Abstract Three-dimensional (3D) bioprinting technology allows the production of porous
structures with complex and varied geometries, which facilitates the development of equally …

Abstract 3D bioprinting techniques have emerged as a flexible tool in tissue engineering
and regenerative medicine to fabricate or pattern functional 3D bio-structures with precise …

Shape memory polymers (SMPs) are smart materials that enable to transform back to their
original shape from the deformed state when subjected to external stimuli. They have shown …

Bioengineering seeks to replicate biological tissues exploiting scaffolds often based on
polymeric biomaterials. Digital light processing (DLP) has emerged as a potent technique to …

Digital light processing (DLP) 3D printing has shown great advantages such as high
resolution in the fabrication of 3D objects toward a range of applications. Despite the rapid …

Over the past decade, 4D printing has revolutionized the field of advanced manufacturing by
fabricating structures that dynamically respond to environmental stimuli. During this process …

Damage to bones resulting from trauma and tumors poses a significant challenge to human
health. Consequently, current research in bone damage healing centers on developing …

Objective: As a novel emerging technology, four-dimensional (4D) printing allows the
stimulation of 3D-printed materials in order to change shape, color, functionality, etc, over …

As digital light processing (DLP) printing is increasingly utilized across various industries,
improving manufacturing reliability is essential. However, fabrication reliability may be …

Digital light processing (DLP) is emerging as a powerful tool for fabricating tissue
engineering (TE) scaffolds, particularly for vascular TE and the development of …