Fricke, Sophia N Salgado, Mia Menezes, Tamires Santos, Kátilla M Costa Gallagher, Neal B Song, Ah‐Young Wang, Jieyu Engler, Kaitlyn Wang, Yang Mao, Haiyan
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Abstract: Nanoporous materials are of great interest in many applications, such as catalysis, separation, and energy storage. The performance of these materials is closely related to their pore sizes, which are inefficient to determine through the conventional measurement of gas adsorption isotherms. Nuclear magnetic resonance (NMR) relaxometry has...
Becker, Kathleen Xiao, Chengcan Assavachin, Samutr Kundmann, Anna Osterloh, Frank E
Gallium phosphide is an established photoelectrode material for H2 or O2 evolution from water, but particle-based GaP photocatalysts for H2 evolution are very rare. To understand the reasons, we investigated the photocatalytic H2 evolution reaction (HER) of suspended n-type GaP particles with iodide, sulfite, ferricyanide, ferrous ion, and hydrosul...
Xu, Wenbin Diesen, Elias He, Tianwei Reuter, Karsten Margraf, Johannes T
High entropy alloys (HEAs) are a highly promising class of materials for electrocatalysis as their unique active site distributions break the scaling relations that limit the activity of conventional transition metal catalysts. Existing Bayesian optimization (BO)-based virtual screening approaches focus on catalytic activity as the sole objective a...
Dai, Tao Valanarasu, Jeya Maria Jose Zhao, Yifan Zheng, Shuwen Sun, Yinong Patel, Vishal M Jordaan, Sarah M
Estimates of the land area occupied by wind energy differ by orders of magnitude due to data scarcity and inconsistent methodology. We developed a method that combines machine learning-based imagery analysis and geographic information systems and examined the land area of 318 wind farms (15,871 turbines) in the U.S. portion of the Western Interconn...
Huang, Lewen Li, Yibao Zheng, Zhong Bai, Yun Russell, Thomas P He, Changfei
Cellulose, often considered a highly promising substitute for petroleum-based plastics, offers several compelling advantages, including abundant availability, cost-effectiveness, environmental friendliness, and biodegradability. However, its inherent highly crystalline structure and extensive hydrogen-bonded network pose challenges for processing a...
Weng, Guorong Laderer, William Alexandrova, Anastassia N
Nontrivial surface states in topological materials have emerged as exciting targets for surface chemistry research. In particular, topological insulators have been used as electrodes in electrocatalytic reactions. Herein, we investigate the robustness of the topological surface states and band topology under electrochemical conditions, specifically...
Ahmed, Faiz Chen, Anna Altoé, M Virginia P Liu, Gao
Solid-state batteries (SSBs) that incorporate the argyrodite-Li6PS5Cl (LPSCl) electrolyte hold potential as substitutes for conventional lithium-ion batteries (LIBs). However, the mismatched interface between the LPSCl electrolyte and electrodes leads to increased interfacial resistance and the rapid growth of lithium (Li) dendrites. These factors ...
Kwak, Minkyoung Ojha, Kasinath Shen, Meikun Boettcher, Shannon W
Anion-exchange-membrane water electrolysis (AEMWE) is an emerging technology for scalable hydrogen production. AEMWE has poor durability when operating without supporting electrolyte due to the oxidation of ionomers and membranes in contact with the anode oxygen evolution reaction (OER) catalyst. We report a new “passivated” anode architecture for ...
Ning, Rui Zeng, Yuqiang Rapp, Vi Zhang, Buyi Yang, Lin Prasher, Ravi Zheng, Xiaolin
Roughly, 50% of primary energy worldwide is rejected as waste heat over a wide range of temperatures. Waste heat above 573 K has the highest Carnot potential ( > 50 % ) to be converted to electricity due to higher Carnot efficiency. Thermoelectric (TE) materials have gained significant attention as potential candidates for efficient thermal energy ...
Wetter, Michael Benne, Kyle Tummescheit, Hubertus Winther, Christian
Spawn is DOE's next-generation tool chain for whole building energy control simulation. Spawn couples traditional imperative load-based envelope modelling with new equation-based modelling of HVAC and controls. Spawn uses EnergyPlus for the former and the Modelica Buildings Library for the latter. Because it leverages the Modelica Buildings Library...