Nanotechnology has revealed the science of the nanoscale. The global challenge that will
follow is to build functional materials with the knowledge of nanoscale phenomena. This task …

The great success of controlled radical polymerizations has encouraged researchers to
develop more facile and robust approaches for surface‐initiated polymerizations (SIPs) to …

The gut microbiota represents a large community of microorganisms that play an important
role in immune regulation and maintenance of homeostasis. Living bacteria receive …

Hydrogels are one of the most commonly explored classes of biomaterials. Their chemical
and structural versatility has enabled their use across a wide range of applications, including …

Nano-bioelectronics represents a rapidly expanding interdisciplinary field that combines
nanomaterials with biology and electronics and, in so doing, offers the potential to overcome …

Promoted understanding of nanostructures and their functions significantly rely on rapid
progress of nanotechnology within a few decades. It would be a fruitful way to consider …

Materials fabrication with nanoscale structural precision based on bottom-up-type self-
assembly has become more important in various current disciplines in chemistry including …

Biomolecule-polymer conjugates are constructs that take advantage of the functional or
otherwise beneficial traits inherent to biomolecules and combine them with synthetic …

Bottom‐up tissue engineering is a promising approach for designing modular biomimetic
structures that aim to recapitulate the intricate hierarchy and biofunctionality of native human …

We developed a method for the fabrication of novel biodegradable nanoparticles (NPs) from
lignin which are apparently non‐toxic for microalgae and yeast. We compare two alternative …