Articles in 2023

Levees can obscure the public perception of flood risk, reflected in accelerated rates of development in floodplains relative to surrounding areas. Effective regulation and legislative measures can reverse this effect for more sustainable management.

Reductions in air pollution in the United States over the past two decades have led to positive results for forest growth and survival. However, further measures are needed to protect sensitive tree species and bolster forest biodiversity

Our daily lives and economic activities increasingly rely on 5G mobile networks, but their carbon emissions are concerning. Here the authors quantify the carbon emissions of 5G mobile networks in China and propose a strategy to reduce them, paving the way to sustainable mobile communication infrastructures.

Atmospheric water harvesting is challenging due to the presence of airborne pollutants. The authors show a device design that enables fog capture with simultaneous pollutant decomposition powered by sunlight.

Radiative cooling textiles provide a sustainable means for personal thermal management. Here the nano-textile design realizes an unprecedented combination of human body cooling in both indoor and outdoor conditions without compromising wearability.

As the availability of affordable freshwater in urban settings becomes ever more urgent around the world, this study looks at how an unregulated, informal market meets demands at the expense of groundwater resources.

Aromatic chemicals, having indispensable roles in human society, are currently produced from fossil resources. Here, the authors introduce a strategy to synthesize benzenoid aromatics from bio-based feedstock, showing the possibility of phasing out fossil-based feedstocks in aromatics production.

As lead halide perovskite solar cell technologies are progressing rapidly towards their commercialization, sustainability must be adopted as an essential principle. Here the authors show a green solvent formula that involves no toxic organic solutions but allows for scalable processing of perovskite for solar cells with high efficiency.

Understanding the synergistic effects of aridity and grazing on dryland ecosystem attributes can be important for identifying ‘safe operating spaces’ for grazing under an increasingly arid climate. This study uses two-dimensional ecological threshold models to assess this in China’s drylands.

A circular economy for plastics offers a promising solution to the pollution crisis. Here the authors take advantage of the unique chemistry of polydiketoenamine resins, showing how plastics can be biorenewable and recyclable by incorporating biosourced triacetic acid lactone.

While the phrase ‘reduce, reuse, recycle’ is ordered that way to best minimize waste, many consumers seem to overlook reduction in favour of recycling after the fact. This study examines perceptions of waste management and why many people feel powerless to affect change.

Continued sea-level rise is driving the intrusion of saltwater into coastal wetlands and shallow groundwater reservoirs. High-resolution aerial images reveal that saltwater intrusion in the US Mid-Atlantic may be worse than previously thought, with costly impacts on regional agriculture.

Lead toxicity of perovskite solar cells is hindering their commercialization, as lead is currently indispensable in making high-performance perovskite solar cells. Here the authors propose a new strategy to address this issue while simultaneously improving the stability and reproducibility of perovskite solar cells.

Understanding the role of biodiversity in maintaining the provision of Nature’s Contributions to People is critical to sustainability. This study finds a substantial contribution of high-biodiversity areas to the regulation of air quality, climate and freshwater quantity, with important implications for conservation efforts.

Understanding the drivers of forest losses and their economic implications is key to designing efficient climate policies. This study simulates market-driven land-use decisions to identify the factors contributing to forest losses, revealing such losses, their trends, temporal variation and social value.

The Rotterdam Convention addresses the international trade of hazardous chemicals, but its effectiveness is rarely evaluated. This study analyses international trade flows of highly hazardous chemicals covered by the Convention, revealing that large-scale illegal trade continues to have disastrous impacts.

The authors deploy a hydrotropic solubilization strategy turning an otherwise poorly water-soluble acetate into a salt for a high-concentration aqueous electrolyte that features low cost and environmental sustainability and enables good performance of zinc batteries.

Exposure to wildfires is increasing across the continental United States. These risks are growing not only for populations living at the wildland–urban interface but also for critical infrastructure, such as roads and transmission lines.

While the type of vehicles matters a great deal for the quantity of emissions being generated, driver behaviour is also a major factor. This paper uses driving trajectory data to project how much carbon in the atmosphere could be prevented through calm driving through 2050.

Energy efficient brick production is crucial for the carbon footprint, especially in countries with a continuously expanding built environment. This study models Indian brick production and reveals a large underreporting in official energy consumption estimates, as well as key drivers affecting its performance.