Liquid phase epitaxial growth of InAs←0←.←9←1Sb←0←.←0←9 and fabrication of 4.2#mu#m light emitting diodes for carbon dioxide detection

Mao, Youxin

January 1995

No description available.

530.41

Gas sensors

Studies of some metal phthalocyanines for gas sensor applications

Mohammed, K. A.

January 1987

No description available.

530.41

Semiconductor gas sensors

An investigation into the production process controlling the manufacture and operation of thick-film tin (IV) oxide gas sensitive devices

Sizeland, Eliot

January 1994

No description available.

621.381045

Gas sensors

The development and characterisation of conducting polymer based sensors for use in an electronic nose

Blair, Neil

January 1994

No description available.

541

Gas sensors; Electrochemistry

Modelling and characterisation of conducting polymer chemoresistors

Ingleby, Paul

January 1999

No description available.

541

Chemical gas sensors

The investigation of colloidal based conducting polymer films for chemical sensor applications

Evans, Phillip

January 1999

No description available.

541

Gas sensors

The study of heats of adsorption of gases of thin organic films using a novel interferometric micro-calorimeter

Lione, Richard

January 1993

No description available.

541

Gas sensors

Studies of tin oxide gas sensors for gas chromatographic detection

Ash, Peter William

January 1990

Gas sensitive semiconductors have been known for many years and applied in static gas alarm systems for the monitoring of hazardous gases, however, their application has been limited by a lack of selectivity. In this work a semiconducting gas sensor has been configured for use as a gas chromatographic detector thus combining the sensitivity of semiconductor sensors with the selectivity of gas chromatography. The study has been confined to tin oxide devices, more specifically the Taguchi gas sensor (TGS) . The majority of this work has concentrated on the TGS 813 although the use of other TGS is described. The development of suitable instrumentation is described and rigorous optimisation of the operating parameters e.g. heater voltage and column temperature has been performed using the variable step size simplex technique. Attention was concentrated on the response of the TGS 813 to hydrogen which was used as a test gas. A novel figure of merit, response multiplied by retention time and divided by skew factor was designed so that optimum response was obtained whilst maintaining adequate chromatographic separation. Optimum conditions were verified by univariate searches and the response was observed to be most dependant upon heater voltage. A limit of detection of 20 ppb v/v of hydrogen in a 1 ml sample was obtained at optimal conditions. Illustrative analyses of hydrogen were performed in human breath and laboratory air with results found to be in close agreement with literature values. Calibration was found to be linear over at least three orders of magnitude. The response of the TGS 813 to low molecular weight alkanes has also been investigated. It was observed that different heater voltage optima existed for each of the C1-C5 alkanes and that the sensor was relatively more sensitive to the higher molecular weight compounds. As with hydrogen linear response was obtained over at least three orders of magnitude and an illustrative analysis of natural gas showed excellent agreement with known levels. A compromise optimum heater voltage was used to study the response of the TGS 813 to alcohols, aldehydes, ketones and some Cs hydrocarbons. Capillary columns were used in this investigation and it was noted that they had potentially wider application than packed columns due to the use of an inert carrier with an air make-up flow to the detector. This replaced the air carrier gas used previously which might degrade certain stationary phases. Three different types of TGS: the 813; 822 and 831 were used in a study of the response and skew factor for the detection of halogen-containing compounds. Very high skew factors were often observed, although, for some compounds it appeared that symmetrical peaks could be obtained within narrow heater voltage ranges. Skewed response was observed to be dependant upon sensor type, heater voltage and halogen proportion and type. Analysis of the three sensor types was performed and differences in potential surface area and tin oxide additives observed. The presence of additives was observed to adversely affect sensor recovery.

530.41

Semiconductor gas sensors

Characterization of functionalized and unfuctionalized metal oxide nanoparticle interactions with gas mixtures on porous silicon

Laminack, William I.

21 September 2015

In order to create more sensitive and accurate gas sensors, we have studied the interactions of gas mixtures on metal oxide nanoparticle decorated porous silicon interfaces. The nanoparticles control the magnitude and direction of electron transduction from the interaction of analyte gases to an extrinsic porous silicon semiconductor. These interactions can be predicted by the Inverse Hard Soft Acid Base (IHSAB) principle. Moreover, the metal oxide nanoparticles can be functionalized with nitrogen and sulfur, modifying the oxide’s band structure. These modifications are demonstrated to change analyte interactions in line with the IHSAB concept and allow for light enhanced sensors. Further we looked at how the analyte gases interact with other analyte gases on the surface of these sensors. Studying these systems does two things, first the research will lead to cheaper, more accurate gas sensors, and second it helps explore the role of nanoparticles in modifying the interactions between bulk materials (porous silicon) and molecules (analyte gases).

Gas sensors

Porous silicon

Nanoparticles

Microelectrodes in analysis

Hodgson, Alexia Wilgith Elsa

January 1998

No description available.

541

Gas sensors; Electrochemistry; Silicate