Hydrogel Patterning with Catechol Enables Networked Electron Flow

electron transistors fabricated with sidewall spacer patterning

Detection of virus particles by electron microscopy with polyacrylamide hydrogel.

The use of lyphogel to concentrate the number of virus particles in specimens for electron microscopic examination was studied in parallel with ultracentrifugation. One hundred faecal and urine samples were compared. Both methods had a similar sensitivity. Lyphogel was economical, simple, and rapid in use; in contrast to ultracentrifugation, it required relatively little material. The procedure...

Dynamic growth program regulated by LANCEOLATE enables flexible leaf patterning.

During their development, leaves progress through a highly controlled yet flexible developmental program. Transcription factors from the CIN-TCP family affect leaf shape by regulating the timing of leaf maturation. Characterization of mutants in the tomato (Solanum lycopersicum) CIN-TCP gene LANCEOLATE (LA) led us to hypothesize that a threshold LA-like activity promotes leaf differentiation. H...

Digital Plasmonic Patterning for Localized Tuning of Hydrogel Stiffness.

The mechanical properties of the extracellular matrix (ECM) can dictate cell fate in biological systems. In tissue engineering, varying the stiffness of hydrogels-water-swollen polymeric networks that act as ECM substrates-has previously been demonstrated to control cell migration, proliferation, and differentiation. Here, "digital plasmonic patterning" (DPP) is developed to mechanically alter ...

Simple benchtop patterning of hydrogel grids for living cell microarrays.

A living cell microarray consists of an orderly arrangement of cells attached to a solid support such as a glass microscope slide. The chief difficulty of obtaining such arrays is the fabrication of substrates patterned with micro-wells, adhesive spots, or other features to guide orderly cell attachment. Here we report a novel method using woven Nylon mesh to micropattern three-dimensional algi...