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- Biological and Environmental Systems Science Directorate (2)
- Computing and Computational Sciences Directorate (7)
- Energy Science and Technology Directorate (60)
- Fusion and Fission Energy and Science Directorate (1)
- National Security Sciences Directorate (2)
- Neutron Sciences Directorate (2)
- Physical Sciences Directorate (28)
- User Facilities (8)
Researcher
- Brian K Post
- Ahmed Arabi Hassen
- Vlastimil Kunc
- Peeyush Nandwana
- Peter L Wang
- Ryan R Dehoff
- Vincent C Paquit
- Joshua E Vaughan
- Rangasayee Kannan
- Sudarsanam Babu
- Vipin Kumar
- Adam G Stevens
- Andrzej Nycz
- Christopher J Masuo
- Christopher T Tyler
- David Nuttall
- Kenton Blane Fillingim
- Michael M Kirka
- Ritin Mathews
- Soydan Ozcan
- Steven J. Guzorek
- William G Carter
- Yong Chae Lim
- Aaron W Werth
- Alex C Roschli
- Alex J Plotkowski
- Amir K Ziabari
- Amit K Naskar
- Andrew D Sutton
- Bishnu Prasad Thapaliya
- Brian T Gibson
- Bryan P Maldonado
- Corson L. Cramer
- Diana E Hun
- Edgar Lara-Curzio
- Emilio C Piesciorovsky
- Gary Hahn
- Halil L Tekinalp
- J.R. R Matheson
- James (Jim) Tobin
- Jeffrey C Foster
- Jesse Heineman
- Joseph D Rendall
- Josh K Michener
- Justin West
- Kashif Nawaz
- Lauren E Heinrich
- Logan T Kearney
- Luke T Meyer
- Michael J Cordon
- Michelle K Kidder
- Milton N Ericson
- Philip Bingham
- Philip R Boudreaux
- Raymond C Borges Hink
- Singanallur V Venkatakrishnan
- Steven E Bullock
- Thomas A Feldhausen
- Uday K Vaidya
- Umesh N MARATHE
- Yousub Lee
- Zhili Feng
- Adam M Aaron
- Ali Passian
- Amit Shyam
- Amy M Elliott
- Andrés E Márquez Rossy
- Andrew R Lupini
- Anisur Rahman
- Ben LaRiviere
- Beth L Armstrong
- Bryan Lim
- Cameron V Adkins
- Charles D Ottinger
- Christopher J Janke
- Christopher Ledford
- Christopher M Fancher
- Craig A Blue
- Daniel R Coughlin
- Dave D Willis
- David Olvera Trejo
- David S Parker
- Dhruba Deka
- Felix L Paulauskas
- Frederic Vautard
- Georges Chahine
- Greg S Larsen
- Harold A Walters
- Ilias Belharouak
- Ilja Popovs
- Isaiah T Dishner
- Isha Bhandari
- James C Haley
- James W Klett
- Jaydeep M Karandikar
- Jian Chen
- Jiheon Jun
- Jiho Seo
- Joel A Dawson
- Joel M Asiamah
- John F Cahill
- John M Lindahl
- John T Potter
- Jose H Chavez
- Josh D Crabtree
- Julian L Charron
- Jun Qu
- Kevin M Roccapriore
- Kim W Sitzlar
- Liam White
- Liangyu Qian
- Mahabir S Bhandari
- Marm B Dixit
- Matt Korey
- Meghan E Lamm
- Melanie M Debusk
- Michael C Borish
- Michael D Toomey
- Mikael M Salonvaara
- Nidia C Gallego
- Nolan W Hayes
- Obaid Rahman
- Ondrej E Dyck
- Parans Paranthaman
- Paritosh S Mhatre
- Paul W Groth
- Pengtao Wang
- Priyanshi Agrawal
- Pum Kim
- Rafal P Wojda
- Ramanan Sankaran
- Riley C Wallace
- Rishi R Pillai
- Ritu Sahore
- Rob C Jordan
- Robert L Sacci
- Roger G Miller
- Ryan C Ogle
- Samuel C Leach
- Santa Jansone-Popova
- Sarah M Graham
- Sargun Singh Rohewal
- Scott Smith
- Serena Chen
- Shajjad S Chowdhury
- Sheng Dai
- Som S Shrestha
- Sreshtha Sinha Majumdar
- Srikanth B Yoginath
- Stephen Jesse
- Stephen M Killough
- Subhabrata Saha
- Subhamay Pramanik
- Tao Wang
- Tomas Grejtak
- Tomonori Saito
- Trevor G Aguirre
- Troy W Seay
- Tyler C Smith
- Varisara Tansakul
- Venugopal K Varma
- Vera Bocharova
- Vilmos Kertesz
- Vimal A Ramanuj
- Wenjun Ge
- William H Peter
- Yarom Polsky
- Yeonshil Park
- Yiyu Wang
- Yukinori Yamamoto
- Zackary K Snow
Technologies are described directed to recovery of phosphoric acid, elemental phosphorous, and rare earth elements from phosphoric sludge.
This technology provides a device, platform and method of fabrication of new atomically tailored materials. This “synthescope” is a scanning transmission electron microscope (STEM) transformed into an atomic-scale material manipulation platform.
The technology describes improving joinability and strength of metal joints at cryogenic temperatures.
Technologies directed to interpenetrating polymer networks (IPN) for thermal protection systems (TPS) are described.
Technologies are described for machining parameter recommendation using in-process machining data aggregation.
Technologies are described directed to hybrid electrode architectures for Lithium-Ion battery electrodes .
Additive manufacturing followed by compression molding (AM-CM) is a hybrid manufacturing process that combines the benefits of AM and CM to produce high-performance functional composite structures for automotive production.
Technologies directed to an inverter design with high short-circuit fault current contribution are described.
The technology provides carbonization of polymeric materials for carbon fiber manufacturing.
The technology describes critical element free, low-cost competitor to NdFeB-based magnets.