Themed collection Inorganic chemistry approaches to saving critical elements: Replacement

The utility of pincer−nickel complexes in catalyzing reactions such as cross−coupling, oxidation, (de)hydrogenation, hydrofunctionalization, C−H activation and CO₂ functionalization has been reviewed from a synthetic and mechanistic point of view.

The best representatives of pristine MOFs are not only inferior to catalysts derived from MOFs, but also superior in some cases.

In this Perspective, we will highlight selected examples of transition metal complexes with low coordination numbers whose high reactivity has been exploited in catalysis and the activation of small molecules featuring strong bonds (N₂, CO₂, and CO).

Substituted tetraphenyl Fe porphyrins are versatile molecular catalysts for the activation of small molecules (such as O₂, H⁺ or CO₂), which could lead to renewable energy storage, the direct production of fuels or new catalytic relevant processes.

Although β-diketiminate complexes have been widely explored in stoichiometric studies, their use as catalysts is largely underdeveloped.

This perspective summarises the key synthetic routes to iron chalcogenide thin films/nanoparticles by highlighting the key aspects that lead to control over phase/morphology.

Copper hydride clusters of variable nuclearity are derived from hydrogen and HCOOH as emerging energy storage materials and models.

This Frontier article reviews recent advances on the excited state reactivity of earth-abundant metal–oxygen complexes.

This Frontier article highlights the recent development and advances in designing ferric phosphide (FeP) based composite materials for the HER.

π-Acid ancillary ligands, reactants, or products can stabilize reactive low valent Ti intermediates through backbonding, and present opportunities for the development of vast new classes of Ti-catalyzed redox reactions with practical applications.

Herein we demonstrate that an earth-abundant semiconductor photocathode (p-Si/TiO₂/NiO_x) out-competes rare and expensive Pt as counter electrode to Fe-oxide for overall photoelectrochemical water splitting.

Pincer-type tridentate pyridyl bis(pyridylidene amide) (pyPYA₂) ligand systems were coordinated to the Earth-abundant first row transition metals nickel, cobalt and zinc, revealing ambidentate N,N,N and O,N,O coordination behavior.

Due to their composition optimization and structural advantages, multi-shelled Co_0.5Ni_0.5 oxide/phosphide hollow spheres achieved a rapid oxygen evolution.

A β-FeOOH/MXene sandwich composite enables improved cyclability and better high-rate performance in lithium-ion batteries.

Efficient hydroboration and hydrosilylation of ketones and aldehydes has been achieved using a Mn^II-coordination polymer as precatalyst under mild conditions_.

The search for Earth-abundant and efficient electrode materials is significant for advanced supercapacitors.

Pyrite FeS₂/C nanoparticles exhibited excellent OER/HER activity and show good overall water splitting efficiency.

An earth-abundant cuprous bis-phenanthroline photosensitizer showed potential use in the photodynamic therapy of cancer.