Martina O'Toole scite author profile

The ever increasing demand for in situ monitoring of health, environment and security has created a need for reliable, miniaturised sensing devices. To achieve this, appropriate analytical devices are required that possess operating characteristics of reliability, low power consumption, low cost, autonomous operation capability and compatibility with wireless communications systems. The use of light emitting diodes (LEDs) as light sources is one strategy, which has been successfully applied in chemical sensing. This paper summarises the development and advancement of LED based chemical sensors and sensing devices in terms of their configuration and application, with the focus on transmittance and reflectance absorptiometric measurements.

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Determination of phosphate using a highly sensitive paired emitter–detector diode photometric flow detector

O'Toole

Lau

Shepherd

et al. 2007

Analytica Chimica Acta

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The use of a novel inexpensive photometric device, Paired Emitter Detector Diode (PEDD) has been applied to the colorimetric determination of phosphate using the malachite green spectrophotometric method. The novel miniaturized flow detector applied within this manifold is a highly sensitive, low cost, miniaturized light emitting diode (LED) based detector. The optical flow cell was constructed from two LEDs, whereby one is the light source and the second is the light detector, with the LED light source forward biased and the LED detector reversed biased. The photocurrent generated by the LED light source discharges the junction capacitance of the detector diode from 5 V (logic 1) to 1.7 V (logic 0) and the time taken for this process to occur is measured using a simple timer circuit. * Correspondence author: Tel.: +353-1-7005404; fax: +353-1-7008002 email: dermot.diamond@dcu.ie -2 -The malachite green (MG) method employed for phosphate determination is based on the formation of a green molybdophosphoric acid complex, the intensity of which is directly related to phosphate concentration. Optimum analytical parameters such as reaction kinetics, reagent to sample concentration ratio and emitter wavelength intensity were investigated for the spectrophotometric method. Linear calibration plots that obeyed the Beer-Lambert Law were obtained for phosphate in the range of 0.02-2 µM. The dynamic range, sensitivity and limits of detection are reported.

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A low-cost optical sensing device based on paired emitter–detector light emitting diodes

Lau

Baldwin

O'Toole

et al. 2006

Analytica Chimica Acta

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Novel integrated paired emitter-detector diode (PEDD) as a miniaturized photometric detector in HPLC

O'Toole

Lau

Shazmann

et al. 2006

Analyst

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A novel low power, low cost, highly sensitive, miniaturized light emitting diode (LED) based flow detector has been used as optical detector for the detection of sample components in high performance liquid chromatography (HPLC). This colorimetric detector employs two LEDs, one operating in normal mode as a light source and the other is reverse biased to work as a light detector. Instead of measuring the photocurrent directly, a simple timer circuit is used to measure the time taken for the photocurrent generated by the emitter LED (λ max 500 nm) to discharge the detector LED (λ max 621 nm) from 5 V (logic 1) to 1.7 V (logic 0) to give digital output directly without using an A/D converter.Employing a post-column reagent method, a Nucleosil 100-7 (functionalised with iminodiacetic acid (IDA) groups) column was used to separate a mixture of transition metal complexes, manganese (II) and cobalt (II) in PAR. All optical measurements were taken by using both the in built HPLC variable wavelength detector and the proposed paired-emitter- * Correspondence author: Tel.: +353-1-7005404; fax: +353-1-7008002 email: dermot.diamond@dcu.ie

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Inkjet printed LED based pH chemical sensor for gas sensing

O'Toole

Shepherd

Wallace

et al. 2009

Analytica Chimica Acta

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Martina O'Toole

Absorbance Based Light Emitting Diode Optical Sensors and Sensing Devices

Determination of phosphate using a highly sensitive paired emitter–detector diode photometric flow detector

A low-cost optical sensing device based on paired emitter–detector light emitting diodes

Novel integrated paired emitter-detector diode (PEDD) as a miniaturized photometric detector in HPLC

Inkjet printed LED based pH chemical sensor for gas sensing

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