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Researcher
- Adam M Guss
- Andrzej Nycz
- Gabriel Veith
- Guang Yang
- Josh Michener
- Michelle Lehmann
- Beth L Armstrong
- Chris Masuo
- Liangyu Qian
- Robert Sacci
- Tomonori Saito
- William Carter
- Alex Roschli
- Alex Walters
- Austin L Carroll
- Brian Post
- Ethan Self
- Isaiah Dishner
- Jaswinder Sharma
- Jeff Foster
- John F Cahill
- Kuntal De
- Luke Meyer
- Serena Chen
- Sergiy Kalnaus
- Udaya C Kalluri
- Xiaohan Yang
- Adam Stevens
- Alexandra Moy
- Alexey Serov
- Amanda Musgrove
- Amit K Naskar
- Amy Elliott
- Anisur Rahman
- Anna M Mills
- Benjamin L Doughty
- Biruk A Feyissa
- Cameron Adkins
- Carrie Eckert
- Chanho Kim
- Clay Leach
- Debjani Pal
- Erin Webb
- Evin Carter
- Georgios Polyzos
- Gerald Tuskan
- Ilenne Del Valle Kessra
- Ilias Belharouak
- Isha Bhandari
- Jay D Huenemann
- Jeremy Malmstead
- Joanna Tannous
- Joshua Vaughan
- Jun Yang
- Khryslyn G Araño
- Kitty K Mccracken
- Kyle Davis
- Liam White
- Logan Kearney
- Matthew S Chambers
- Michael Borish
- Michael Toomey
- Nancy Dudney
- Nihal Kanbargi
- Oluwafemi Oyedeji
- Paul Abraham
- Peter Wang
- Rangasayee Kannan
- Roger G Miller
- Ryan Dehoff
- Sarah Graham
- Soydan Ozcan
- Sudarsanam Babu
- Tyler Smith
- Vera Bocharova
- Vilmos Kertesz
- Vincent Paquit
- William Alexander
- William Peter
- Xiang Lyu
- Xianhui Zhao
- Yang Liu
- Yukinori Yamamoto

The present invention is a carbon nanofiber composite for use as the cathode matrix in an alkali-metal polysulfide flow battery. The CNF composite demonstrates an improvement in sulfur utilization compared to carbon paper alone.

Process to coat air and or moisture sensitive solid electrolytes for all solid state batteries.
Contact
To learn more about this technology, email partnerships@ornl.gov or call 865-574-1051.

This invention utilizes a custom-synthesized vinyl trifluoromethanesulfonimide (VTFSI) salt and an alcohol containing small molecule or polymer for the synthesis of novel single-ion conducting polymer electrolytes for the use in Li-ion and beyond Li-ion batteries, fuel cells,

Enzymes for synthesis of sequenced oligoamide triads and tetrads that can be polymerized into sequenced copolyamides.
Contact
To learn more about this technology, email partnerships@ornl.gov or call 865-574-1051.

We tested 48 diverse homologs of SfaB and identified several enzyme variants that were more active than SfaB at synthesizing the nylon-6,6 monomer.

We have developed thermophilic bacterial strains that can break down PET and consume ethylene glycol and TPA. This will help enable modern, petroleum-derived plastics to be converted into value-added chemicals.

By engineering the Serine Integrase Assisted Genome Engineering (SAGE) genetic toolkit in an industrial strain of Aspergillus niger, we have established its proof of principle for applicability in Eukaryotes.

This is a novel approach to enhance the performance and durability of all-solid-state batteries (ASSBs) by focusing on two primary components: the Si anode and the thin electrolyte integration.

Fabrication methods are needed that are easily scalable, will enable facile manufacturing of SSEs that are < 50 µm thick to attain high energy density, and also exhibit good stability at the interface of the anode. Specifically, Wu et al.