Single-cell printer: automated, on demand, and label free.

Within the past years, single-cell analysis has developed into a key topic in cell biology to study cellular functions that are not accessible by investigation of larger cell populations. Engineering approaches aiming to access single cells to extract information about their physiology, phenotype, and genotype at the single-cell level are going manifold ways, meanwhile allowing separation, sorting, culturing, and analysis of individual cells. Based on our earlier research toward inkjet-like printing of single cells, this article presents further characterization results obtained with a fully automated prototype instrument for printing of single living cells in a noncontact inkjet-like manner.

A modular diffusion barrier based on phase separation for localized delivery of discrete drug volumes in aqueous environments.

We present a new tool for the precisely controlled transfer of individual picoliter (pL) droplets in the range of 150-950 pL at user defined local positions within aqueous liquid environments while avoiding any leakage by diffusion. This is achieved by a low-cost, disposable and biocompatible cap that can be placed on top of any pL-dispenser and generates a phase-gap between dispensing agent and target liquid when the dispenser is dipped into the latter. We developed two different working modes: (i) the standard mode enables an instant injection (<< 1 ms) of the droplet into the liquid environment and (ii) the focus mode further increases the spatial resolution from 100 microm to 50 microm at the cost of slowing down the injection time.

StarTube: a tube with reduced contact line for minimized gas bubble resistance.

In this work we introduce a novel tubing design for multiphase flow that minimizes gas bubble resistance. The design termed "StarTube" has a lamella-like wall structure and was developed to prevent clogging by gas bubbles. This is performed by forcing gas bubbles into the center of the tube by capillary forces, allowing liquid to bypass in the outer grooves.