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Browsing by Author "Munro, Ian"
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2x Personal Electrostatic Biocollector Prototype(s) (STRATA) - (D05) : Worn bio-detector Phase 1
Johnston, Ian; Tracey, Mark; School of Engineering and Technology; Enterprise and Business Development; Micro Electro-Mechanical Systems; Centre for Engineering Research; Centre for Hazard Detection and Protection Research; Microfluidics and Microengineering; Department of Engineering and Technology; McCluskey, Daniel; Munro, Ian; Coudron, Loic (UH MEMS, 2017-05-04)The design and development of two man worn Electrostatic Precipitator (ESP) aerosol collection platform prototypes. These prototypes should interface with a, co-developed, laboratory particle recovery instrument exploiting ... -
2x Prototype ASEF Systems - (D10) : Automated Sample Extraction from Filters
Johnston, Ian; Tracey, Mark; Lodge, Matthew; Kaye, Richard; Baxter, Richard; School of Engineering and Technology; Science & Technology Research Institute; Centre for Engineering Research; Centre for Hazard Detection and Protection Research; Microfluidics and Microengineering; Department of Engineering and Technology; Munro, Ian; McCluskey, Daniel (UH MEMS, 2015-03-11)The Automated Sample Extraction from Filters (ASEF) unit is a prototype automated aerosol sample extraction unit. The application is for the detection and identification of pathogenic micro-organisms (bacteria and viruses) ... -
Agreed Design Specification - (D05) : Automated Sample Extraction from Filters
McCluskey, Daniel; Johnston, Ian; Tracey, Mark; Munro, Ian; Kaye, Richard; Baxter, Richard; Lodge, Matthew (RED Scientific, 2014-11-18) -
Agreed Interface Control Documentation - (D02) : Automated Sample Extraction from Filters
McCluskey, Daniel; Munro, Ian; Johnston, Ian; Tracey, Mark (RED Scientific, 2014-01-13) -
Agreed Interface Control Documentation -(D04) : Automated Sample Processing Unit for Incorporation into a Biological Identification System
Johnston, Ian; Tracey, Mark; McCluskey, Daniel; Tan, Christabel; Munro, Ian (UH MEMS, 2015-09-30) -
Agreed Requirement Functional Specification - (D01) : Automated Sample Processing Unit for Incorporation into a Biological Identification System
Johnston, Ian; Tracey, Mark; McCluskey, Daniel; Tan, Christabel; Munro, Ian (UH MEMS, 2014-07-31) -
Agreed Test Specifications - (D06) : Automated Sample Extraction from Filters
McCluskey, Daniel; Johnston, Ian; Tracey, Mark; Tan, Christabel; Munro, Ian; Kaye, Richard; Baxter, Richard; Lodge, Matthew (RED Scientific, 2014-11-19) -
ASEF Performance Report - (D07) : Automated Sample Extraction from Filters
McCluskey, Daniel; Johnston, Ian; Tan, Christabel; Tracey, Mark; Munro, Ian (RED Scientific, 2014-12-19) -
Controlled Actuation of Self-Propelled Droplets
Coudron, Loic; Lemenu, Clément; Lemaine, Kevin; McCluskey, Daniel; Tan, Christabel; Munro, Ian; Holdo, Arne; Tracey, Mark; Johnston, Ian (2020-10-09)In this paper we present controlled self-propelled actuation of droplets employing Laplace pressure gradients between two non-parallel superhydrophobic plates. For small angles (cos β ≈ 1) a simplification of available ... -
Delivery of Prototype Automated Sample Processing Unit for Incorporation into a Biological Identification System
Tan, Christabel; Tracey, Mark; School of Engineering and Technology; Enterprise and Business Development; Micro Electro-Mechanical Systems; Centre for Engineering Research; Centre for Hazard Detection and Protection Research; Microfluidics and Microengineering; Department of Engineering and Technology; Johnston, Ian; McCluskey, Daniel; Lodge, Matthew; Munro, Ian (UH MEMS, 2017-02-28) -
Design & Development of the electronics and control system - (D6.1): Worn Bio-detector Phase 2
McCluskey, Daniel; Munro, Ian; Coudron, Loic (UH, 2017-10-31) -
Design of a high efficiency cyclone for collection of rare and low concentration airborne pathogens
Baxter, Richard; Johnston, Ian; Kaye, Richard; Munro, Ian; Tracey, Mark; Day, Rodney; McCluskey, Daniel (2017-03-16)Recent serious outbreaks of pathogens such as Chalara Fraxinea, (Ash Dieback) demonstrate the vulnerability of UK’s forests, woods, and trees. Early detection of threats is critical in the fight against such tree pests and ... -
Design Review of ESP/EWOD/ESP Translation Mechanisms - (D3.1): Worn Bio-detector Phase 2
McCluskey, Daniel; Lodge, Matthew; Coudron, Loic; Munro, Ian (UH, 2017-10-31) -
Design Specification Report - (D03) : Automated Sample Processing Unit for Incorporation into a Biological Identification System
Johnston, Ian; Tracey, Mark; McCluskey, Daniel; Munro, Ian; Tan, Christabel (UH MEMS, 2015-05-20) -
Development of an automated smart trap for wheat pathogens
Kaye, Richard; Johnston, Ian; Baxter, Richard; Munro, Ian; Tracey, Mark; Day, Rodney; McCluskey, Daniel (2017-03-16)National surveys show fungicide use on wheat continues to increase despite fluctuations in disease pressure, reaching a 30 year high in 2012 (Defra). Septoria tritici is the most significant foliar disease in UK wheat ... -
Development report EnviGuard Port physical components (D5.4)
Suckow, Bjorn; Johnston, Ian; Hanken, Thomas; Dortu, Fabian; Riesgo, Teresa; Veenstra, Theo; Munro, Ian (Technologie-Transfer-Zentrum Bremerhaven, 2017-01-19) -
Electromagnetic Actuated Stiring in Microbioreactor Enabling Easier Multiplexing and Flexible Device Design
Davies, M. J.; Munro, Ian; Tan, Christabel; Tracey, M.C.; Szita, Nicolas (2014-09-07)The development of a novel electromagnetically (EM) actuated stirring method, for use in microbioreactors, is reported. Mixing in microbioreactors is critical to ensure even distribution of nutrients to microorganisms and ... -
Electromagnetic Stirring in a Microbioreactor with Non-conventional Chamber Morphology and Implementation of Multiplexed Mixing
Tan, Christabel; Davies, Matthew; McCluskey, Daniel; Munro, Ian; Nweke, Mauryn; Tracey, M.C.; Szita, Nicolas (2015-10-31)Background: Microbioreactors have recently emerged as novel tools for early bioprocess development. Mixing lies at the heart of bioreactor operation (at all scales), and the successful implementation of micro-stirring ... -
Electrowetting on Dielectric (EWOD) prototype recovery platform - (D06) : Worn bio-detector Phase 1
Tracey, Mark; Johnston, Ian; School of Engineering and Technology; Enterprise and Business Development; Micro Electro-Mechanical Systems; Centre for Engineering Research; Centre for Hazard Detection and Protection Research; Microfluidics and Microengineering; Department of Engineering and Technology; Munro, Ian; Coudron, Loic; McCluskey, Daniel (UH MEMS, 2017-05-04)The design and development of a laboratory particle recovery instrument exploiting Electrowetting on Dielectric (EWOD) techniques. This instrument should interface with the, codeveloped, man worn Electrostatic Precipitator ... -
Electrowetting-Based Digital Microfluidics Platform for Automated Enzyme-linked Immunosorbent Assay
Dimov, Nikolay; McDonnell, M.B.; Munro, Ian; McCluskey, Daniel; Johnston, Ian; Tan, Christabel; Coudron, Loic (2020-02-23)Electrowetting is the effect by which the contact angle of a droplet exposed to a surface charge is modified. Electrowetting-on-dielectric (EWOD) exploits the dielectric properties of thin insulator films to enhance the ...