Industrial biotechnology and microbial metabolic engineering are poised to help meet the
growing demand for sustainable, low‐cost commodity chemicals and natural products, yet …

Chitosan is a naturally derived polymer with applications in a variety of industrial and
biomedical fields. Recently, it has emerged as a promising material for biological …

A method to functionalize steerable magnetic microdevices through the co‐electrodeposition
of drug loaded chitosan hydrogels is presented. The characteristics of the polymer matrix …

Individually, advances in microelectronics and biology transformed the way we live our lives.
However, there remain few examples in which biology and electronics have been interfaced …

Twenty years ago, this journal published a review entitled “Biofabrication with Chitosan”
based on the observations that (i) chitosan could be electrodeposited using low voltage …

The last century witnessed spectacular advances in both microelectronics and
biotechnology yet there was little synergy between the two. A challenge to their integration is …

Biology and electronics are both expert at for accessing, analyzing, and responding to
information. Biology uses ions, small molecules, and macromolecules to receive, analyze …

Protein modification methods represent fundamental techniques that are applicable in many
fields. In this study, a site-specific protein cross-linking based on the oxidative tyrosine …

Chemical labeling of proteins with synthetic low-molecular-weight probes is an important
technique in chemical biology. To achieve this, it is necessary to use chemical reactions that …

Microelectronic devices that contain biological components are typically used to interrogate
biology, rather than control biological function. Patterned assemblies of proteins and cells …