Selective laser melting (SLM) has received huge attention recently by the research
community due to feasibility of realization of tailored intricate metallic structures having …

Toward the aim of personalized treatment, three-dimensional (3D) printing technology has
been widely used in bone tissue engineering owing to its advantage of a fast, precise, and …

Commercially pure titanium (CP–Ti) gyroid scaffolds with interconnected pores and high
porosities in the range of 68–73% and three different unit cell sizes of 2, 2.5, and 3 mm were …

Functional graded cellular materials (FGCMs) have attracted increasing attentions for their
improved properties when compared to uniform cellular structures. In this work, graded …

A significant requirement for a bone implant is to replicate the functional gradient across the
bone to mimic the localization change in stiffness. In this work, continuous functionally …

It has been more than three decades since stereolithography began to emerge in various
forms of additive manufacturing and 3D printing. Today these technologies are proliferating …

Bone tissue engineered 3-D constructs customized to patient-specific needs are emerging
as attractive biomimetic scaffolds to enhance bone cell and tissue growth and differentiation …

With the development of three-dimensional (3D) printing technology, porous metal scaffolds
can be well fabricated. In contrast to conventional methods, 3D printing of porous scaffolds is …

Porous and functionally graded materials have seen extensive applications in modern
biomedical devices—allowing for improved site-specific performance; their appreciable …

With the rapid development of flexible electronic devices, current flexible energy storage
devices face great challenge of achieving both high energy and power density. Exploiting …