Three dimensional printing technologies represent a revolution in the manufacturing sector
because of their unique capabilities for increasing shape complexity while reducing waste …

Aerogels are highly porous structures produced by replacing the liquid solvent of a gel with
air without causing a collapse in the solid network. Unlike conventional fabrication methods …

Abstract Power-to-Gas (PtG) is prognosticated to realize large capacity increases and create
substantial revenues within the next decade. Due to their inherently high efficiencies, solid …

Inkjet and aerosol jet printing have recently emerged as promising fabrication techniques for
a broad range of devices for electrochemical energy conversion and storage–batteries, fuel …

Additive manufacturing (AM) is sometimes referred to as 3D printing. It is a technology useful
for fabricating both structural and energy devices. Of great concern to this review is …

A hierarchical multi-physics continuum model is used to investigate syngas (H 2+ CO)
production in a solid oxide button cell, single repeating unit and cell stack. A novel cluster …

In this work, we present how a low-cost HP Deskjet 1000 inkjet printer was used to fabricate
a 1.2 μm thin, dense and gas tight 16 cm 2 solid oxide fuel cells (SOFC) electrolyte. The …

A sustainable, interconnected, and smart energy network in which hydrogen plays a major
role cannot be dismissed as a utopia anymore. There are vast international and industrial …

Solid oxide fuel cell (SOFC) and electrolyser (SOE) performances can be enhanced
significantly by increasing the densities of (electrode| electrolyte| pore) triple phase …

Ammonia is a carbon-free energy carrier and is anticipated to play a significant role in the
global energy system of the future. This work is the first of a two-part paper that uses a multi …