Lactide-derived ester oligomers for highly compatible poly
Green Chemistry Lactide-derived ester oligomers for highly compatible poly (lactide) plasticizer produced through an eco-friendly process: renewable resources, biodegradation, enhanced flexibility, and elastomeric performance Haemin Jeong, ab Jeong Suk Yuk, a Hyunho Lee,ab Seomgyeol Kang,ab Hyejin Park,a Sae Hume Park *a and Jihoon Shin *ab
Research progress of novel bio-based plasticizers and their
On the other hand, these new bio-based plasticizers can also ameliorate mechanical and thermal properties of PVC like traditional plasticizers, and are eco-friendly, low priori toxic and resistant to migration. Thus, preparing high performance bio-based plasticizers will still be a research hotspot in this field for a long time.
Synthesis of novel plasticizer ester end-capped oligomeric
In this work, a novel high efficiency plasticizer, an ester-capped oligomeric lactic acid mixture (EOL), was successfully synthesized by a two-step esterification reaction, with L -lactic acid as the main raw material. The structure of EOL was characterized by using FT-IR, 1 H NMR and time of flight mass spectrometry (TOF-MS).
Developments of biobased plasticizers for compostable
The synthesis of biobased plasticizers derived from renewable feedstocks and their impact on packaging material performance have been emphasized. Moreover, the effect of biobased plasticizer...
Title: A Review on Plasticizers and Eco-Friendly
Bioplasticizers such as epoxidized plant oils, cardanol, citrates and Isorbide esters are derived from further modifications of oils and triglyceride, starch and cellulose, citric acids and...
- Are bio-based plasticizers sustainable?
- Synthesized bio-based plasticizer shows superior permanence and migration resistance. The increasing global demand for sustainable alternatives to petroleum-based plasticizers, particularly in poly (vinyl chloride) (PVC) products, has intensified the exploration of bio-based options derived from renewable resources such as plant oils.
- Can fatty acid esters replace PVC plasticizers?
- This research study will help in the replacement of traditional PVC plasticizers such as citrates and phthalates with fatty acid esters, a green plasticizer that lacks a benzene ring. The main synthetic route is shown in Fig. 1.
- Can bio-based plasticizers be synthesized by epoxidizing erucic acid fatty acid methyl ester?
- In this study, a bio plasticizer was synthesized by epoxidizing erucic acid fatty acid methyl ester. The final product was compared to a conventional plasticizer. Fourier transform infrared spectroscopy (FTIR) and nuclear magnetic resonance spectroscopy (NMR) was used to confirm the structures of bio-based plasticizers (1 H NMR).
- Can bio-based plasticizers be synthesized by modifying fatty acids?
- In this study, bio-based plasticizers were synthesized by modifying fatty acids with very user-friendly approaches. Esterification and epoxidation were used to synthesize bio-based plasticizers in two steps. The synthesized plasticizer is blended with PVC in various amounts and compared to dioctyl phthalate (DOP).
- What are natural biodegradable plasticizers?
- Natural biodegradable plasticizers can be isolated from the agro products and litters that are cost-effective, sustainable, and huge abundant. Several natural plasticizers originate from agricultural products like trees, oleaginous plants, cereals, vegetables, and fruits, as well as their waste .
- Are oligomeric isosorbide esters a renewable resource plasticizer for PVC?
- Yin B, Hakkarainen M (2011) Oligomeric Isosorbide Esters as alternative renewable resource plasticizers for PVC. J Appl Polym Sci 119:2400–2407 Adhikari B, Chaudhary DS, Clerfeuille E (2010) Effect of plasticizers on the moisture migration behavior of low-amylose starch films during drying.
