Degradable pollen as potential candidates to replace plastic packages
The explosive growth of plastic consumption contaminates the natural environment seriously and microplastic debris with toxic additives threatens marine organisms and human health. Along with large amounts of plastic use, improper management of plastic wastes and pose bigger pressure to ecologica...
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Engineering::Materials::Biomaterials Deng, Jingyu Degradable pollen as potential candidates to replace plastic packages |
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The explosive growth of plastic consumption contaminates the natural environment
seriously and microplastic debris with toxic additives threatens marine organisms and
human health. Along with large amounts of plastic use, improper management of plastic
wastes and pose bigger pressure to ecological environment. More than 90% of plastic
discards are landfilled and combusted which could cause secondary contamination, while
small parts are recycled which is time-consuming and costly. To date, scientists already
have detected influence of plastic pollution in marine and terrestrial ecosystems. The
uptake of plastic debris by marine organisms and toxicity impact on lifespan shortening
are investigated. More researchers also explored the direct microplastic leaches from
cosmetics, teabags, mineral water bottles, infant bottles and daily necessities. With
increasing demands for plastic food packaging due to COVID-19 personal protection, the
direct contamination released from plastic food containers with cooked food and hot
beverages remains equivocal and becomes extra important. Plastic polymers, derived
from petro and fuel chemicals, are ultra-resistant, easy-processing, low-costing, thermal stable and with great mechanical properties. Although plastic polymers and toxic
additives are malignant, plastic inevitably promotes development of society. Scientists
researched the biodegradation process of individual types of plastic through bacterium
and cells which are expensive and complicated. On the other hand, discovering
alternatives of plastic is compulsory that bioinspired and biological materials are
significant because of biocompatibility and environmental protection.
Bee pollen granules attract attention due to durable shell structure. Sporopollenin exine
capsules (SECs), are extracted from bee pollen and resistant with anti-oxidation,
ultraviolet resistance. SECs are widely applied as drug delivery vehicles including orally
therapeutic medicine and anti-cancer drug carriers. Degradation of SECs in
gastrointestinal tract fluids and human plasma are analyzed that proves enzyme-dependent and chemical/enzyme-dependent degradation with happens of SECs. Elasticpollen microgel particles are found to fabricate pollen papers with high surface contact
areas. Pollen papers are elastic, flexible, easy processed that can be considered as
alternatives of flexible plastic. However, the chemical-degradation without enzyme
remains unknown.
Herein, a significant amount of microplastics in the nanoscale range are demonstrated to
be generated from the plastic packages that contact with high temperatures associated
with cooked food or hot beverages. The quantities, diameters and morphologies of
micro/nano plastic particles are refined and observed. In-vitro experiments are conducted
and prove procedures of murine macrophages to inject different types of micro/nano
plastics. The inhibited activity of lysosome presents the plastic effects to mammal
organisms after long-term exposure. Human intake large quantities of plastic debris and
chronic exposure may cause inflammation and cancers. To prove pollen papers are eco-friendly and biocompatible, in-vitro degradation of pollen papers are conducted in
phosphate buffer saline (PBS) solution, the same ion concentration and pH values as
extracellular fluid, and deionized water (DI) that chemical hydrolysis process is
discovered after several months. Pollen papers exhibit obvious chemical degradation in
PBS solution after several months, while the mechanical properties remain stable in short
term. Although poor mechanical properties and hydrophobicity of pollen papers remain
to be further improved, pollen papers are flexible, biodegradable, easy-processing and
with low cost. The way to fabricate pollen papers to replace plastic are long journey but
moving forward to realize sustainability and to protect nature environment are inevitable
and significant for human. |
| author2 |
Cho Nam-Joon |
| author_facet |
Cho Nam-Joon Deng, Jingyu |
| format |
Thesis-Master by Research |
| author |
Deng, Jingyu |
| author_sort |
Deng, Jingyu |
| title |
Degradable pollen as potential candidates to replace plastic packages |
| title_short |
Degradable pollen as potential candidates to replace plastic packages |
| title_full |
Degradable pollen as potential candidates to replace plastic packages |
| title_fullStr |
Degradable pollen as potential candidates to replace plastic packages |
| title_full_unstemmed |
Degradable pollen as potential candidates to replace plastic packages |
| title_sort |
degradable pollen as potential candidates to replace plastic packages |
| publisher |
Nanyang Technological University |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/156177 |
| _version_ |
1734310119325302784 |
| spelling |
sg-ntu-dr.10356-1561772022-05-04T10:23:16Z Degradable pollen as potential candidates to replace plastic packages Deng, Jingyu Cho Nam-Joon School of Materials Science and Engineering NJCho@ntu.edu.sg Engineering::Materials::Biomaterials The explosive growth of plastic consumption contaminates the natural environment seriously and microplastic debris with toxic additives threatens marine organisms and human health. Along with large amounts of plastic use, improper management of plastic wastes and pose bigger pressure to ecological environment. More than 90% of plastic discards are landfilled and combusted which could cause secondary contamination, while small parts are recycled which is time-consuming and costly. To date, scientists already have detected influence of plastic pollution in marine and terrestrial ecosystems. The uptake of plastic debris by marine organisms and toxicity impact on lifespan shortening are investigated. More researchers also explored the direct microplastic leaches from cosmetics, teabags, mineral water bottles, infant bottles and daily necessities. With increasing demands for plastic food packaging due to COVID-19 personal protection, the direct contamination released from plastic food containers with cooked food and hot beverages remains equivocal and becomes extra important. Plastic polymers, derived from petro and fuel chemicals, are ultra-resistant, easy-processing, low-costing, thermal stable and with great mechanical properties. Although plastic polymers and toxic additives are malignant, plastic inevitably promotes development of society. Scientists researched the biodegradation process of individual types of plastic through bacterium and cells which are expensive and complicated. On the other hand, discovering alternatives of plastic is compulsory that bioinspired and biological materials are significant because of biocompatibility and environmental protection. Bee pollen granules attract attention due to durable shell structure. Sporopollenin exine capsules (SECs), are extracted from bee pollen and resistant with anti-oxidation, ultraviolet resistance. SECs are widely applied as drug delivery vehicles including orally therapeutic medicine and anti-cancer drug carriers. Degradation of SECs in gastrointestinal tract fluids and human plasma are analyzed that proves enzyme-dependent and chemical/enzyme-dependent degradation with happens of SECs. Elasticpollen microgel particles are found to fabricate pollen papers with high surface contact areas. Pollen papers are elastic, flexible, easy processed that can be considered as alternatives of flexible plastic. However, the chemical-degradation without enzyme remains unknown. Herein, a significant amount of microplastics in the nanoscale range are demonstrated to be generated from the plastic packages that contact with high temperatures associated with cooked food or hot beverages. The quantities, diameters and morphologies of micro/nano plastic particles are refined and observed. In-vitro experiments are conducted and prove procedures of murine macrophages to inject different types of micro/nano plastics. The inhibited activity of lysosome presents the plastic effects to mammal organisms after long-term exposure. Human intake large quantities of plastic debris and chronic exposure may cause inflammation and cancers. To prove pollen papers are eco-friendly and biocompatible, in-vitro degradation of pollen papers are conducted in phosphate buffer saline (PBS) solution, the same ion concentration and pH values as extracellular fluid, and deionized water (DI) that chemical hydrolysis process is discovered after several months. Pollen papers exhibit obvious chemical degradation in PBS solution after several months, while the mechanical properties remain stable in short term. Although poor mechanical properties and hydrophobicity of pollen papers remain to be further improved, pollen papers are flexible, biodegradable, easy-processing and with low cost. The way to fabricate pollen papers to replace plastic are long journey but moving forward to realize sustainability and to protect nature environment are inevitable and significant for human. Master of Engineering 2022-04-05T06:36:11Z 2022-04-05T06:36:11Z 2022 Thesis-Master by Research Deng, J. (2022). Degradable pollen as potential candidates to replace plastic packages. Master's thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/156177 https://hdl.handle.net/10356/156177 10.32657/10356/156177 en This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). application/pdf Nanyang Technological University |