Metal organic frameworks based microcantilever gas sensors for detection of volatile organic compoundsReport as inadecuate


Metal organic frameworks based microcantilever gas sensors for detection of volatile organic compounds


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Metal Organic Frameworks MOFs are a new class of nanoporous materials with high surface area, thermal-chemical stability and a taylorable pore size. These properties make MOFs ideal for storage and gas separation applications. Piezoresistive microcantilever sensors are microfabricated devices that are highly sensitive to surface strain due to doped single crystal silicon regions. Changes in resistance generated by surface strain can be measured with a high degree of accuracy using a Wheatstone bridge and basic instrumentation. This thesis will discuss the use of piezoresistive microcantilever sensors as a transduction mechanism for detection of volatile organic compounds VOC-s using MOF coatings. It will be shown that by coating a microcantilever with MOFs it is possible to detect low levels of different VOC-s hundreds of parts per million. Excellent sensitivity and a simple transduction mechanism make these devices low power and highly compact. Such devices would be capable of detecting a plethora of different analytes at low concentrations. Devices were engineered for maximum response and microfabricated in the cleanroom with high yield. A custom setup for testing the devices was designed and machined. A number of MOFs were selected and tested, their response was recorded and analyzed. Twelve different analytes including eleven VOC-s and water were used to characterize the MOFs. Microcantilever sensors were shown to be durable, reliable and stable in long term testing despite being subjected to many different analytes. MOF coatings proved flexible, durable, stable and reversible. This work will show a promising new technology for a next generation gas sensor.



Georgia Tech Theses and Dissertations - School of Mechanical Engineering Theses and Dissertations -



Author: Ellern, Ilya - -

Source: https://smartech.gatech.edu/







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