Obtaining a high signal-to-noise ratio requires a probe that is highly sensitive, and a means for efficient and effective transfer of sample to the detection region of the probe without compromise to the condition of the sample.  Capillary scale fluidics are far superior to conventional-scale transfer tubing in their ability to accurately, reproducibility, and reliably transfer samples to the probe.  Detrimental forces of nature that lead to peak broadening and dilution in conventional-scale tubing are virtually eliminated at the capillary scale.  This is particularly important in NMR, where often the sample preparation and control instrumentation are physically distant from the magnet, to preserve the 5G safety line.  Microflow NMR means that you can prepare your sample, and inject it reliably in a format that is not diminished as it passes through the transfer line.   Simple, economic operation, with high performance results – the microflow way.