Nathaniel J. Brown scite author profile

The ability to detect radiation in microfluidic devices is important for the on-chip analysis of radiopharmaceuticals, but previously reported systems have largely suffered from various limitations including cost, complexity of fabrication, and insufficient sensitivity and/or speed. Here, we present the use of sensitive, low cost, small-sized, commercially available silicon photomultipliers (SiPMs) for the detection of radioactivity inside microfluidic channels fabricated from a range of conventional microfluidic chip substrates. We demonstrate the effects of chip material and thickness on the detection of the positron-emitting isotope, [(18)F]fluoride, and find that, while the SiPMs are light sensors, they are able to detect radiation even through opaque chip materials via direct positron and gamma (γ) ray interaction. Finally, we employed the SiPM platform for analysis of the PET (positron emission tomography) radiotracers 2-[(18)F]fluoro-2-deoxy-d-glucose ([(18)F]FDG) and [(68)Ga]gallium-citrate, and highlight the ability to detect the γ ray emitting SPECT (single photon emission computed tomography) radiotracer, [(99m)Tc]pertechnetate.

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Designing for assembly quality: strategies, guidelines and techniques

Booker

Swift

Brown

2005

Journal of Engineering Design

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of Bristol, UK ‡University of Hull, UK Component design decisions and choice of assembly technology ultimately impact on the final quality of a product. Problems may arise when a component's design puts limits on the technical performance of an assembly operation. Recently, efforts have been focused on predicting component quality levels through variability and process capability measures at the design stage, but the variability associated with assembly operations is rarely considered in the context of quality. This paper reviews the current assembly-orientated design techniques available to detect potential quality problems and identifies the key issues relating to assembly quality, including the relationship between the components, operations and assembly technologies used. An approach is presented for highlighting potential assembly variability problems early in the design process and its application is demonstrated through the use of an industrial case study.

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High energy gamma-ray spectroscopy with LaBr3 scintillation detectors

Quarati

Owens

Dorenbos

et al. 2011

Nuclear Instruments and Methods in Physics Research Section A:

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Industrial-strength management strategies

Brown¹

1996

IEEE Softw.

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Positron detection in silica monoliths for miniaturised quality control of PET radiotracers

et al. 2016

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