Heßelmann, Matthias Lee, Jason Keonhag Chae, Sudong Tricker, Andrew Keller, Robert Gregor Wessling, Matthias Su, Ji Kushner, Douglas Weber, Adam Z Peng, Xiong
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Coupling renewable electricity to reduce carbon dioxide (CO2) electrochemically into carbon feedstocks offers a promising pathway to produce chemical fuels sustainably. While there has been success in developing materials and theory for CO2 reduction, the widespread deployment of CO2 electrolyzers has been hindered by challenges in the reactor desi...
Kistler, Tobias A Prabhakar, Rajiv Ramanujam Agbo, Peter
Electrochemical carbon dioxide reduction represents a promising path to utilize CO2 as a feedstock for generating valuable products such as fuels and chemicals. Faradaic efficiencies near 100% have been achieved for certain CO2 reduction products such as CO, but the electrolyzer outlet streams usually contain large fractions of unreacted CO2, dropp...
Kim, Jiyoon Sari, Dogancan Chen, Qian Rutt, Ann Ceder, Gerbrand Persson, Kristin A
Identifying next-generation batteries with multivalent ions, such as Ca2+ is an active area of research to meet the increasing demand for large-scale, renewable energy storage solutions. Despite the promise of higher energy densities with multivalent batteries, one of their main challenges is addressing the sluggish kinetics in cathodes that arise ...
Sabiston, Graeme Wirz, Richard E
A multi-scale simulation framework for ion-solid interactions in plasma-exposed materials provides crucial insight into advancing fusion energy and space electric propulsion. Leveraging binary-collision approximation (BCA) simulations, the framework uniquely predicts sputter yields and analyzes material transport within volumetrically complex mater...
Yang, Shuhao Kim, Young Chen, Guoying
Owing to their high-voltage stabilities, halide superionic conductors such as Li3YCl6 recently emerged as promising solid electrolyte (SE) materials for all-solid-state batteries (ASSBs). It has been shown that by either introducing off-stoichiometry in solid-state (SS) synthesis or using a mechanochemical (MC) synthesis method the ionic conductivi...
Rutkauskaite, Ryte Zhang, Xiaobin Woodward, Adam W Liu, Yanlin Herrera, Gabriel Purkis, Jamie Woodall, Sean D Sarsfield, Mark Schreckenbach, Georg Natrajan, Louise S
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The aqueous uranyl dication has long been known to facilitate the UV light-induced decomposition of aqueous VOCs (volatile organic compounds), via the long-lived highly efficient, uranyl excited state. The lower-energy visible light excited uranyl ion is also able to cleave unactivated hydrocarbon C-H bonds, yet the development of this reactivity i...
Wetter, Michael Sulzer, Matthias
As urban energy systems become decarbonized and digitalized, buildings are increasingly interconnected with one another and with the industrial and transportation sector. Transformation strategies to cost-effectively integrate distributed energy sources, and to increase load flexibility and efficiency, generally increase complexity. This complexity...
Croce, Roberta Carmo-Silva, Elizabete Cho, Young B Ermakova, Maria Harbinson, Jeremy Lawson, Tracy McCormick, Alistair J Niyogi, Krishna K Ort, Donald R Patel-Tupper, Dhruv
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Improving photosynthesis, the fundamental process by which plants convert light energy into chemical energy, is a key area of research with great potential for enhancing sustainable agricultural productivity and addressing global food security challenges. This perspective delves into the latest advancements and approaches aimed at optimizing photos...
Vlachogiannis, Dimitris M Wei, Hua Moura, Scott Macfarlane, Jane
Qiao, Yu Shang, Zhaoru