Bioplasson is a term commonly used in the field of biotechnology. IPA phonetic transcription of the word is /baɪoʊˈplæsɒn/. The word is composed of two parts, "bio" meaning life and "plastic" meaning a synthetic material. The addition of the suffix "-on" conveys the sense of a substance or material. Therefore, bioplasson refers to a synthetic material derived from living organisms. The spelling of the word bioplasson has been standardized in scientific literature and is widely recognized by experts in the field.
Bioplasson is a term used to describe a type of biodegradable plastic material that is derived from natural sources, such as plants or biomass. It is often considered to be a more sustainable and environmentally friendly alternative to conventional plastics, as it has the ability to break down and decompose naturally over time.
The term "bioplasson" combines the words "bio" and "plastic," emphasizing its organic origin and its similarity to traditional plastic materials. This type of plastic is typically made through the process of polymerization, which involves the conversion of organic compounds into long-chain polymers. These polymers can then be molded or shaped into various forms, making them suitable for a range of applications.
One of the key advantages of bioplasson is its reduced environmental impact compared to conventional plastics. Unlike conventional plastics, which are generally derived from fossil fuels and can persist in the environment for hundreds of years, bioplasson is composed of natural materials that can decompose through microbial and enzymatic activities. As a result, when bioplasson products reach the end of their lifecycle, they can be broken down into harmless substances, minimizing their contribution to plastic waste and pollution.
Bioplasson can be used in a variety of industries and applications, including packaging materials, disposable cutlery, agricultural films, and even medical devices. It offers similar properties and functionalities to traditional plastics, such as flexibility, durability, and resistance to moisture. However, it is important to note that bioplasson is not without limitations, as its production still requires energy and resources, and certain types may not be suitable for all applications.
Elsberg's term for protoplasm.
A practical medical dictionary. By Stedman, Thomas Lathrop. Published 1920.