Brian J. Rodriguez

TL;DR: This work demonstrates how collagen can be used as a bioelectronics substrate with tunable properties, thereby expanding its application range from transient to more permanent implantable electronics.

TL;DR: It is shown that, in cases when representative molecular conformations can be identified for the corresponding Markovian states, and thus their corresponding collective evolution of atomic positions can be calculated along MD trajectories, one can use them to build a new type of simple collective variable, which can be particularly useful in both the correct state assignment and in the subsequent accurate counting of inter-state transition probabilities.

TL;DR: In this article, the authors discuss the applications of force-sensitive voltage modulated scanning probe microscopy (SPM) for probing electrical phenomena at solid-liquid interfaces and outline the key challenges and opportunities that exist in the field of nanoscale electrical measurements in liquid.

TL;DR: The critical survival rate improvement of hiPS derived cortical neuronal cells on PHPV/PCL blend holds promise in using these biocompatible nanofibers as implantable materials for regenerative purposes of an active cortical neuronal population after full maturation in vitro.

TL;DR: The ability to probe ferroelectric properties at the nanoscale by piezoresponse force microscopy (PFM) has enabled fundamental studies of polarization dynamics and the role of defects and disorder on domain nucleation and wall motion and has led to advances in the design and implementation of such applications as discussed by the authors.