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Polyhydroxy Fullerenes for Stimulating Biofuel Production

标题: Functionalized Fullerenes as Biomass Stimulant and a Life Extension Agent

详细技术说明: None

*Abstract

Invention

The University of Florida is seeking companies interested in commercializing polyhydroxy fullerenes that could aid biofuel production by stimulating growth and reproduction of algae. University of Florida researchers have discovered that even small amounts of environmentally friendly, biodegradable polyhydroxy fullerenes can increase growth rates of common algae by 150 percent, a significant improvement over the best available growth stimulant, which nets a mere 34 percent increase. These numbers indicate that polyhydroxy fullerenes offer a substantial competitive advantage over existing growth stimulators. While hundreds of billions have been invested in the production of algae-based biofuels, they still account for less than 3 percent of the global transportation fuel supply. The introduction of polyhydroxy fullerenes to this process would greatly assist the industry in its efforts to provide consumers with greener and more affordable energy sources. There is also potential for application of polyhydroxy fullerenes in the biotechnology, agriculture and pharmaceutical industries. UF researchers have shown that polyhydroxy fullerenes increase the growth rate of fungi by 33 percent and the reproduction rate of water fleas by 38 percent. The lifespan of water fleas was also extended by 38 percent.

Application

Polyhydroxy fullerenes for biological uses in the biofuel, agricultural, biotechnology and pharmaceutical sectors

Advantages

Facilitates biofuel production, making it a viable and cost-effective solution to the unmet demand for alternative energy sources
Augments plant growth better than available technology, saving time and increasing profits
Soluble in water, biocompatible, biodegradable, and environmentally friendly

Technology

Fullerenes, also called buckyballs or carbon nanotubes, are molecules composed entirely of carbon that have a hollow central space. When certain chemical modifications are made to their surfaces, solubility and biocompatibility are enhanced. University of Florida researchers discovered that polyhydroxy fullerenes can significantly speed growth and reproduction when applied to algae, fungi, and invertebrates. Although the manner by which these specialized molecules augment generative processes is still being investigated, their ability to absorb electrons and enhance biochemical pathways likely plays an important role.

*IP Issue Date: Jul 26, 2016

*IP Publication Date: Feb 7, 2013

*Principal Investigation: Name: Brij Moudgil
Department:

Name: Angelina Georgieva
Department:

Name: Ben Koopman
Department:

Name: Fan Li
Department:

Name: Jie Gao
Department:

Name: Kevin Folta
Department:

Name: Paul Indeglia
Department:

Name: Vijay Krishna
Department:

Name: Wei Bai
Department:

申请日期: Sep 28, 2012

申请号码: 9,399,756

其他

国家/地区: 美国

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