Themed collection Early Stage Investigator Honorees of the ACS Polymeric Materials Science & Engineering Division

This perspective examines lithium morphology in solid and gel polymer electrolytes, highlighting the importance of current density and mechanical properties in controlling Li morphology, and noting limitations in understanding the solid electrolyte interphase in polymer systems.

Breakthroughs in biomaterials science have paved the way for significant advancements in the stabilization of hypoxia-inducible factor-α (HIF-α). This approach holds exciting prospects for the therapeutic use of cellular responses to low oxygen.

A review discussing aqueous two-phase systems (ATPS), their utility, and many different approaches for stabilizing their water/water (w/w) emulsions.

This review showcases how 2D nanomaterial-based aerogels can be integrated with PCMs, marking a milestone in interdisciplinary research. It covers the latest breakthroughs in aerogel fabrication and their potential applications in composite PCMs.

The in situ HF acid etching of Ti₃AlC₂ yielded multilayered Ti₃C₂. Sonication delaminated nanosheets, suspended in DI water, post rheological optimization 3D printed using DIW platform to produce conductive patterns of MXene.

Incorporating atomically thin graphene into proton exchange membranes (PEMs) via scalable and facile processes presents the potential for advancing energy conversion and storage applications while mitigating persistent issues of undesired species crossover.

Glass-fiber-reinforced polymeric films for a stable Li-metal electrode: unraveling the key attributes of efficient protecting layers.

Comparative study investigates nitric oxide (NO)-releasing polymer composites with metal nanoparticles, revealing differential flux and biological effects, emphasizing the importance of a layered design for optimal NO release and biocompatibility.

Graft polymers with a conjugated backbone were synthesized and fabricated into nanoparticles demonstrating improved photoluminescence through reduced aggregation.

In this study, we demonstrate that vanillin is a valuable source of aromaticity that can be explored for poly(hydroxy urethane) production with competitive properties, avoiding the use of oil-based or hazardous precursors.

Multi Jet Fusion (MJF) is a 3D-printing process capable of fabricating large-scale polymer structures. Herein, we present a framework for MJF-printed lattices with tunable stiffness and strength based on an empirical analysis of structural behavior.