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Researcher
- Sheng Dai
- Tomonori Saito
- Amit K Naskar
- Beth L Armstrong
- Brian K Post
- Gabriel M Veith
- Logan T Kearney
- Peeyush Nandwana
- Radu Custelcean
- Sudarsanam Babu
- Yong Chae Lim
- Alexey Serov
- Anisur Rahman
- Benjamin T Manard
- Bishnu Prasad Thapaliya
- Costas Tsouris
- Cyril V Thompson
- Guang Yang
- Gyoung Gug Jang
- Ilias Belharouak
- Jun Qu
- Kenton Blane Fillingim
- Khryslyn G Araño
- Lauren E Heinrich
- Meghan E Lamm
- Michael D Toomey
- Parans Paranthaman
- Rangasayee Kannan
- Robert L Sacci
- Ryan R Dehoff
- Thomas A Feldhausen
- Tolga Aytug
- Xiang Lyu
- Yousub Lee
- Zhenzhen Yang
- Zhili Feng
- Adam G Stevens
- Alice E Perrin
- Amit Shyam
- Andrzej Nycz
- Anna M Mills
- Ben W Lamm
- Bruce A Moyer
- Christopher C Ledford
- Christopher J Janke
- Christopher J Masuo
- Dave D Willis
- Diana Stamberga
- Edgar Lara-Curzio
- Eric A Wolfe
- Ethan C Self
- Felipe Polo-Garzon
- Felix L Paulauskas
- Frederic Vautard
- Glenn R Romanoski
- Govindarajan Muralidharan
- Holly E Hinton
- Jaswinder Sharma
- Jayanthi Kumar
- Jeffrey C Foster
- Jian Chen
- Jiheon Jun
- Jiho Seo
- Joshua E Vaughan
- Jun Yang
- Junyan Zhang
- Keju An
- Li-Qi Qiu
- Luke T Meyer
- Marm B Dixit
- Mary K Danielson
- Michael M Kirka
- Michelle Lehmann
- Nicholas E Gregorich
- Nihal S Kanbargi
- Nikki A Thiele
- Patxi Fernandez-Zelaia
- Peter L Wang
- Priyanshi Agrawal
- Ramesh R Bhave
- Rishi R Pillai
- Rob G Moore II
- Roger G Miller
- Rose A Montgomery
- Sarah M Graham
- Sargun Singh Rohewal
- Saurabh Prakash Pethe
- Shajjad S Chowdhury
- Shannon M Mahurin
- Syed K Imam
- Syed Z Islam
- Tao Wang
- Thomas R Muth
- Vasiliy S Morozov
- Venugopal K Varma
- Vera Bocharova
- William G Carter
- William H Peter
- Yan-Ru Lin
- Ying Yang
- Yingzhong Ma
- Yukinori Yamamoto
This invention utilizes a salt and an amine containing small molecule or polymer for the synthesis of a bulky anionic salt or containing single-ion conducting polymer electrolyte for the use in Li-ion and beyond Li-ion batteries.
Flue gas, and other industrial, gaseous waste streams are popular targets for CO2 sequestration technologies since the CO2 concentration is much higher compared to atmospheric concentrations.
A new hybrid explicit-implicit finite element (FE) numerical method is developed to accelerate the simulation of very large-scale transient thermomechanical processes such as welding and additive manufacturing.
The invention pertains to apparatus and methods for manufacturing carbon fiber, and more particularly, to apparatus and methods for carbonizing polymeric fibers using near-field electromagnetic treatment with the help of a material used as a susceptor in a resonant cavity.
Next generation batteries for electric vehicles (EVs) and other manufacturing needs require solid-state batteries made with high-performance solid electrolytes. These thin films are critical components but are difficult to manufacture to meet performance standards.
Inorganic fillers play an important role in improving the ionic conductivity, electrochemical stability, and mechanical strength of solid composite electrolytes (SCEs) for next generation Li-ion batteries.
Capture of CO2 either from points sources or directly from air is a practical way of decreasing CO2 emissions and tackle global warming. Among all the known CO2 capture technologies, absorption-based system is technologically the most matured.
This invention improves the initial treatment process for stainless steel (SS) electrode activation, resulting in nickel-rich SS electrodes that perform exceptionally well in oxygen evolution reactions (OER), ranking among the best compared to all other nickel-iron-based
The disclosed technology provides a new pathway for roll-to-roll processing of hierarchically porous acrylic fibers through spinodal decomposition.
The primary goal of this solution is to significantly improve the performance of sodium-carbon dioxide (Na-CO2) batteries. This is achieved by enhancing the efficiency of carbon dioxide reduction reactions within these batteries.