Brain–computer interface (BCI) has been the subject of extensive research recently.
Governments and companies have substantially invested in relevant research and …

Polyimides (PIs) represent a benchmark for high-performance polymers on the basis of a
remarkable collection of valuable traits and accessible production pathways and therefore …

Surface topography impacts on cell growth and differentiation, but it is not trivial to generate
defined surface structures and to assess the relevance of specific topographic parameters …

Flexible electronics based on piezoelectric/triboelectric devices is an attractive technology
for human sensing. Their hybridization overcomes the limitations of single components …

Laser-induced graphene (LIG) is a three-dimensional porous material directly scribed from
polymer materials by a CO 2 laser in the ambient atmosphere. We review the formation …

Tissue engineering is a promising strategy to treat tissue and organ loss or damage caused
by injury or disease. During the past two decades, mesenchymal stem cells (MSCs) have …

Biomedical electronic devices have enormous benefits for healthcare and quality of life. Still,
the long‐term working of those devices remains a great challenge due to the short life and …

Neurological diseases are a prevalent cause of global mortality and are of growing concern
when considering an ageing global population. Traditional treatments are accompanied by …

The implantable electronic devices have attracted great attention for solving clinical
problems ranging from monitoring psychological states to electro‐organ transplantation. The …

In order to be used as a material for neural prostheses, polyimide has to withstand the body
environment over years. To obtain more information about the long-term stability of this …