Greggory Murray scite author profile

Robotic positioning systems are used in a variety of chemical instruments, primarily for liquid handling purposes, such as autosamplers from vials or well plates. Here, two approaches to the design of open-source autosampler positioning systems for use with 96-well plates are described and compared. The first system, a 3-axis design similar to many low-cost 3D printers that are available on the market, is constructed using an aluminum design and stepper motors. The other system relies upon a series of 3D printed parts to achieve movement with a series of linker arms based on Selective Compliance Assembly Robot Arm (SCARA) design principles. Full printer design files, assembly instructions, software, and user directions are included for both samplers. The positioning precision of the 3-axis system is better than the SCARA mechanism due to finer motor control, albeit with a slightly higher cost of materials. Based on the improved precision of this approach, the 3-axis autosampler system was used to demonstrate the generation of a segmented flow droplet stream from adjacent wells within a 96-well plate.

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Advanced Digital TV System.

Erdelsky¹,

Keele²,

Murray³

et al. 1979

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Digital Walsh Filter Design

Murray

1971

IEEE Trans. Electromagn. Compat.

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Greggory Murray

Utility of low-cost, miniaturized peristaltic and Venturi pumps in droplet microfluidics

Evaluating Deep Learning Algorithms for Real-Time Arrhythmia Detection

Comparison of design approaches for low-cost sampling mechanisms in open-source chemical instrumentation

Advanced Digital TV System.

Digital Walsh Filter Design

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