Abstract Three‐dimensional (3D) bioprinting of cell‐laden biomaterials is used to fabricate
constructs that can mimic the structure of native tissues. The main techniques used for 3D …

With advances in bone tissue regeneration and engineering technology, various
biomaterials as artificial bone substitutes have been widely developed and innovated for the …

Porous biopolymer hydrogels doped at 3–6 wt% with 50 nm diameter/0.8 μm long natural
clay nanotubes were produced without any cross-linkers using the freeze-drying method …

Fabrication of tissue engineering scaffolds with the use of novel 3D printing has gained lot of
attention, however systematic investigation of biomaterials for 3D printing have not been …

In this study, the multiwall carbon nanotubes (MWNTs)/polycaprolactone composite
scaffolds were fabricated by the solution evaporation technique. The morphology, phase …

The growing occurrence of bone disorders and the increase in aging population have
resulted in the need for more effective therapies to meet this request. Bone tissue …

Nowadays, using the nanocomposite coatings on bioceramic scaffolds is a great interest for
many researchers to improve the properties of these scaffolds. In this study, the effect of poly …

Designing scaffolds with appropriate mechanical properties is a challenge in tissue
engineering. In this study, electrospun scaffolds were fabricated by mixing different percent …

Natural bone tissue possesses a nanocomposite structure that provides appropriate
physical and biological properties. For bone tissue regeneration, it is crucial for the …

Carbon nanotube (CNT) composite materials are very attractive for use in neural tissue
engineering and biosensor coatings. CNT scaffolds are excellent mimics of extracellular …