Castor oil-based biopolymers have a significant potential to reduce carbon emissions and offer sustainable products to a wide range of end-user industries. The adaptability of castor oil-based biopolymer as a trending biomaterial among the automotive, textile, oil and gas, among other industries, which strengthens the idea of further interaction between authorities.
BIS Advanced Materials, Chemicals & Fuels vertical offers valuable and critical insights to its potential clients on the underlying trends and technologies that are disrupting various segments of the chemicals and materials ecosystem.
BIS Research uses patents, proxies, and primaries (interviews with industry experts) to evaluate technologies that are being worked upon in the lab or are in the early phase of commercialization. We crowdsource and curate reports directly from industry experts: the people working in labs or building businesses around these technologies.
Castor oil-based biopolymers have a significant potential to reduce carbon emissions and offer sustainable products to a wide range of end-user industries. The adaptability of castor oil-based biopolymer as a trending biomaterial among the automotive, textile, oil and gas, among other industries, which strengthens the idea of further interaction between authorities.
BIS Advanced Materials, Chemicals & Fuels vertical offers valuable and critical insights to its potential clients on the underlying trends and technologies that are disrupting various segments of the chemicals and materials ecosystem.
BIS Research uses patents, proxies, and primaries (interviews with industry experts) to evaluate technologies that are being worked upon in the lab or are in the early phase of commercialization. We crowdsource and curate reports directly from industry experts: the people working in labs or building businesses around these technologies.