The development of fiber materials has accompanied the evolution of human civilization for
centuries. Recent advances in materials science and chemistry offered fibers new …

During natural tissue regeneration, tissue microenvironment and stem cell niche including
cell–cell interaction, soluble factors, and extracellular matrix (ECM) provide a train of …

Textiles have been concomitant of human civilization for thousands of years. With the
advances in chemistry and materials, integrating textiles with energy harvesters will provide …

Tethered and battery-powered devices that interface with neural tissues can restrict natural
motions and prevent social interactions in animal models, thereby limiting the utility of these …

Nowadays, the human body is gradually digitized by various wearable and implantable
electronics. The establishment of a sustainable wireless internet of thing (IoT) sensory …

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 …

Implantable energy harvesters (IEHs) are the crucial component for self-powered devices.
By harvesting energy from organisms such as heartbeat, respiration, and chemical energy …

The amalgamation of flexible electronics in biological systems has shaped the way health
and medicine are administered. The growing field of flexible electrochemical bioelectronics …

Life in our planet is highly dependent on plants as they are the primary source of food,
regulators of the atmosphere, and providers of a variety of materials. In this work, we review …

From every heartbeat to every footstep, human beings dissipate energy all the time.
Researchers are trying to harvest energy from the human body and convert it into electricity …