The process of electrospinning is over a century old, yet novel material and method
achievements, and later the addition of nanomaterials in polymeric solutions, have spurred a …

Nanofiber-enhanced hydrogel composite scaffolds (NFHCSs) combine both of
electrospinning strategy and hydrogel-forming process, which possess some advanced …

Additive manufacturing is an incipient technology with great potential to achieve excellent
mechanical properties with minimal material wastage. Additive manufacturing is well known …

Multifunctional composite nanofiber membranes of Polyvinylidene fluoride and
polyvinylidene difluoride (PVDF) and PVDF embedded with La3+ ion substituted for Pb2+ …

This work reports the assembly of mesoporous iron oxide nanoparticles (meso‐MNPs) with
cryogel scaffolds composed of chitosan and gelatin. Meso‐MNPs with a particle size ranging …

High-performance polymers, especially with high dielectric constant (k), provide the
capability for futuristic application in ubiquitous wearableand tactile electronics such as …

Bone tissue engineering (BTE) aims to induce tissue regeneration through synergizing
scaffolds, cells, and growth factors. As the main component of BTE, scaffolds produced …

The process of electrospinning is over a century old, yet novel material and method
achievements, and later the addition of nanomaterials in polymeric solutions, have spurred a …

Electrospinning is a versatile technique and has been used to produce porous fibers
ranging from submicron to nanometer in diameter. Using a variety of high-performance …

Recently porous ceramic membranes have become a subject of special interest due to their
outstanding thermal and chemical stability. Porous ceramic membranes and reticulated …