Showing all 3 results
The global shift toward electric mobility and advanced energy storage has created strong demand for high-quality battery materials. Reliable battery chemicals play a crucial role in determining how safely and efficiently a battery performs. Classic Solvents supports this growing sector by supplying three essential battery chemicals that power different stages of lithium-ion battery manufacturing and other industrial applications.
Our portfolio includes Iron Phosphate, Phosphorous Pentachloride, and Polyethylene Glycol (PEG). Each product meets strict quality, purity, and packaging standards so that manufacturers can work confidently and consistently across research, development, and large-scale
production.
Classic Solvents brings decades of sourcing experience and strong supplier partnerships, which ensure dependable supply and complete documentation for every shipment.
Every battery is built on carefully selected raw materials. When manufacturers work with high-purity chemicals, they achieve better charge capacity, enhanced safety, and longer cycle life. Lithium-ion battery chemistry relies on a combination of cathode materials, electrolyte components, and binders that must function together without impurities or unwanted reactions. The chemical used in lithium-ion battery systems must be consistent in purity and
moisture level because even small variations can affect safety, conductivity, and long-term stability.
Quality battery chemicals help maintain stability during charging, limit thermal stress, and reduce degradation over time. Moisture control, particle consistency, and chemical purity are important across all stages of battery production. Classic Solvents supplies materials that match these requirements so that manufacturers can maintain predictable results with confidence.
Below are the three primary battery chemicals supplied by Classic Solvents. Each is backed by documentation, reliable sourcing, and technical clarity for industrial use.
Iron Phosphate is one of the most important chemicals used in lithium-ion battery cathode production because it supports the safety and stability of LiFePO₄ systems. LFP batteries are widely used in electric vehicles, energy storage solutions, solar applications, and industrial
equipment because they offer safety, long cycle life, and excellent thermal stability.
Classic Solvents supplies battery-grade and industrial-grade Iron Phosphate, each validated for Fe content, P₂O₅ levels, moisture control, and particle uniformity.
Explore more on the Iron Phosphate page for technical details and specifications.
Phosphorous Pentachloride plays a major role as a reagent in different chemical processes that are related to battery chemistry. It’s involved in making lithium salts, additive components for electrolytes, and intermediates derived from phosphates. Due to its extreme reactivity, it must be handled with care, stored in a controlled manner, and packed in a dry condition.
Classic Solvents ensures that PCl₅ is handled with complete safety protocols. It is delivered in airtight containers that keep it away from moisture and maintain the product’s quality. Every shipment is accompanied by the safety documentation, storage instructions, and easy-to-understand labels for safe use in the industry.
Polyethylene Glycol is widely used in battery manufacturing as a binder, dispersant, and film-forming agent. Its flexibility and compatibility with various solvents make it suitable for electrode coatings, separator films, and other processing steps.
PEG helps improve the adhesion, stability, and uniformity of electrode materials. Classic Solvents supplies PEG in different molecular weights, including PEG 400, PEG 600, PEG 1000, and higher grades depending on client needs.
Each grade of PEG supplied by Classic Solvents is tested for viscosity consistency, moisture content, and purity to ensure reliable and predictable performance.
Working with battery chemicals requires trust, documentation, and technically verified materials. Classic Solvents combines industry experience with strong supply networks to deliver high-quality chemicals backed by data and transparent processes.
With a history that goes back to 1984, Classic Solvents understands the importance of sourcing, packaging, and logistics when it comes to sensitive industrial chemicals.
Our products go through strict analytical checks for purity, particle uniformity, composition, and moisture content. Every batch comes with a Certificate of Analysis and a safety data sheet.
Sensitive materials such as Phosphorous Pentachloride are stored in corrosion-resistant and airtight containers. Moisture control is ensured throughout the supply chain.
We cater to both R&D-scale requirements and large industrial quantities so that manufacturers can move from trials to production smoothly.
Clients receive guidance on handling, compatibility, and compliance with ISO, REACH, and RoHS standards.
A structured overview of the battery chemicals supplied by Classic Solvents:
| Iron Phosphate (FePO₄) | FePO₄ / 10045-86-0 | Cathode precursor | LFP batteries, coatings, pigments |
| Phosphorous Pentachloride (PCl₅) | PCl₅ / 10026-13-8 | Reagent and synthesis intermediate | Electrolytes, lithium salts, catalysts |
| Polyethylene Glycol (PEG) | (C₂H₄O)nH₂O | Binder and dispersant | Electrode coatings, separators, adhesives |
Classic Solvents maintains consistent quality and secure packaging across its complete battery chemical portfolio, which ensures stable processing and predictable performance.
Our battery chemicals support a wide range of sectors, including:
Classic Solvents continues to expand its offerings to support emerging energy technologies and industrial innovations.
Classic Solvents complies with rigorous quality standards, safe handling practices, and environmentally friendly sourcing. Every material is checked for compliance with ISO standards, as well as REACH and RoHS regulations when applicable.
We take good care of packaging, labeling, and transport to ensure the safety of sensitive battery materials. By using dependable, ethically sourced chemicals, we aim to enable cleaner energy systems and industrial processes.
The choice of battery chemical depends on:
Classic Solvents helps manufacturers understand these parameters so that they can select the most suitable grade and packaging option.
Classic Solvents continues to support the energy sector with materials that are carefully sourced, tested, and delivered with complete reliability. Our battery chemical range combines purity, consistency, and practical support so that every client can focus on innovation without supply concerns.
Partner with Classic Solvents for dependable, high-quality battery chemicals that support performance and progress across energy and industrial applications.
Iron Phosphate is used as a cathode precursor. Phosphorous Pentachloride is involved in electrolyte and lithium salt synthesis. PEG acts as a binder and processing aid in electrode and separator coatings.
Impurities can cause unwanted reactions, reduce battery capacity, or shorten cycle life. High-purity materials ensure stable and predictable performance.
Yes. Classic Solvents supplies chemicals in research quantities as well as industrial-scale volumes.
We use sealed, moisture-protected containers and follow strict storage and transport protocols. Each shipment includes detailed safety information.
Yes. Products meet ISO quality requirements and relevant environmental guidelines.
