The development of next-generation bioelectronics, as well as the powering of consumer
and medical devices, require power sources that are soft, flexible, extensible, and even …

Abstract 3D printing alias additive manufacturing can transform 3D virtual models created by
computer-aided design (CAD) into physical 3D objects in a layer-by-layer manner …

Large bone defects resulting from fractures and disease are a major clinical challenge,
being often unable to heal spontaneously by the body's repair mechanisms. Lines of …

Abstract Three-dimensional (3D) bioprinting, an additive manufacturing based technique of
biomaterials fabrication, is an innovative and auspicious strategy in medical and …

Abstract Three‐dimensional (3D) bioprinting has recently advanced as an important tool to
produce viable constructs that can be used for regenerative purposes or as tissue models …

Bioprinting, within the emerging field of biofabrication, aims at the fabrication of functional
biomimetic constructs. Different 3D bioprinting techniques have been adapted to bioprint cell …

Abstract Three-dimensional (3D) bioprinting fabricates 3D functional tissues/organs by
accurately depositing the bioink composed of the biological materials and living cells. Even …

Bioprinting is an emerging approach for fabricating cell‐laden 3D scaffolds via robotic
deposition of cells and biomaterials into custom shapes and patterns to replicate complex …

Abstract 3D printing is a rapidly growing technology that has an enormous potential to
impact a wide range of industries such as engineering, art, education, medicine, and …

Hydrogel plays a vital role in cell-laden three dimensional (3D) bioprinting, whereas those
hydrogels mimic the physical and biochemical characteristics of native extracellular matrix …