The DeSimone Research Group at Stanford University developed a method for fabricating 3D pyrolytic carbon structures from polyacrylonitrile (PAN) generated by a scalable Vat Polymerization 3D-printing continuous liquid interface production (CLIP) process.
Stanford researchers have developed an innovative replacement of bipolar membrane (BPM) electrodialysis, called bipolar electrode (BPE) to split water into separate streams of protons and hydroxide ions more efficiently and cost effectively.
The Fan Lab at Stanford University has developed an ultra-fast, physics-augmented, deep learning enhanced surrogate field solver for high-speed electromagnetic simulation and optimization. Denoising WaveY-Net uses a two-stage approach to target different field error sources.
For the first time, researchers in Prof. Yan Xia's laboratory have synthesized a new ladder type microporous polymide (PIM) by linking an arene-norbornene building block to a Tröger's base which can be used for high-performance gas separation membranes.
Researchers in the DeSimone Research Group have developed a high-resolution injection Continuous Liquid Interface Production (iCLIP) 3D printing process.
Stanford researchers at the Zare Lab, Department of Chemistry, have developed a simple and eco-friendly method that could potentially produce substantial amounts of ammonia and urea, both of which are primarily used in fertilizer.
Background: Researchers at Stanford have discovered a method to create lattice microneedle structures using high resolution continuous liquid interface printing (CLIP) technology.
Researchers in the Burns group at Stanford designed a reaction methodology that allows for a green and inexpensive cycloaddition of amine or amide-containing unactivated olefins for the synthesis of biologically relevant cyclobutanes.
Stanford researchers have developed a novel approach to make a stable and active platinum-alumina catalyst that maintains high activity under harsh conditions.
Researchers at Stanford have developed an additive manufacturing approach, called VIA, that enables rapid printing of solid 3D geometries with high viscosity composite resins and multimaterials.
Stanford researchers have engineered yeast strains for de novo biosynthesis of tetrahydropapaverine (THP) and a semi-synthetic production of papaverine with high efficiency.
Stanford researchers have designed a light-driven bimetallic alloyed plasmonic photocatalyst that can both effectively and selectively catalyze heterogenous hydrogenation.
Measurement of dissolved CO2 has critical applications in healthcare monitoring and consumer goods quality control, yet is difficult to measure directly.