Implantable biomedical devices (IBDs) have garnered wide-scale attention in recent years
due to their enormous contribution to the biomedical sector. However, an uninterrupted and …

In the present era, self-powered technology and smart materials have paved the way for the
design of numerous implantable energy harvesting and biomedical applications …

Stretchability is an essential property for wearable devices to match varying strains when
interfacing with soft tissues or organs. While piezoelectricity has broad application potentials …

Stimulation of cells with electrical cues is an imperative approach to interact with biological
systems and has been exploited in clinical practices over a wide range of pathological …

Piezoelectricity or piezoelectric effect is a phenomenon by which mechanical energy is
converted into electrical energy and vice versa. Piezoelectric effect has been observed in …

The incidence of large bone defects caused by traumatic injury is increasing worldwide, and
the tissue regeneration process requires a long recovery time due to limited self-healing …

Both piezoelectricity and self-Fenton catalysis are effective ways to degrade water pollution,
but little research has combined them to construct a more efficient water pollution treatment …

Efficient and rapid screening of target materials in a vast material space remains a
significant challenge in the field of materials science. In this study, first-principles …

Piezoelectric nanomaterials are functional materials that hold a great promise for the
nanoscale conversion of mechanical energy and electrical signals. Owing to their excellent …

In this work, a simple process for fabrication of piezoelectric BaTiO 3/P (VDFTrFE)
composites from synthesis to its application as a wearable piezoelectric sensor is presented …