Microscale implantable drug delivery systems (IDDSs) have advanced the control of drug delivery parameters, providing better disease control through more accurate, targeted and less painful drug ...

A new study finds that robust superlubricity can be achieved using graphite and hexagonal boron nitride, which exhibit ultra-low friction and wear. This is an important milestone for future ...

In the ever-evolving landscape of technological innovation, the combination of precision engineering and additive manufacturing has given rise to a revolutionary concept: microscale 3D printing. This ...

Knots are known for boosting the strength of materials, from the tiniest twists of DNA to (potentially) the very fabric of the universe. Now, Caltech engineers have developed a new material consisting ...

A recent article in Nature Chemical Engineering presented a microscale, soft, and flexible lithium-ion droplet battery (LiDB), developed using lipid-supported droplets synthesized from a biocompatible ...

3D printed microparticles have a variety of uses, including the development of microelectronics and pharmaceuticals, and the manufacturing of complex parts, but they require precise control and manual ...

In this first of a two-part series, Boas shares insights into this groundbreaking work on drug delivery for liver cancer—work that is changing how, and where, we can fight tumors. Traditionally, ...

Mono Mohan Singh, professor of chemistry at Merrimack College, instructs a student in microscale chemistry. Photo courtesy of Merrimack College. Click here to enlarge image Of increasing concern to ...

Yttria Partially Stabilized Zirconia (YPSZ) is a high toughness ceramic which has recently found increasing use in the production of dental prostheses [1]. In order to deliver a finish which is ...