CUPRIC CHLORIDE IN PLASTIC CONTAINER: Pharmaceutical manufacturers, suppliers, and wholesalers

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Applicant	Tradename	Generic Name	Dosage	NDA	NDA/ANDA	Supplier	Package Code	Package	Marketing Start
Hospira	CUPRIC CHLORIDE IN PLASTIC CONTAINER	cupric chloride	INJECTABLE;INJECTION	018960	NDA	Hospira, Inc.	0409-4092-01	25 VIAL, SINGLE-DOSE in 1 TRAY (0409-4092-01) / 10 mL in 1 VIAL, SINGLE-DOSE (0409-4092-11)	2005-02-28
>Applicant	>Tradename	>Generic Name	>Dosage	>NDA	>NDA/ANDA	>Supplier	>Package Code	>Package	>Marketing Start

Last updated: April 26, 2026

Who Supplies Cupric Chloride in Plastic Containers?

Cupric chloride (copper(II) chloride) in plastic container is supplied by a set of specialty chemical distributors and bulk chemical manufacturers that sell industrial grades (often with different hydrate states) in HDPE or other plastic packaging. Procurement typically hinges on (1) the hydrate form (anhydrous vs dihydrate vs mixed forms), (2) assay (often technical vs ACS/reagent grades), (3) impurities (especially iron, heavy metals, halides), and (4) container format (net weight and HDPE type).

Which companies supply cupric chloride in plastic containers?

Below is a supplier map from common global distributors and chemical manufacturers that offer copper(II) chloride in plastic packaging formats (commonly HDPE bottles/jugs or similar plastic containers). This list is structured for sourcing workflows: the “what” is cupric chloride; the “how” is plastic container supply.

Supplier	Typical product description used in catalogs	Packaging pattern	Notes for matching to “plastic container”
Fisher Scientific (Thermo Scientific)	Copper(II) chloride (cupric chloride), various grades (anhydrous and hydrated grades)	Plastic bottles commonly used for lab chemicals	Use for reagent/ACS grade availability in plastic containers [1]
Sigma-Aldrich / Merck	Copper(II) chloride (CuCl2), hydrate variants	Plastic lab bottles for smaller pack sizes	Strong fit when a specific analytical-grade spec is required [2]
TCI Chemicals	Copper(II) chloride, dihydrate or anhydrous depending on listing	Plastic containers for catalog items	Suitable for fine chemical procurement [3]
VWR / Avantor	Copper(II) chloride listings by multiple grades	Plastic lab/bulk containers	Broad distribution coverage for lab users [4]
Alfa Aesar (Thermo Fisher)	Copper(II) chloride (CuCl2), specified hydrate forms	Plastic bottles for catalog items	Often used for research-grade purchase [5]
Chem-Impex / similar specialty distributors	Cupric chloride products in multiple grades	Plastic bottles/jugs	Common for alternate pack formats and grade matching [6]
BASF / major inorganic producers (through distributors)	Copper(II) chloride technical grades	Bulk in plastic-lined or plastic packaging via channels	Often sourced through intermediaries for plastic-container delivery [7]
Bulk chemical distributors (regional)	Copper(II) chloride technical and reagent grades	HDPE jugs/bottles are typical	Best for industrial volumes and consistent plastic formats

Direct procurement takeaway: Most reputable chemistry suppliers ship cupric chloride in plastic packaging as a standard lab or industrial packaging practice; the key risk is hydrate state mismatch and grade/spec mismatch, not container material.

What grades and hydrate forms matter for “cupric chloride in plastic container”?

Cupric chloride supply is split by hydrate state and grade. Your label may say “cupric chloride,” but the chemical identity in commerce usually appears as one of the following:

Form	Common catalog name	Practical procurement impact
Anhydrous	copper(II) chloride (CuCl2)	Often tighter specs; different handling and assay profile
Dihydrate	copper(II) chloride dihydrate (CuCl2·2H2O)	Often higher mass fraction due to water; controls differ
Mixed hydrate / variable	“cupric chloride” with unspecified hydrate in some listings	Needs spec alignment to avoid formulation variability

In high-stakes formulation or impurity-sensitive work, sourcing should lock the exact form (anhydrous vs dihydrate) and the grade used in the existing process.

How to verify the packaging is actually plastic (not just “shipped in bottles”)

Supplier pages often specify packaging type and pack size by listing a container, count, and sometimes material (commonly HDPE for many inorganic salts). For a sourcing decision that explicitly calls for “plastic container,” the most defensible checks are:

Product packaging field in the supplier catalog (often includes “bottle,” “jug,” “HDPE,” “plastic bottle”).
Safety Data Sheet (SDS) packaging section (sometimes includes transport packaging guidance and container type).
Orderable pack-size listing that typically corresponds to HDPE bottles/jugs for inorganic salts.

Examples of supplier listings that show catalog product structure for copper(II) chloride include Fisher Scientific and Merck/Sigma-Aldrich product pages for specific grades and hydrate forms [1], [2].

Where do suppliers fit in a pharmaceutical supply chain?

Laboratory reagent vs GMP supply

Most general chemical suppliers provide non-GMP grades. If the application is pharmaceutical R&D only, reagent-grade procurement in plastic containers can be operational. If GMP manufacturing is in scope, procurement must route through suppliers and documentation paths that support:

Controlled specifications (CoA, impurity profile)
Traceability of lot and manufacturing controls
Compliance with quality systems

Even when the container material is plastic, pharma-grade sourcing typically changes the document set and lot qualification, not the core chemistry.

Key constraints in cupic (cupric) chloride sourcing

What typically causes procurement failure even when suppliers exist?

Even when the supplier sells cupric chloride, the order can fail due to:

Wrong hydrate form (anhydrous vs dihydrate).
Wrong grade (technical vs reagent/analytical grade).
Spec gaps (heavy metals, iron content, soluble matters).
Container size mismatch (plastic bottle weight limit or number of units).
Hazardous shipping restrictions (for cross-border shipments and packaging classification).

These failures tend to occur at order confirmation, not at discovery.

Supplier short list by procurement style

Catalog lab suppliers (fast procurement in plastic containers)

Fisher Scientific: strong catalog coverage for copper(II) chloride grades in bottle formats [1]
Sigma-Aldrich / Merck: broad reagent/hydrate options in plastic bottles [2]
TCI Chemicals: multiple hydrate variants in standard catalog packaging [3]
Alfa Aesar: reagent-grade inorganic catalog in plastic bottle formats [5]

Regional distributors (volume and packaging flexibility)

VWR / Avantor: distributor catalog access for lab and scaling buys [4]
Specialty distributors: often provide different pack sizes in plastic jugs/bottles for inorganic salts [6]
Bulk industrial sourcing channels: HDPE jugs are common for inorganic salts; packaging is usually consistent in bulk distribution [7]

Key Takeaways

Cupric chloride (copper(II) chloride) is routinely sold by major chemical suppliers in plastic containers (typically HDPE bottles/jugs) across multiple grades and hydrate forms.
The most important match for “cupric chloride in plastic container” is not container material alone. It is the hydrate state and grade/spec locked at order time.
For fast acquisition in plastic containers, the strongest path is major catalog suppliers (Fisher, Merck/Sigma-Aldrich, TCI, Alfa Aesar), which publish specific product listings by grade/hydrate with standard bottle packaging [1]-[5].
For larger volumes or different pack sizes, use distributor channels that can deliver bulk in plastic jugs and support lot documentation [4], [6], [7].

FAQs

1) Is cupric chloride commonly packaged in HDPE bottles?

Yes. Inorganic salts like copper(II) chloride are commonly stocked and shipped in plastic lab or industrial containers, with HDPE bottles/jugs used across major catalogs and distributors [1]-[5].

2) Do suppliers sell both anhydrous and dihydrate cupric chloride?

Most major suppliers offer both, listed as separate catalog items (e.g., copper(II) chloride and copper(II) chloride dihydrate), which you must select explicitly [1]-[3].

3) What is the main reason orders do not match the requested material?

The highest-frequency mismatch is hydrate form and grade/spec rather than container type. “Cupric chloride” listings can cover different compositions depending on hydrate state [1]-[3].

4) Can a distributor supply the same cupric chloride as a manufacturer in plastic packaging?

Yes. Distributors frequently repackage or supply through ordering channels that keep plastic-container formats for the chosen pack size, while the underlying chemical manufacturer may vary by lot [4], [6], [7].

5) Are catalog suppliers adequate for pharmaceutical development material?

They are typically used for non-GMP or early-stage R&D. For GMP use, sourcing requires supplier quality documentation and lot control beyond standard catalog availability [4], [7].

References (APA)

[1] Fisher Scientific. (n.d.). Copper(II) chloride products (various grades and hydrate forms). Retrieved April 27, 2026, from https://www.fishersci.com
[2] Merck. (n.d.). Copper(II) chloride (CuCl2) and copper(II) chloride dihydrate (product listings). Retrieved April 27, 2026, from https://www.sigmaaldrich.com
[3] TCI Chemicals. (n.d.). Copper(II) chloride (CuCl2) and related listings (hydrate/grade selection). Retrieved April 27, 2026, from https://www.tcichemicals.com
[4] VWR. (n.d.). Copper(II) chloride product listings by grade. Retrieved April 27, 2026, from https://us.vwr.com
[5] Alfa Aesar. (n.d.). Copper(II) chloride product listings. Retrieved April 27, 2026, from https://www.alfaesar.com
[6] Chem-Impex. (n.d.). Copper(II) chloride products and packaging formats. Retrieved April 27, 2026, from https://www.chem-impex.com
[7] BASF and industrial inorganic channels. (n.d.). Inorganic copper(II) chloride supply via distribution networks. Retrieved April 27, 2026, from https://www.basf.com

Suppliers and packagers for CUPRIC CHLORIDE IN PLASTIC CONTAINER