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Electrochemical storage is typically accompanied by simultaneous accommodation of ions and electrons. Here the authors discuss a concept of decoupling electron and ion storage and present their perspectives of constructing artificial mixed conductor electrodes to enhance storage ability.
One third of industrial processes occur at high temperatures above 1300 K, but current methods of waste heat recovery at these temperatures are limited. Now, reduced graphene oxide is shown to be a highly efficient and reliable thermoelectric material up to 3000 K.
Smart integrated transport and energy systems need to interact with end users to enable the exploitation of demand flexibility. New research shows that relying on assumptions about user behaviour, rather than on data-based empirical models, inflates the benefits of smart-charging programmes.
The rise of prosumers has led to creation of virtual power plants and peer-to-peer trading to help manage a diverse and distributed array of energy sources. This Perspective proposes the federated power plant, which combines these concepts to meet some of their individual challenges and offer new value.
Biological photovoltaic devices (BPVs) use photosynthetic microorganisms to produce electricity, but low photocurrent generation impedes their application. Now, a micro-scale flow-based BPV system is reported with power density outputs similar to that of large-scale biofuels.
Li metal batteries offer much hope for the future of high-energy storage systems. Albertus et al. survey the current status of research and commercial efforts, and discuss key metrics and measurements as well as cost issues in enabling high-performing lithium metal electrodes.
Understanding interfacial charge transfer in water-splitting photoelectrodes is complicated by the delicate interplay between catalyst and light absorber. Now, an approach based on atomic force microscopy is exploited to measure the surface electrochemical potential of nanostructured catalyst-coated electrodes in operando.
It is challenging to unlock anionic redox activity, accompanied by full utilization of available cationic redox process, to boost capacity of battery cathodes. Now, material design by tuning the metal–oxygen interaction is shown to be a promising solution.
Hydropower represents about 20% of sub-Saharan electricity, and expansion is underway. Rainfall varies year-to-year in geographical clusters, increasing the risk of climate-related electricity supply disruption in dry years.
Understanding individual energy use can inform interventions for energy conservation. A longitudinal qualitative interview study shows that energy use behaviour is not simply a matter of individual choice, but rather is influenced by unique personal circumstances and familial and social relationships, which change over time.
The UN’s Agenda for Sustainable Development has 17 goals with 169 targets for action across a range of issues, with access to sustainable energy for all being Goal 7. This Perspective analyses interlinkages between energy systems, Goal 7 and the other goals at the target level, identifying synergies and trade-offs between them.
A policy sequence for low-carbon policy that is politically effective continues to face challenges of environmental and cost effectiveness. This Perspective outlines ways to address these issues within political constraints.
For proton-conducting metal–organic frameworks (MOFs) to find application as the electrolyte in proton-exchange membrane fuel cells, materials with better stability and conductivity are required. Now, a structurally flexible MOF that is also highly stable is demonstrated to possess high proton conductivity over a range of humidities.
Kesterite solar cells are low-cost alternatives for photovoltaics, based only on abundant metals, but they exhibit limited voltages. A new wide-gap kesterite solar cell provides a much higher voltage at a good efficiency.
The Eastring gas pipeline intends to connect Slovakia with southern and eastern European states in light of other infrastructural changes in the region. Misik and Nosko argue that neither perceived loss of energy security nor loss of rents from gas transit should be the main drivers behind the project.
Using cheap organic material as the cathode and abundant sodium as the charge carrier is attractive for sustainable battery technologies. Now, highly reversible four-sodium storage in a nano-sized disodium rhodizonate organic cathode is achieved.
Transparency offers integration routes unavailable to opaque photovoltaics. Here, Lunt and co-workers review recent progress in transparent solar technologies, highlight technical challenges and measurement considerations, and review performance requirements for various applications.
Understanding how subsidies affect fossil-fuel investment returns and production is crucial to commencing new reforms. New analysis on the impact of subsidies on US crude-oil producers finds that, at recent oil prices of around US$50 per barrel, tax preferences and other subsidies push nearly half of new oil investments into profitability.
Urban households in the global south face unique energy access challenges. This Perspective outlines a research agenda based on understanding the needs of urban energy users to promote inclusive urban energy transitions.
The shale gas revolution has led to a boom in construction of shale oil and gas wells in recent years. New research offers a more accurate accounting of its growing land-use footprint.
