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MARINE BIODEGRADABLE PLASTIC
Time to Break the Plastic Wave
Over 9 million tons of plastic waste end up in the ocean every year. Over 700 species of marine animals, including endangered ones, are reported to have eaten or been entangled in plastic. Scientists think that the amount of plastic in the ocean might TRIPLE by 2050.
The plastic waste crisis in the marine ecosystem is a problem that impacts all of us and not just life below the surface. Be part of the solution and take action now. Together we can protect our planet, preserve our oceans, and provide a safe and healthy environment for humankind.
Efforts to Protect the Ocean, CJ PHACT Provides a Solution
CJ PHACT is a 100% bio-based polyester produced by fermentation.
Using CJ Bio’s innovative fermentation technology, PHACT is a 100% bio-based, marine biodegradable plastic.
PHACT is an eco-friendly material that provides a solution to address plastic waste and is capable of all modes of biodegradation including marine, soil, home, and industrial composting.
100% BIO-BASED
MARINE DEGRADABLE
TRANSPARENT
A Solution to the Pollution Crisis in the Marine Ecosystem
PHACT is our brand of Polyhydroxyalkanoates (PHA). PHAs are a family of biobased
and biodegradable polyesters made by bacterial fermentation. Based on leading-edge strain and metabolic engineering,
our biopolymer solutions offer attractive, sustainable alternatives to petrochemical-based materials. Our unique technology platform enables
PHA biobased polymers to meet a variety of performance requirements—whether you’re seeking to increase bio content,
meet a biodegradation specification, or increase durability and flexibility.
CJ Bio develops innovative, biobased polymer solutions that enhance performance and add value
for a wide range of industrial and consumer products. What sets CJ apart is world-scale biotech assets with
a world-class technology portfolio to enable circular and sustainable solution.
Innovation
PHACT PHA (Polyhydroxyalkanoate) is produced by bacterial fermentation of sugar
- PHAs are naturally occurring linear polyesters
- CJ has the unique ability to produce a wide range of polymer compositions by employing microbial engineering innovation
- Definition : PHA, Polyhydroxyalkanoate, P3HB4HB
- Chemical structure of CJ PHACT
-
3HB 100%
Crystalline PHA(cPHA) Brittle
High thermal resistance -
4HB 5~15%
Semi-crystalline PHA(scPHA) Medium
Controllable -
4HB > 30%
Amorphous PHA(aPHA) Flexible & Tough
Low thermal resistance
Degradation Level
Marine
Soil
Home
Industrial
Brittle
Property
Flexible
- Definition : PHA, Polyhydroxyalkanoate, P3HB4HB
- Chemical structure of CJ PHACT
-
3HB 100%
Crystalline PHA(cPHA) Brittle
High thermal resistance -
4HB 5~15%
Semi-crystalline PHA(scPHA) Medium
Controllable -
4HB > 30%
Amorphous PHA(aPHA) Flexible & Tough
Low thermal resistance
Process Expertise
CJ BIO benefits from decades of experience in developing and scaling up complex Biotech Processes
Raw Materials
From Nature
Bio Process
(Strain / Fermentation / Purification)
Large Scale
Production
CJ PHACT technology : Applications
-
Injection Molding
-
Film and
Sheet Extrusion -
Blown Film
-
Paper Coating
-
01. Flexible Packaging
Shopping bag,
Food packaging -
02. Rigid Packaging
Food Container,
Cold Cup -
03. Paper Coating
Cardboard,
Paper Cups Coating -
04. Agriculture
Mulching Film,
Fertilizer Coating -
05. Others
Fishing net,
Cosmetic Container
3D printing filament
-
01. Flexible Packaging Shopping bag,
Food packaging -
02. Rigid Packaging Food Container,
Cold Cup -
03. Paper Coating Cardboard,
Paper Cups Coating -
04. Agriculture Mulching Film,
Fertilizer Coating -
05. Others Fishing net,
Cosmetic Container
3D printing filament
CJ PHACT certifications & registrations
Bio Degradation
Bio Based
Food Contact
PHACT Value Proposition
Enabling circular and sustainable solutions across a range of applications
Biobased
Sugar used as feedstock
Other sources demonstrated.
Fermentation
Microbial engineering enables
high polymer (PHA) accumulation
in microbes.
Recovery
High Purity polymer is recovered and converted
into usable form for downstream processing.
Products and Applications
PHAs can be compounded and
processed using conventional
plastics processing equipment.
Biodegradable
- Soil (Ambient)
- Home Compost
- Industrial Compost
- Fresh Water
- Marine Water
- Anaerobic
Biobased
Sugar used as feedstock
Other sources demonstrated.
Fermentation
Microbial engineering enables
high polymer (PHA) accumulation
in microbes.
Recovery
High Purity polymer is recovered and converted
into usable form for downstream processing.
Products and Applications
PHAs can be compounded and
processed using conventional
plastics processing equipment.
Biodegradable
- Soil (Ambient)
- Home Compost
- Industrial Compost
- Fresh Water
- Marine Water
- Anaerobic