Loren Data's SAM Daily™

SAMDAILY.US - ISSUE OF MARCH 01, 2020 SAM #6667
SPECIAL NOTICE

99 -- Biomacromolecule Engineering by Soft Chain Coupling Technology

Notice Date

2/28/2020 12:12:28 PM
 

Notice Type

Special Notice
 

Contracting Office

ORNL UT-BATTELLE LLC-DOE CONTRACTOR Oak Ridge TN 37831 USA
 

ZIP Code

37831
 

Solicitation Number

ORNL-TT-2020-05
 

Response Due

6/1/2020 2:00:00 PM
 

Archive Date

06/02/2020
 

Point of Contact

Nestor E. Franco, Phone: 865-574-0534
 

E-Mail Address

francone@ornl.gov
(francone@ornl.gov)
 

Description

Oak Ridge National Laboratory (ORNL) is seeking a commercialization partner for a Biomacromolecule Engineering by Soft Chain Coupling Technology (BEST). �ORNL Office of Technology Transfer is now accepting licensing applications through March 13, 2020.� � Problem: Poly(lactic acid) (PLA) is the most widely used bioplastic today. Its biodegradability, biocompatibility, high strength, and stiffness as a commodity polymer make PLA one of the most promising bioplastics under development. Its many application areas include but are not limited to biomedical devices, biodegradable films and packages, and 3D printing. However, PLA�s brittle nature is a major barrier to its adoption in much wider application areas. Solution: The BEST approach dramatically improves the ductility and toughness of PLA via a novel industry-friendly soft-coupling technology based on small droplets and chain end/tail modification. This technology is realized by a scalable, environmentally friendly process that uses only nontoxic additives and a melt-phase process to achieve the desired droplet-in-polymer microstructures, referred to as polymer�droplet composite. The droplets work as a unique topological modifier to manage the topological defects of chain entanglement networks. As a result, with minimal loading of modifiers (<1.5 wt%), the modified PLA offers significant improvements in toughness as well as processability without sacrificing the material�s mechanical strength. Impact: The production capacity of the biobased-polymer industry is projected to triple, from 3.5 million tons in 2011 to nearly 12 million tons in 2020. As the fastest-growing segment of this market, PLA is expected to account for over $6.5 billion because of its use in packaging, biomedical devices, composites, additive manufacturing, and other areas. Overcoming the issue of brittleness without sacrificing other valuable mechanical properties would revolutionize the already rapidly growing PLA industry. Improvements in mechanical performance would not only extend existing markets, but also enable new applications such as films and packages and penetration into new polymer markets. The new materials derived using the BEST approach exhibit outstanding mechanical toughness and processability, which are of great value for its broad applications.
 

Web Link

SAM.gov Permalink
(https://beta.sam.gov/opp/df777720410049acac9fc3105c142363/view)
 

Place of Performance

Address: TN 37830, USA

Zip Code: 37830

Country: USA
 

Record

SN05575521-F 20200301/200228230311 (samdaily.us)
 

Source

SAM.gov Link to This Notice
(may not be valid after Archive Date)

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