Advances in nanomedicine, including early cancer detection, targeted drug delivery, and
personalized approaches to cancer treatment are on the rise. For example, targeted drug …

Advances in biomaterials for drug delivery are enabling significant progress in biology and
medicine. Multidisciplinary collaborations between physical scientists, engineers, biologists …

Wireless on-demand drug delivery systems exploit exogenous stimuli—acoustic waves,
electric fields, magnetic fields and electromagnetic radiation—to trigger drug carriers. The …

Pharmaceutical drugs are an important part of the global healthcare system, with some
estimates suggesting over 50% of the world's population takes at least one medication per …

Hydrogel delivery systems can leverage therapeutically beneficial outcomes of drug delivery
and have found clinical use. Hydrogels can provide spatial and temporal control over the …

Degradable polymer matrices and porous scaffolds provide powerful mechanisms for
passive, sustained release of drugs relevant to the treatment of a broad range of diseases …

Medicine relies on the use of pharmacologically active agents (drugs) to manage and treat
disease. However, drugs are not inherently effective; the benefit of a drug is directly related …

Over the past century, hydrogels have emerged as effective materials for an immense variety
of applications. The unique network structure of hydrogels enables very high levels of …

Silicon carbide (SiC) is recognized as a notable semiconductor because of its outstanding
characteristics, for instance wide-bandgap, outstanding magnetic properties, extraordinary …

With the advancement in medical science and understanding the importance of
biodistribution and pharmacokinetics of therapeutic agents, modern drug delivery research …