Results 171 to 180 of about 1,249 (228)
Advanced Materials, EarlyView.This strategy rejuvenates spent lithium iron phosphate battery by non‐invasively targeting Li+ trapped within the solid‐electrolyte interphase (SEI). This method mitigates copper dissolution and reduces Li/Fe antisite defects, achieving 9.56% capacity recovery and 214 cycles lifespan extension. The process requires only 3 MJ kg−1 of energy and emitting
Jinu Song +6 more
wiley +1 more source
Decoding High‐voltage LiCoO2: From Degradation to Stabilization Toward Durable Li‐ion Batteries
Advanced Materials, EarlyView.This review systematically addresses the degradation mechanisms and stabilization strategies for high‐voltage LiCoO2 cathodes. Key enhancement approaches including foreign‐ion doping, surface modifications, structural design, and electrolyte optimization are critically assessed.
Zezhou Lin +6 more
wiley +1 more source
Generative Models for Crystalline Materials
Advanced Materials, EarlyView.Generative machine learning models are increasingly used in crystalline materials design. This review outlines major generative approaches and assesses their strengths and limitations. It also examines how generative models can be adapted to practical applications, discusses key experimental considerations for evaluating generated structures, and ...
Houssam Metni +15 more
wiley +1 more source
Perspective on Aqueous Batteries: Historical Milestones and Modern Revival
Advanced Materials, EarlyView.This review retraces the development of aqueous batteries from classical Zn‐MnO2 chemistry to modern Zn and Ni systems, correlating voltage, capacity, and electrolyte formulation with practical performance. By mapping historical success and failure onto current and future research directions, it identifies guiding principles that steer the design of ...
Fangwang Ming +5 more
wiley +1 more source
Oxygen Evolution Reaction Catalysts for Acidic‐Media CO2 Electrolyzers
Advanced Materials, EarlyView.Acidic‐media CO2 electroreduction (CO2R) could decarbonize chemical production, despite relying on rare‐earth elements for anodic oxygen evolution reaction (OER). Transferring the learnings from mature sister technologies (water electrolysis) could accelerate technological development.
Mingcheng Huang, Adnan Ozden
wiley +1 more source
Non‐Functionalized Graphene as an Electrical Sensing Surface for Bacterial Detection
Advanced Materials Interfaces, EarlyView.Pathogenic bacteria detection in food remains a major public health concern, driving the need for rapid, cost‐effective, and portable detection systems. This review focuses on the use of non‐functionalized graphene as an electrical sensing surface for bacterial detection, highlighting their unique properties, sensing mechanism, and current developments.
Jazmin Berthe +4 more
wiley +1 more source
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Mars in situ resource utilization: a review
Planetary and Space Science, 2020Abstract We provide a review of the development of systems to utilize natural resources on Mars to enable advanced missions. We review the rationale, history, available resources, systems technologies and an on-going NASA program to mature a selected integrated system. Key literature is referenced throughout.
Stanley O. Starr, Anthony C. Muscatello
openaire +2 more sources
Mars In-Situ Resource Utilization and Sulfur Concrete
Earth and Space 2021, 2021Le projet ISRU de la NASA établit le besoin de matériaux in situ pour la base lunaire et l'habitation de Mars. Mars offre les conditions les plus favorables à l'habitation et à la poursuite de l'exploration de l'espace lointain. La compréhension des conditions planétaires révèle que les variations de température, les radiations solaires et le flux de ...
Abdur Rahim +3 more
openaire +2 more sources
Microchannel reactor for extraterrestrial in situ resource utilization
Journal of Solid State Electrochemistry, 2023Dong Rizhi +3 more
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Electrochemical Catalytic Synthesis of CH3OH for In‐situ Resource Utilization
Chemical Engineering & Technology, 2023In space exploration activities, a large amount of materials needs to be carried, which limits the sustainable development of exploration activities. In‐situ resource utilization (ISRU) is an important means to realize resource recycling and continuous ...
Qing Yang +4 more
semanticscholar +1 more source