Nanoscopic interactions of colloidal particles can suppress millimetre drop splashing.

The splashing of liquid drops onto a solid surface is important for a wide range of applications, including combustion and spray coating. As the drop hits the solid surface, the liquid is ejected into a thin horizontal sheet expanding radially over the substrate. Above a critical impact velocity, the liquid sheet is forced to separate from the solid surface by the ambient air, and breaks up into smaller droplets.

A novel ingestible electronic drug delivery and monitoring device.

Background: We developed an ingestible electronic drug delivery and monitoring system. This system includes an electronic capsule comprising a drug reservoir, a pH and temperature sensor, a microprocessor and wireless transceiver, a stepper motor, and batteries. The location of the capsule in the gut derived from pH data can be monitored in real time.

Real time quantitative amplification detection on a microarray: towards high multiplex quantitative PCR.

Quantitative real-time polymerase chain reaction (qrtPCR) is widely used as a research and diagnostic tool. Notwithstanding its many powerful features, the method is limited in the degree of multiplexing to about 6 due to spectral overlap of the available fluorophores. A new method is presented that allows quantitative amplification detection at higher multiplexing by the integration of amplification in solution and monitoring via hybridization to a microarray in real-time.

Immobilization of oligonucleotides with homo-oligomer tails onto amine-functionalized solid substrates and the effects on hybridization.

Microarrays have become important tools for the detection and analysis of nucleic acid sequences. Photochemical (254 nm UV) DNA immobilization onto amine-functionalized substrates is often used in microarray fabrication and Southern blots, although details of this process and their effects on DNA functionality are not well understood. By using Cy5-labeled model oligonucleotides for UV immobilization and Cy3-labeled complementary sequences for hybridization, we measured independently the number of immobilized and hybridized oligonucleotides on the microarray surface.

Relaxation times in single event electrospraying controlled by nozzle front surface modification.

Single event electrospraying (SEE) is a method for on-demand deposition of femtoliter to picoliter volumes of fluids. To determine the influence of the size of the meniscus on the characteristics of the single event electrospraying process, glass capillaries were used with and without an antiwetting coating comprising a self-assembled 1H,1H,2H,2H-perfluorodecyltrichlorosilane-based monolayer to control the meniscus size. A large difference was found in driving single event electrospraying from a small meniscus compared to what is needed to generate a single event electrospraying from a large meniscus.

Quality control of inkjet technology for DNA microarray fabrication.

A robust manufacturing process is essential to make high-quality DNA microarrays, especially for use in diagnostic tests. We investigated different failure modes of the inkjet printing process used to manufacture low-density microarrays. A single nozzle inkjet spotter was provided with two optical imaging systems, monitoring in real time the flight path of every droplet.

Fluid dynamical analysis of the distribution of ink jet printed biomolecules in microarray substrates for genotyping applications.

Oligonucleotide microarrays are tools used to analyze samples for the presence of specific DNA sequences. In the system as presented here, specific DNA sequences are first amplified by a polymerase chain reaction (PCR) during which process they are labeled with fluorophores. The amplicons are subsequently hybridized onto an oligonucleotide microarray, which in our case is a porous nylon membrane with microscopic spots.