Novel computational model captures the interplay of light, heat, diffusion and reaction kinetics to predict material properties in photopolymerization with unprecedented accuracy.
Materials scientists are shedding light on the intricate growth processes of 2D crystals, paving the way for controlled synthesis of these materials with unprecedented precision.
A study introduces a novel method for calibrating the spring constant of FluidFM micropipette cantilevers, crucial for the accurate measurement of forces in microfluidic environments. This method addresses the limitations of current calibration techniques, offering a significant advancement in the field of force microscopy.
Broadly applicable vaccine platform enables enhanced anti-tumor responses through nanometer-precise spacing of adjuvant molecules and a variety of antigens.
A printable organic polymer that assembles into chiral structures when printed has enabled researchers to reliably measure the amount of charge produced in spin-to-charge conversion within a spintronic material at room temperature.
A new process for microscale 3D printing creates particles of nearly any shape for applications in medicine, manufacturing, research and more - at the pace of up to 1 million particles a day.
