A flexible toolkit for human gene editing, activation, and repression that can be applied in orthogonally and in various disease models.
A microfluidic lung chip applies controlled mechanical forces to hydrogel-embedded lung cells or organoids to model lung development in vitro.
One-pot combinatorial chemistry for fast and facile synthesis of amidine-incorporated degradable cationic lipids for lipid nanoparticle formulation and non-liver nucleic acid delivery.
Next-generation engineered heart tissue platform that enables precise tuning of mechanical properties of microenvironment to study the structure, development, and function of cultured cells or human-derived cardiac tissues.
A method to generate homogenous and stable inorganic nanoparticles (NPs) using a microfluidic device with two jet inlets.
Simple, plug-and-play biodegradable lipids that form highly potent lipid nanoparticles (LNPs) for CRISPR mRNA delivery, outperforming benchmark gene-editing systems.
A single-frame, multi-exposure time optical method enabling accurate extraction of absolute speckle decorrelation time and optimized for recovery of absolute deep-tissue blood flow.
Antigen-specific immunotherapy with engineered cytotoxic T cells targeting misformed proteins to treat neurodegenerative and muscular diseases.
Technology allowing efficient formation, delivery, isolation, and enrichment of single-copy Human Artificial Chromosome (HAC) for use in research, plant production, gene and cell therapy and more.
An optofluidic platform to detect extracellular vesicles (EVs) at the single-particle level by parallelizing droplet generation and analysis of EVs.