Here's my attempt:
A biopolymer that has been developed in recent years is poly-3-hydroxybutyrate (PHB), which is commercially known as Biopol. It has similar properties to the polymer polypropylene in terms of high tensile strength, and therefore can be used to produce many of the same products. Unlike polypropylene, an environmentally beneficial property of PHB is that it is biodegradable, and therefore will break down back into the environment within a matter of weeks, rather than thousands of years like in the case of polypropylene, which allows for a massive reduction in landfills. Polypropylene is sourced from finite crude oil reserves, which are becoming scarcer due to rising demands. On the other hand, PHB is sourced from the bacteria Alcaligenes Eutrophus, which means that the remaining fossil fuels can be expended on other needs. A useful property of PHB that benefits society is its biocompatibility, meaning that it can be used in surgical stitches without needing to be removed, as the stitches with degrade into the body without harm. This improves the quality of life of individuals, as there is no need to undergo multiple surgeries involving inserting and removing stitching. Ultimately, the recent development of PHB has had a very positive impact in terms of society and the environment.
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