Analysis of the Time Response of Chemical and Biological Microfluidic Sensors with a Micro/Nanoscale Active Surface
Аутори
Jokić, IvanaĐurić, Zoran
Radulović, Katarina
Frantlović, Miloš
Cvetanović-Zobenica, Katarina
Конференцијски прилог (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
After a review of a deterministic model of time response of microfluidic adsorption-based chemical and biological sensors, we present an approximate model for efficient analysis of stochastic response, which takes into account a random AD process coupled with convection and diffusion of target substance particles. Subsequently, we present the results obtained by the comparison of the two response models (deterministic and stochastic) used for sensors with different micro/nanoscale active surfaces, and intended for detection of substances present in different concentrations. In this way we can distinguish the cases in which the use of the deterministic model is justified from those in which the use of the stochastic model is necessary. The presented findings enable more accurate interpretation of measurement results obtained by using sensors with micro/nanoscale active surface, as well as optimization of their design.
Кључне речи:
Microfluidic sensor / biosensor / chemical sensor / deterministic time response / stochastic time responseИзвор:
Proceedings - 4th International Conference on Electrical, Electronics and Computing Engineering (IcETRAN 2017), June 5 - 8, 2017, Kladovo, Serbia, 2017, MOI1.4.1-MOI1.4.6Издавач:
- Beograd : Društvo za ETRAN / Belgrade : ETRAN Society
Финансирање / пројекти:
- Микро, нано-системи и сензори за примену у електропривреди, процесној индустрији и заштити животне средине (RS-MESTD-Technological Development (TD or TR)-32008)
- Serbian Academy of Sciences and Arts (Project F-150)
Институција/група
IHTMTY - CONF AU - Jokić, Ivana AU - Đurić, Zoran AU - Radulović, Katarina AU - Frantlović, Miloš AU - Cvetanović-Zobenica, Katarina PY - 2017 UR - https://cer.ihtm.bg.ac.rs/handle/123456789/5729 AB - After a review of a deterministic model of time response of microfluidic adsorption-based chemical and biological sensors, we present an approximate model for efficient analysis of stochastic response, which takes into account a random AD process coupled with convection and diffusion of target substance particles. Subsequently, we present the results obtained by the comparison of the two response models (deterministic and stochastic) used for sensors with different micro/nanoscale active surfaces, and intended for detection of substances present in different concentrations. In this way we can distinguish the cases in which the use of the deterministic model is justified from those in which the use of the stochastic model is necessary. The presented findings enable more accurate interpretation of measurement results obtained by using sensors with micro/nanoscale active surface, as well as optimization of their design. PB - Beograd : Društvo za ETRAN / Belgrade : ETRAN Society C3 - Proceedings - 4th International Conference on Electrical, Electronics and Computing Engineering (IcETRAN 2017), June 5 - 8, 2017, Kladovo, Serbia T1 - Analysis of the Time Response of Chemical and Biological Microfluidic Sensors with a Micro/Nanoscale Active Surface SP - MOI1.4.1 EP - MOI1.4.6 UR - https://hdl.handle.net/21.15107/rcub_cer_5729 ER -
@conference{ author = "Jokić, Ivana and Đurić, Zoran and Radulović, Katarina and Frantlović, Miloš and Cvetanović-Zobenica, Katarina", year = "2017", abstract = "After a review of a deterministic model of time response of microfluidic adsorption-based chemical and biological sensors, we present an approximate model for efficient analysis of stochastic response, which takes into account a random AD process coupled with convection and diffusion of target substance particles. Subsequently, we present the results obtained by the comparison of the two response models (deterministic and stochastic) used for sensors with different micro/nanoscale active surfaces, and intended for detection of substances present in different concentrations. In this way we can distinguish the cases in which the use of the deterministic model is justified from those in which the use of the stochastic model is necessary. The presented findings enable more accurate interpretation of measurement results obtained by using sensors with micro/nanoscale active surface, as well as optimization of their design.", publisher = "Beograd : Društvo za ETRAN / Belgrade : ETRAN Society", journal = "Proceedings - 4th International Conference on Electrical, Electronics and Computing Engineering (IcETRAN 2017), June 5 - 8, 2017, Kladovo, Serbia", title = "Analysis of the Time Response of Chemical and Biological Microfluidic Sensors with a Micro/Nanoscale Active Surface", pages = "MOI1.4.1-MOI1.4.6", url = "https://hdl.handle.net/21.15107/rcub_cer_5729" }
Jokić, I., Đurić, Z., Radulović, K., Frantlović, M.,& Cvetanović-Zobenica, K.. (2017). Analysis of the Time Response of Chemical and Biological Microfluidic Sensors with a Micro/Nanoscale Active Surface. in Proceedings - 4th International Conference on Electrical, Electronics and Computing Engineering (IcETRAN 2017), June 5 - 8, 2017, Kladovo, Serbia Beograd : Društvo za ETRAN / Belgrade : ETRAN Society., MOI1.4.1-MOI1.4.6. https://hdl.handle.net/21.15107/rcub_cer_5729
Jokić I, Đurić Z, Radulović K, Frantlović M, Cvetanović-Zobenica K. Analysis of the Time Response of Chemical and Biological Microfluidic Sensors with a Micro/Nanoscale Active Surface. in Proceedings - 4th International Conference on Electrical, Electronics and Computing Engineering (IcETRAN 2017), June 5 - 8, 2017, Kladovo, Serbia. 2017;:MOI1.4.1-MOI1.4.6. https://hdl.handle.net/21.15107/rcub_cer_5729 .
Jokić, Ivana, Đurić, Zoran, Radulović, Katarina, Frantlović, Miloš, Cvetanović-Zobenica, Katarina, "Analysis of the Time Response of Chemical and Biological Microfluidic Sensors with a Micro/Nanoscale Active Surface" in Proceedings - 4th International Conference on Electrical, Electronics and Computing Engineering (IcETRAN 2017), June 5 - 8, 2017, Kladovo, Serbia (2017):MOI1.4.1-MOI1.4.6, https://hdl.handle.net/21.15107/rcub_cer_5729 .