![]() We provide seven example procedures for laboratory routines that can be expedited by implementing this technology: (i) injection of microliter-volume liquid plugs into microscale capillaries for low-volume assays (ii) transfer of liquid extract to a mass spectrometer (iii) liquid–gas extraction of volatile organic compounds (called ‘fizzy extraction’), followed by mass spectrometric detection (iv) monitoring of experimental conditions over the Internet cloud in real time (v) transfer of analytes to a mass spectrometer via a liquid microjunction interface, data acquisition, and data deposition into the Internet cloud (vi) feedback control of a biochemical reaction and (vii) optimization of sample flow rate in direct-infusion mass spectrometry. This protocol shows how chemists and biochemists can utilize a broad range of microcontroller boards (MCBs) and single-board computers (SBCs) to improve experimental designs and address scientific questions. The notion of the ‘fourth industrial revolution’ promotes construction of customized systems by individuals using widely available, inexpensive electronic modules. ![]() Since the advent of modern science, researchers have had to rely on their technical skills or the support of specialized workshops to construct analytical instruments.
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