Themed collection Organic Materials for Energy Conversion and Storage

Guest Editors Juan Luis Delgado and Emilio Palomares introduce the Sustainable Energy & Fuels themed collection on organic materials for energy conversion and storage.

Photoinduced organic transformations have stimulated the organic chemistry community to develop light-driven renewed reaction methodologies, which in many cases are complementary to standard thermal catalysis.

Sustainable and accessible energy? Green materials and batteries. We review the latest ecological materials and technologies for off-grid battery applications.

A novel recyclable template was used to prepare mesoporous polymeric carbon nitride with prominently increased specific surface area and photoactivity.

The large-scale fabrication of polymeric carbon nitride (CN) films with tunable thickness, composition and photoelectrochemical properties is reported.

In this paper, we present the design and synthesis of three organic dyes specially developed for the fabrication of dye-sensitized solar cells with potential application in greenhouses cladding.

The development of high-performance, low-cost transition metal oxide nanoparticle-supported carbon catalysts for oxygen evolution reaction (OER) is one of the biggest challenges faced in the process of commercializing water electrolyzers and rechargeable metal–air batteries.

Schematic illustration of the preparation procedure of DAQ–CGH.

The catalytic performance of photochemical H₂ evolution from water by Co-NHC-1 is dramatically improved by rational redox tuning of an electron relay.

The synchronous nesting of hollow FeP nanospheres into a 3D-PC scaffold is designed for boosting the electrochemical performance of KIBs.

Microwave and ultrasound preparation of highly active OER electrodes derived from pinecones and having a low cobalt content is reported.

A high-throughput virtual screening of 45 000 diketopyrrolopyrrole dyes is performed to map their optoelectronic property space and screen for dyes suitable for dye-sensitized proton reduction and dye-sensitized solar-cells.

Carbon nanotubes were used to deactivate hydroxyl groups, which are the main reason for ion migration in ambient-air processed perovskite solar cells.

A series of novel phthalocyanine derivatives with bulky electron-donating thioether substituents were synthesized in order to investigate the effect of sulfur atoms on the solar-cell performances of Zn–phthalocyanine based dye-sensitized solar cells.

New benzothiadiazole-based dyes are synthesized, characterized and used for the fabrication of robust and efficient solar cells and mini-modules.

Prussian blue is applied as the anode in the first reported metal-free fuel cell for formic acid oxidation.

The synthesis and semiconducting properties of thienyl-triphenylamine tetrasubstituted zinc(II) phthalocyanine and its integration as a dopant-free hole transporting material in perovskite solar cells. Competitive performance and excellent chemical stability were obtained.

New redox-active polymer nanoparticles present that the redox potential of the catechol group is affected by the presence of the pyridine. This positive potential gain is associated to the proton trap effect, which benefits the performance of lithium-ion–polymer batteries.