High internal phase emulsions (HIPEs), with densely packed droplets of internal phase and
monomers dispersed in the continuous phase, are now an established medium for porous …

The development of clean and renewable energy sources has been necessitated by the
ever-increasing energy consumption, increasing environmental degradation caused using …

A novel shape‐stabilized n‐hexadecane/polyHIPE composite phase change material (PCM)
was designed and thermal energy storage properties were determined. Porous carbon …

Phase change materials (PCMs), which have been in trend in recent years, are smart
materials that allow energy to be stored in the form of latent heat in a specific temperature …

Monolithic shape-stable phase change material (SS-PCM) was fabricated by polymerizing
the continuous phase of Pickering high internal phase emulsion (Pickering-HIPE). To ensure …

Controlling the morphology and physical properties of poly (high internal phase emulsion) s
(polyHIPEs) is critical for the development of well‐defined porosity with improved …

Continuous liquid-liquid extraction and separation of 4-aminoacetophenone, a product of
the hydrogenation of 4-nitroacetophenone, was performed within emulsion templated …

PolyHIPEs are an important class of porous polymers with well-defined hierarchical porosity
and tunable morphology. However, the insufficient mechanical properties arise due to high …

Organo‐modified nanoclay incorporated high internal phase emulsions (HIPEs) were
successfully used for the preparation of macroporous nanocomposite foams. Due to the aim …

Paraffin‐based shape‐stabilized composite phase change materials (PCM) containing
surface modified cellulose nanocrystals (CNCs) for thermal energy storage applications …