Thermistor based nano-needle for single cell thermal characterization
Cell's intracellular temperature has shown to have a vital role in controlling a cell's conditions, properties, activities, and the cell response towards external stimuli. Yet, Current conventional methods are not able to give accurate or any measurements when spatial resolution decreases...
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my.utm.390732017-09-26T07:07:14Z http://eprints.utm.my/id/eprint/39073/ Thermistor based nano-needle for single cell thermal characterization Abdullah Binslem, Salma Ahmad, Mohd. Ridzuan TK Electrical engineering. Electronics Nuclear engineering Cell's intracellular temperature has shown to have a vital role in controlling a cell's conditions, properties, activities, and the cell response towards external stimuli. Yet, Current conventional methods are not able to give accurate or any measurements when spatial resolution decreases to a micro scale. Many researches from different field are trying to develop ways that give high accuracy and high temperature sensitivity. We present here a Nano-needle microfluidic system for single cell temperature measurement; however, here we discussed the optimization using finite element approach of the sensor design using tungsten as the electrodes, and semiconducting metal oxide Co3O4 as the sensing material. The dimension of the sensor that gave the highest voltage thus highest sensitivity were ratio 1:4 of element diameter/electrode cross sectional area, a gap of 450nm between electrodes and a penetration depth of 0.25 in electrode 0.25nm. Furthermore, Voltage response gave results to measure a 0.1°C. 2013 Conference or Workshop Item PeerReviewed Abdullah Binslem, Salma and Ahmad, Mohd. Ridzuan (2013) Thermistor based nano-needle for single cell thermal characterization. In: 2013 IEEE International Conference on Control System, Computing and Engineering, 2013. |
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TK Electrical engineering. Electronics Nuclear engineering Abdullah Binslem, Salma Ahmad, Mohd. Ridzuan Thermistor based nano-needle for single cell thermal characterization |
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Cell's intracellular temperature has shown to have a vital role in controlling a cell's conditions, properties, activities, and the cell response towards external stimuli. Yet, Current conventional methods are not able to give accurate or any measurements when spatial resolution decreases to a micro scale. Many researches from different field are trying to develop ways that give high accuracy and high temperature sensitivity. We present here a Nano-needle microfluidic system for single cell temperature measurement; however, here we discussed the optimization using finite element approach of the sensor design using tungsten as the electrodes, and semiconducting metal oxide Co3O4 as the sensing material. The dimension of the sensor that gave the highest voltage thus highest sensitivity were ratio 1:4 of element diameter/electrode cross sectional area, a gap of 450nm between electrodes and a penetration depth of 0.25 in electrode 0.25nm. Furthermore, Voltage response gave results to measure a 0.1°C. |
| format |
Conference or Workshop Item |
| author |
Abdullah Binslem, Salma Ahmad, Mohd. Ridzuan |
| author_facet |
Abdullah Binslem, Salma Ahmad, Mohd. Ridzuan |
| author_sort |
Abdullah Binslem, Salma |
| title |
Thermistor based nano-needle for single cell thermal characterization |
| title_short |
Thermistor based nano-needle for single cell thermal characterization |
| title_full |
Thermistor based nano-needle for single cell thermal characterization |
| title_fullStr |
Thermistor based nano-needle for single cell thermal characterization |
| title_full_unstemmed |
Thermistor based nano-needle for single cell thermal characterization |
| title_sort |
thermistor based nano-needle for single cell thermal characterization |
| publishDate |
2013 |
| url |
http://eprints.utm.my/id/eprint/39073/ |
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1643650300852043776 |