Recent progress in carbon dioxide (CO2) as feedstock for sustainable materials development: Co-polymers and polymer blends
Combustion of fossil fuels and many other industrial activities inevitably produces carbon dioxide (CO2) that is released into the atmosphere and is currently deemed to be among the major contributors to global warming. One of the prominent solutions proposed to mitigate global warming concerns from...
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| Published in: | Polymer (Guilford) Vol. 145; pp. 348 - 373 |
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| Main Authors: | , |
| Format: | Journal Article |
| Language: | English |
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Elsevier Ltd
06.06.2018
Elsevier BV |
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| ISSN: | 0032-3861, 1873-2291 |
| Online Access: | Get full text |
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| Abstract | Combustion of fossil fuels and many other industrial activities inevitably produces carbon dioxide (CO2) that is released into the atmosphere and is currently deemed to be among the major contributors to global warming. One of the prominent solutions proposed to mitigate global warming concerns from CO2, capture and storage (CCS), did not attract many CO2 emitting industries as expected, mainly because of economic reasons. On the contrary, environmental pollution concerns associated with plastic waste, and the demand for sustainable feedstock for their production constitute grand challenges facing our society with regard to the production and use of plastics. As a result, the materials science community is striving to generate sustainable and biodegradable plastics to substitute conventional synthetic plastics from resources that do not pose direct completion with food production. This manuscript aims to provide a general overview of the recent progress achieved in CO2 based polymers for sustainable biopolymers such as co-polymers, and polymer blends. The synthesis, material properties, processability, and performances of important CO2 based co-polymers are critically reviewed. Furthermore, a critical review of CO2 co-polymers as components of polymer blend with a focus on the most relevant CO2 based aliphatic polycarbonates, poly (propylene carbonates) (PPC), is conducted.
[Display omitted]
•CO2 can substitute or complement non-renewable feedstock for chemical or material production.•Utilization of CO2 in polymer development can reduce its atmospheric accumulation.•Important CO2 co-polymers can be synthesized by fixation of up to 50% of their mass with CO2.•CO2 co-polymers have desirable attributes as a neat or co-blend with other polymers. |
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| AbstractList | Combustion of fossil fuels and many other industrial activities inevitably produces carbon dioxide (CO2) that is released into the atmosphere and is currently deemed to be among the major contributors to global warming. One of the prominent solutions proposed to mitigate global warming concerns from CO2, capture and storage (CCS), did not attract many CO2 emitting industries as expected, mainly because of economic reasons. On the contrary, environmental pollution concerns associated with plastic waste, and the demand for sustainable feedstock for their production constitute grand challenges facing our society with regard to the production and use of plastics. As a result, the materials science community is striving to generate sustainable and biodegradable plastics to substitute conventional synthetic plastics from resources that do not pose direct completion with food production. This manuscript aims to provide a general overview of the recent progress achieved in CO2 based polymers for sustainable biopolymers such as co-polymers, and polymer blends. The synthesis, material properties, processability, and performances of important CO2 based co-polymers are critically reviewed. Furthermore, a critical review of CO2 co-polymers as components of polymer blend with a focus on the most relevant CO2 based aliphatic polycarbonates, poly (propylene carbonates) (PPC), is conducted. Combustion of fossil fuels and many other industrial activities inevitably produces carbon dioxide (CO2) that is released into the atmosphere and is currently deemed to be among the major contributors to global warming. One of the prominent solutions proposed to mitigate global warming concerns from CO2, capture and storage (CCS), did not attract many CO2 emitting industries as expected, mainly because of economic reasons. On the contrary, environmental pollution concerns associated with plastic waste, and the demand for sustainable feedstock for their production constitute grand challenges facing our society with regard to the production and use of plastics. As a result, the materials science community is striving to generate sustainable and biodegradable plastics to substitute conventional synthetic plastics from resources that do not pose direct completion with food production. This manuscript aims to provide a general overview of the recent progress achieved in CO2 based polymers for sustainable biopolymers such as co-polymers, and polymer blends. The synthesis, material properties, processability, and performances of important CO2 based co-polymers are critically reviewed. Furthermore, a critical review of CO2 co-polymers as components of polymer blend with a focus on the most relevant CO2 based aliphatic polycarbonates, poly (propylene carbonates) (PPC), is conducted. [Display omitted] •CO2 can substitute or complement non-renewable feedstock for chemical or material production.•Utilization of CO2 in polymer development can reduce its atmospheric accumulation.•Important CO2 co-polymers can be synthesized by fixation of up to 50% of their mass with CO2.•CO2 co-polymers have desirable attributes as a neat or co-blend with other polymers. |
| Author | Mekonnen, Tizazu Muthuraj, Rajendran |
| Author_xml | – sequence: 1 givenname: Rajendran surname: Muthuraj fullname: Muthuraj, Rajendran organization: Institute for Materials Research and Innovation, University of Bolton, Bolton, BL3 5AB, UK – sequence: 2 givenname: Tizazu surname: Mekonnen fullname: Mekonnen, Tizazu email: tmekonnen@uwaterloo.ca organization: Department of Chemical Engineering, University of Waterloo, Waterloo, ON, N2L 3G1, Canada |
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| Keywords | Poly (propylene carbonate) Polymer blends Poly (ethylene carbonate) Biodegradability Carbon dioxide Packaging Biodegradable polymers |
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| PublicationTitle | Polymer (Guilford) |
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