Volume 5 Issue 11, November 2020

Social norm interventions are widely used to foster residential resource conservation. Now researchers have shown that the effectiveness of providing information about others’ energy use alongside messages of social approval for energy savings behaviour depends on the strength and consistency of these messages.

The design of research solar cells is typically optimized for laboratory conditions but in the real world they are exposed to changing temperatures influencing their performance. Now, research from outdoor tests reveals how temperature alters the current of perovskite/silicon tandem solar cells and how this changes the optimal bandgaps.

Microwave heating has become a useful tool in catalysis to obtain chemical products under unconventional reaction conditions. Now, researchers have demonstrated low-temperature water splitting to produce hydrogen using microwave catalysis and revealed the important role of reduced oxides in the process.

Households reduced their electricity use the most when they learnt both that they were using more energy than their neighbours and that energy conservation was socially approved. This suggests that efforts to use social information to nudge conservation should combine different types of social feedback to maximize impact.

Negawatt trading or trade in wattage of energy saved from consumption has been a much debated idea that has evaded wide-scale practical application. Tushar et al. look at the challenges to wide-scale negawatt trading and explain how recent technological developments can help address those challenges.

Local content requirements are designed to promote development of local industry; however, their economic and technological benefits are not well understood. Using data from Indian solar photovoltaic auctions, Probst et al. show the economic costs and technical benefits of local content requirements in energy auctions.

Outdoor field testing is crucial to understand how solar cells behave under operational conditions. Here, Aydin et al. show that a lower perovskite bandgap than that calculated at laboratory standard test conditions enhances the performance of perovskite/silicon tandem cells in the field.

Nickel-rich layered oxide cathodes are at the forefront of the development of automobile batteries. The authors report an atomic and microstructural engineering design for a Li[Ni_0.90Co_0.09Ta_0.01]O₂ cathode that exhibits outstanding long-term cyclability and high energy at full depth of discharge in full cells.

Ensuring both stability and efficiency in mixed lead–tin perovskite solar cells is crucial to the development of all-perovskite tandems. Xiao et al. use an antioxidant zwitterionic molecule to suppress tin oxidation thus enabling large-area tandem cells with 24.2% efficiency and operational stability over 500 hours.

Metal–organic frameworks (MOFs) are increasingly being explored for electrocatalytic oxygen evolution, which is half of the water splitting reaction. Here the authors show that, under reaction conditions, mixed metal oxyhydroxides form at the nodes of bimetallic MOFs, which are highly catalytically active.

The appropriate descriptors for a catalyst’s hydrogen evolution activity in alkaline electrolyte are debated. Combining simulations and single-crystal studies of metal-decorated Pt surfaces, McCrum and Koper show that activity exhibits a volcano-type relationship with the hydroxide binding strength of the catalyst, providing a target for catalyst design.

Home energy reports convey information about others’ energy use (descriptive norms) and social approval for energy saving behaviour (injunctive norms). This study shows that the combined effect of descriptive and injunctive feedback depends on their consistency and relative strength.

Hydrogen is a promising vector in the decarbonization of energy systems, but more efficient and scalable synthesis is required to enable its widespread deployment. Towards that aim, Serra et al. present a microwave-based approach that allows contactless water electrolysis that can be integrated with hydrocarbon production.

To meet climate goals, electric utilities should be decarbonizing their power production, but historical analyses of this process are scarce. Using machine learning and data from more than 3,000 utilities globally, Galina Alova shows that even utilities that prioritize renewable energy continue to grow their fossil fuelled generation capacity.

Nuclear and renewable energy are considered two of the most important technologies towards decarbonization though it is not clear how their adoption relates to national emission reductions. Sovacool et al. look at data from 123 countries to examine emission reductions associated with nuclear- or renewable energy-focused strategies.