Advancing Sustainable Chemistry
At Corol Corp, we are redefining the future of chemistry through innovation and sustainability by developing plant-derived bio-polyols that replace harmful petroleum-based chemicals, creating eco-friendly, high-performance materials that drive industrial progress while protecting the planet.
Creating High-Performance, Eco-Friendly Materials
40k+
Bio-Polyols Produced Annually
98%
On-Time Project Delivery
50+
Years of Scientific Expertise
Sustainable Bio Polyols for a Greener Future
We produce high-quality bio polyols from industrial-grade vegetable oils, and our bio polyols contain up to 95% renewable carbon content with reduced carbon footprint compared to raw materials based on fossil fuels. Our polyols are available in a wide range of molecular weights that meet the application and processing needs of foam and non foam (CASE) manufacturers. We manufacture up to 10,000 tons of biopolyol annually and supply across the world.
How COROL Leads the Industry
COROL bio-polyols deliver a stronger, cleaner, and more reliable alternative to castor-oil and petroleum-based polyols—offering lower carbon impact, better supply stability, and full formulation flexibility.
Feature/Factor | COROL Bio-Polyols (Canola/Flax) | Castor Oil-Based Bio-Polyols | Petroleum Polyols |
Feedstock Source | North American canola/flax | 85-90% sourced from India | Fossil fuels |
Supply Chain Risk | Low (local, tariff-proof) | High (regional monopoly) | High (geopolitical, price) |
Carbon Footprint | Low (100% renewable) | Medium | High |
Customization (Hydroxyl/Viscosity) | Fully customizable | Fixed range | Limited |
Performance | Comparable and superior | Limited formulation flexibility | Reliable but unsustainable |
COROL Bio-Polyols (Canola/Flax)
North American Canola/Flax
Low Supply Chain Risk
Low Carbon Footprint
Full Customization (Hydroxyl/Viscosity)
Comparable and Superior Performace
Why COROL Wins?
Petroleum Polyols
Sourced from Fossil Feuls
High Supply Chain Risk
High Carbon Footprint
Limited Customization (Hydroxyl/Viscosity)
Unsustainable Performace
Castor Oil-based Bio-Polyols
85-90% sourced from India
High Supply Chain Risk
Medium Carbon Footprint
Fixed Range of Customization
Limited Formulation Flexibility
From Vision to Innovation
Corol Corp began with a vision to transform chemistry through sustainability and innovation. Today, we stand as a global leader in developing bio-based solutions that drive a cleaner, smarter future.
2021
Building the Foundation
Launched pilot programs across a handful of farms, focusing on soil regeneration
2022
Advancing Green Chemistry
Our R&D team created advanced bio-polyols, setting a milestone in renewable innovation.
2023
Expanding Global Reach
We expanded operations globally, serving industries with cleaner, eco materials.
2024
Recognition Through Results
Our technology earned recognition for helping manufacturers cut carbon emissions.
The Science Behind Our Innovation
COROL has developed technology to manufacture bio-based polyols based on a patented process using vegetable oils. Our biopolyols were initially developed to resemble castor oil and are produced from vegetable oils which are grown in North America and Europe.
We work in a highly competitive field, so we’re constantly investing in technology and research to make sure we stay ahead of the curve. Our commitment to quality guarantees our success and your satisfaction.
Versatile Applications
Polyols are widely used in the production of polyurethane (PU) materials, such as flexible foams, rigid foams, coatings, and adhesives.
Traditional Polyols
The two most common types of polyols used in PU manufacture are polyethers and polyesters, which are typically derived from petrochemicals.
Shift to Renewables
Increasingly, biobased chemicals derived from renewable feedstocks are being used to replace petrochemicals from non-renewable fossil fuels.
Flexible Feedstock
Our biopolyols are made from various plant oils cultivated across North America and Europe, offering flexibility beyond castor oil.
Tailored Performance
Greater flexibility to manufacture COROL to suit specific applications, allowing collaboration with end users to optimize COROL properties for their needs.
