters
compliance readiness

This article explains how to read an ergothioneine specification sheet, what each parameter actually means in practice, and how procurement teams can avoid common mistakes during supplier evaluation.

What a Real Ergothioneine Specification Sheet Includes

A professional specification sheet should be clear, complete, and testable.
At minimum, it should cover four categories:

1. Identity & Physical Description

Chemical name
CAS number
Molecular formula
Appearance (e.g., white to off-white powder)

This confirms the material is chemically defined, not a blended or variable extract.

2. Purity & Assay Results

Assay method (commonly HPLC)
Purity specification (e.g., ≥98%)
Reference standard used

This section determines whether the material is suitable for regulated manufacturing.

3. Safety-Related Parameters

Heavy metals
Microbiological limits
Residual solvents (if applicable)

These parameters directly affect regulatory acceptance.

4. Handling & Storage Information

Recommended storage conditions
Shelf life
Packaging description

This information supports quality stability across the supply chain.

HPLC Purity: What “≥98%” Actually Means

One of the most common figures buyers see is “Purity ≥98% (HPLC)”.
However, the number alone is not enough.

Procurement teams should verify:

Which HPLC method is used
Whether the method is validated
What impurities are excluded or included in the calculation

A credible COA should list:

test method reference
detection wavelength
retention time consistency

Without method transparency, purity numbers have limited value.

Heavy Metals & Microbiological Limits: Why They Matter

Heavy Metals

Typical specifications may include:

Lead (Pb)
Arsenic (As)
Cadmium (Cd)
Mercury (Hg)

These are usually reported as total heavy metals or individual limits (e.g., ≤10 ppm total).

Buyers should confirm:

test method (ICP-MS, AAS, etc.)
detection limits
compliance with target market standards

Microbiological Limits

Even for non-biological applications, microbiological control is critical.

Common parameters include:

Total plate count
Yeast & mold
Absence of pathogens (e.g., E. coli, Salmonella)

Microbial limits help ensure storage stability and formulation safety.

Red Flags in Ergothioneine COA Documents

Not all COAs are equal.
Procurement teams should be cautious if they see:

Missing test methods
Results listed as “pass” without numerical data
No batch or lot number
Identical COAs reused across batches
No issuing laboratory or signature

A COA is a traceability document, not a marketing attachment.

How Specifications Differ by Application

Cosmetic Manufacturing

Focus on microbiological control
Consistent appearance and solubility
Stability under formulation conditions

Nutraceutical Manufacturing

Stricter impurity thresholds
Food-grade documentation
Traceable batch records

Specifications should align with intended use, not generic labeling.

Why Specification Review Supports Better Supplier Qualification

Understanding specifications allows buyers to:

compare suppliers objectively
reduce audit risk
prevent downstream formulation issues
support regulatory submissions

This is why experienced procurement teams often review specs before requesting pricing.

For a broader sourcing framework, see:
👉 Ergothioneine Raw Material: Industrial Production & Sourcing Guide
https://aiherba.com/ergothioneine-raw-material-industrial-sourcing-guide/

Frequently Asked Questions

What is a COA in ergothioneine sourcing?

A COA (Certificate of Analysis) documents test results for a specific batch, confirming it meets defined specifications.

Is ≥98% purity always required?

Purity requirements depend on application and market, but high purity supports broader regulatory acceptance.

Should buyers request test method details?

Yes. Method transparency improves confidence in reported results.

Are specifications the same across suppliers?

No. Specification depth and test rigor vary widely.

References & Authoritative Sources

FDA – Current Good Manufacturing Practice (cGMP)
https://www.fda.gov/
EFSA – Ingredient safety and novel food guidance
https://www.efsa.europa.eu/
NIH – Analytical and quality control principles
https://www.nih.gov/
PubMed – Ergothioneine analytical research
https://pubmed.ncbi.nlm.nih.gov/

Realistic Reader Comments

“Clear explanation of COA details. Helpful for reviewing supplier documents.”
— Procurement Specialist, US

“Good reminder that purity numbers alone are not enough.”
— Quality Manager, EU OEM