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<p><b>New page</b></p><div>[[File:Biodegradable_Polymers_Flow_Chart_3.png|thumb|Biodegradable_Polymers_Flow_Chart_3]] [[file:Lactic_acid_polymerization.png|right|thumb|Lactic_acid_polymerization]] [[file:Polyurethane_synthesis.tif|right|thumb|Polyurethane_synthesis]] [[file:Aerobic_biodegradition_equation.png|thumb|Aerobic_biodegradition_equation]] [[file:Anaerobic_biodegradition_equation.png|thumb|Anaerobic_biodegradition_equation]] [[file:Polyglycolic_acid_suture_(_PGA-Dexon)_01.JPG|thumb|Polyglycolic_acid_suture_(_PGA-Dexon)_01]] [[file:Waste_Bag_made_of_PLA-Blend_Bio-Flex.jpg|thumb|Waste_Bag_made_of_PLA-Blend_Bio-Flex]] '''Biodegradable polymer'''<br />
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A '''biodegradable polymer''' is a type of [[polymer]] that breaks down after its intended purpose to result in natural byproducts such as gases (CO2, N2), water, biomass, and inorganic salts. These polymers are designed to degrade through the action of living organisms, usually [[microorganisms]], into non-toxic byproducts. Biodegradable polymers are used in a variety of applications, including [[biomedical]] devices, [[packaging]], and [[agriculture]].<br />
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==Types of Biodegradable Polymers==<br />
Biodegradable polymers can be classified into two main categories based on their origin:<br />
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===Natural Biodegradable Polymers===<br />
These are derived from natural sources and include:<br />
* [[Polysaccharides]] such as [[starch]], [[cellulose]], and [[chitosan]]<br />
* [[Proteins]] such as [[gelatin]], [[collagen]], and [[casein]]<br />
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===Synthetic Biodegradable Polymers===<br />
These are man-made and include:<br />
* [[Polylactic acid]] (PLA)<br />
* [[Polycaprolactone]] (PCL)<br />
* [[Polyhydroxyalkanoates]] (PHA)<br />
* [[Polyglycolic acid]] (PGA)<br />
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==Degradation Mechanisms==<br />
Biodegradable polymers degrade through various mechanisms, including:<br />
* [[Hydrolysis]]: The chemical breakdown of a compound due to reaction with water.<br />
* [[Enzymatic degradation]]: Breakdown by enzymes produced by microorganisms.<br />
* [[Photodegradation]]: Degradation by exposure to light, usually UV light.<br />
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==Applications==<br />
Biodegradable polymers have a wide range of applications:<br />
* [[Biomedical applications]]: Used in [[drug delivery systems]], [[tissue engineering]], and [[surgical sutures]].<br />
* [[Packaging]]: Used in the production of biodegradable [[plastic bags]], [[food packaging]], and [[compostable cutlery]].<br />
* [[Agriculture]]: Used in [[mulch films]], [[controlled-release fertilizers]], and [[plant pots]].<br />
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==Advantages==<br />
* Reduced environmental impact due to their ability to decompose naturally.<br />
* Lower carbon footprint compared to conventional plastics.<br />
* Potential to reduce landfill waste and ocean pollution.<br />
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==Challenges==<br />
* Higher cost of production compared to traditional plastics.<br />
* Limited mechanical properties and durability.<br />
* Need for specific conditions for degradation, such as the presence of microorganisms, moisture, and temperature.<br />
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==Related Pages==<br />
* [[Polymer]]<br />
* [[Biodegradation]]<br />
* [[Bioplastic]]<br />
* [[Compostable polymer]]<br />
* [[Sustainable packaging]]<br />
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==See Also==<br />
* [[Green chemistry]]<br />
* [[Environmental impact of plastics]]<br />
* [[Recycling]]<br />
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[[Category:Polymers]]<br />
[[Category:Biodegradable materials]]<br />
[[Category:Environmental science]]<br />
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{{Polymers}}<br />
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