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Perovskite solar cells can complement silicon photovoltaics in multijunction devices. Here, the authors optimize light harvesting in monolithic perovskite-on-silicon devices and fabricate a certified 23.6% efficient, 1 cm2 tandem solar cell with a perovskite device that withstands damp heat tests.
Hydrocarbon fuels contain organosulfur molecules that poison catalytic converters and release toxic sulfur oxides when the fuel is combusted. Here the authors demonstrate that the sulfur concentration in diesel fuel can be reduced to very low levels using a potassium tert-butoxide and silane system.
It is challenging to probe ion dynamics in supercapacitor electrodes, which has significant implications in optimizing their performance. Here, the authors develop in situ diffusion NMR spectroscopy to measure and illustrate the diffusion of the charge-storing ions in working supercapacitors.
Tariff structures and network constraints might incentivize storing solar energy in the home to reduce reliance on utilities. This study shows that storing solar energy rather than exporting it to the utility grid could increase electricity consumption as well as CO2, SO2 and NOx emissions.
The complexity of electrochemical storage systems makes it difficult to study ion dynamics between electrodes and electrolytes. Here the authors present an approach combining in situ X-ray scattering and Monte Carlo simulation for a comprehensive understanding of ion confinement and desolvation in nanoporous carbon supercapacitors.
Positive electrode materials for lithium-ion batteries feature lithium element and lithium-ion conduction paths. Here the authors report transition metal monoxides that contain neither the intrinsic lithium nor conduction channels for high-capacity positive electrode materials.
Electrodes of solid oxide fuel cells need to be stable during operation. Here, the authors use tungsten as a substituent to stabilize a perovskite oxide as a two-phase composite. The resulting material dynamically adjusts the phase compositions to keep a high catalytic activity at operation conditions.
Understanding surface carrier dynamics enables the design of optimal optoelectronic devices. Yang et al. find that surface recombination limits the total carrier lifetime in polycrystalline lead iodide perovskite films, meaning recombination at surfaces is more important than within and between grains.
Bioenergy may be used to replace fossil fuels, but the potential greenhouse gas benefits, and limits thereof, are rarely studied at a global scale. Staples et al. model land availability, areal yields and life-cycle emissions to study the link between bioenergy availability and emission reductions in 2050.
Solar water splitting is often performed in highly corrosive conditions, presenting materials stability challenges. Gu et al. show that an efficient and stable hydrogen-producing photocathode can be realized through the application of a graded catalytic–protective layer on top of the photoabsorber.
Despite their impressive performance, more efforts are required to develop industrially scalable perovskite solar cells from less toxic solvents. Towards that aim, this study presents the use of colloidal nanoparticle inks for room-temperature fabrication of CsPbBr3 solar cells.
Extensive efforts are under way to tackle the degradation issue—one of the biggest challenges for the practical application of perovskite-based solar cells. Here the authors show that CH3NH3PbI3 and several other iodine-containing perovskites are inherently unstable due to decomposition caused by self-generated I2.
Perovskite solar cells grown in substrate configuration would open a range of applications, if various challenges could be overcome. Towards that aim, Fu et al. present an architecture allowing inverted semi-transparent planar perovskite solar cells with open-circuit voltage of 1.116 V and 16.1% efficiency.
Using photoelectrodes to split water is a promising approach to convert solar energy to fuel, but photoanode stability is often an issue. Now, a Mo-doped BiVO4 photoanode is shown to stably evolve oxygen for 1,000 h due to in situ regeneration of the catalyst, and inhibition of photocorrosion.
Electrocatalytic water oxidation is key in energy storage technologies, but deeper mechanistic understanding is still required. Grimaud et al. show that surface oxygen atoms in a model oxide catalyst act as electrophilic centres for reactions and observe drastic reconstruction of the catalyst surface.
Organometal halide perovskite materials have been the subject of intensive research efforts in the context of photovoltaic applications. Here the authors exploit dynamic equilibrium to photocatalytically generate hydrogen from aqueous HI solutions using methylammonium lead iodide.
Efficient electrocatalysts for the oxygen–evolution reaction are desired due to their importance in applications such as water splitting and metal–air batteries. Here, the authors engineer ultrathin metal–organic frameworks that require low overpotential to generate oxygen from alkaline media.
Tin-based photovoltaic devices are less toxic than their lead-based counterparts, but suffer severe stability issues due to the susceptibility of tin oxidation. Here the authors report a CsSnI3 perovskite solar cell with a SnCl2 additive that displays a remarkable stability.
Planar structured perovskite solar cells often show hysteresis and lower efficiency than mesoporous ones. Jiang et al. show that using a SnO2 electron transport layer improves the performance of planar devices, reporting a certified efficiency of 19.9%, and enables a lower processing temperature.
Biofuel prices depend on related commodities—such as corn, sugar cane and palm oil—but their connection to other non-feedstock commodities is less well explored. Filip et al. analyse a data set of 33 commodities and assets and examine their relationships to biofuels in Brazil, the US and Europe.