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Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları ve Matematiksel Modelleme

Year 2020, Volume: 46 Issue: 2, 110 - 117, 31.10.2020

Sibel Çelik Kemal Büyükkabasakal , Ali Deniz , Yaser Açıkbaş , Rifat Çapan Matem Erdoğan

https://doi.org/10.35238/sufefd.806837

Abstract

Bu çalışmada, grafen kaplı Langmuir-Blodgett (LB) ince filmlerin şişme davranışları Kuartz Kristal Mikrobalans (KKM) tekniği kullanılarak incelenmiştir. Bu filmler, bazı organik buharların (aseton, etanol ve metanol) difüzyon katsayı değerlerinin hesaplanması (Fick’in erken-zaman difüzyon kanunu kullanılarak) için oda sıcaklığında etkileşmeye bırakılmıştır. Difüzyon katsayı değerleri sırası ile aseton, etanol ve metanol için 20.43 x 10−16, 1.30 x 10−16 ve 0.91 x 10−16 cm2 s−1 olarak hesaplanmıştır. Benzer sıralama grafen kaplı KKM sensörünün tepkisi (frekans değişimi, Δf) için de aseton (342 Hz) > etanol (76 Hz) > metanol (51 Hz) olarak elde edilmiştir.

Keywords

kuartz kristal mikrobalans grafen kimyasal sensör matematiksel modelleme

References

  • Botcha V.D, P.K. Narayanam, G. Singh, S.S. Talwar, R.S. Srinivasa, S.S. Major, (2014). Colloids Surf. A Physicochem. Eng. Asp. 452, 65
  • Cai W, S. Jiang, S. Xu, Y.Li, J.Liu, C. Li, L. Zheng, L. Su, J. Xu, (2015).Opt. Laser Techno. 65, 1.
  • Capan I, C. Tarımcı, R. Capan, (2010). Sens. Actuators B: Chem. 144, 126.
  • Crank J, (1970). The Mathematics of Diffusion, Oxford University Press, London
  • Liu Q, Z. F. Liu, X. Y. Zhang, N. Zhang, L. Y. Yang, S. G. Yin, Y. S. Chen, (2008). Appl. Phys. Lett. 92, 223303
  • Quang V.V, V.N. Hung, L.A. Tuan, V.N. Phan, T. Q. Huy, N.V. Quy, (2014). Thin Solid Films 568, 6.
  • Sauerbrey G, Verwendung von schwingquarzen zur wägung dünner schichten und zur microwägung, (1959) Z. Phys. 155, 206-222.
  • Seger B, P. V. Kamat, (2009). J. Phys. Chem. C 113, 7990.
  • Yao Y, X. Chen, H. Guo, Z. Wu, (2011). Appl. Surf. Sci. 257, 7778.
  • Yao Y, X. Chen, X. Li, X. Chen, N. Li, (2014). Sens. Actuators B: Chem. 191, 779.
  • Zhang H, G. Grüner, Y. Zhao, (2013). J. Mater. Chem. B 1, 2542
  • Zhang Y, L. Du, Y. Lei, H. Zhao, (2014). Mater. Lett. 131, 288
  • Zhihua Y, Z. Liang, S. Kaixin, H. Weiwei, (2012). Procedia Eng. 29, 2448.
  • Zhu Z, Min Su, L. Ma, L. Ma, D. Liu, Z. Wang, (2013). Talanta 117, 449.

Mathematical Modelling and Swelling Behaviors of Graphene-coated Chemical Sensors

Year 2020, Volume: 46 Issue: 2, 110 - 117, 31.10.2020

Sibel Çelik Kemal Büyükkabasakal , Ali Deniz , Yaser Açıkbaş , Rifat Çapan Matem Erdoğan

https://doi.org/10.35238/sufefd.806837

Abstract

In this work, the swelling behaviors of the graphene-coated Langmuir-Blodgett (LB) thin films are investigated by using Quartz Crystal Microbalance (QCM) technique. These films were exposed to several Volatile Organic Compounds (VOCs) (acetone, ethanol and methanol) at room temperature to calculate diffusion coefficients of these organic vapors by using the early-time Fick’s law of diffusion. The diffusion coefficients are calculated to be 20.43 x 10−16, 1.30 x 10−16 and 0.91 x 10−16 cm2 s−1 for acetone, ethanol and methanol, respectively. Similar ranking was obtained for the response of graphene-coated QCM sensor as a frequency shift (Δf); acetone (342 Hz) > ethanol (76 Hz) > methanol (51 Hz).

Keywords

Quartz crystal microbalance graphene chemical sensor mathematical modelling

References

  • Botcha V.D, P.K. Narayanam, G. Singh, S.S. Talwar, R.S. Srinivasa, S.S. Major, (2014). Colloids Surf. A Physicochem. Eng. Asp. 452, 65
  • Cai W, S. Jiang, S. Xu, Y.Li, J.Liu, C. Li, L. Zheng, L. Su, J. Xu, (2015).Opt. Laser Techno. 65, 1.
  • Capan I, C. Tarımcı, R. Capan, (2010). Sens. Actuators B: Chem. 144, 126.
  • Crank J, (1970). The Mathematics of Diffusion, Oxford University Press, London
  • Liu Q, Z. F. Liu, X. Y. Zhang, N. Zhang, L. Y. Yang, S. G. Yin, Y. S. Chen, (2008). Appl. Phys. Lett. 92, 223303
  • Quang V.V, V.N. Hung, L.A. Tuan, V.N. Phan, T. Q. Huy, N.V. Quy, (2014). Thin Solid Films 568, 6.
  • Sauerbrey G, Verwendung von schwingquarzen zur wägung dünner schichten und zur microwägung, (1959) Z. Phys. 155, 206-222.
  • Seger B, P. V. Kamat, (2009). J. Phys. Chem. C 113, 7990.
  • Yao Y, X. Chen, H. Guo, Z. Wu, (2011). Appl. Surf. Sci. 257, 7778.
  • Yao Y, X. Chen, X. Li, X. Chen, N. Li, (2014). Sens. Actuators B: Chem. 191, 779.
  • Zhang H, G. Grüner, Y. Zhao, (2013). J. Mater. Chem. B 1, 2542
  • Zhang Y, L. Du, Y. Lei, H. Zhao, (2014). Mater. Lett. 131, 288
  • Zhihua Y, Z. Liang, S. Kaixin, H. Weiwei, (2012). Procedia Eng. 29, 2448.
  • Zhu Z, Min Su, L. Ma, L. Ma, D. Liu, Z. Wang, (2013). Talanta 117, 449.
There are 14 citations in total.

Details

Primary Language Turkish
Journal Section Research Articles
Authors

Sibel Çelik This is me 0000-0001-8684-1406

Kemal Büyükkabasakal 0000-0002-5803-6255

Ali Deniz 0000-0002-6514-2320

Yaser Açıkbaş 0000-0003-3416-1083

Rifat Çapan This is me 0000-0003-3222-9056

Matem Erdoğan 0000-0003-4440-1896

Publication Date October 31, 2020
Submission Date October 7, 2020
Published in Issue Year 2020 Volume: 46 Issue: 2

Cite

APA Çelik, S., Büyükkabasakal, K., Deniz, A., Açıkbaş, Y., et al. (2020). Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları ve Matematiksel Modelleme. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi, 46(2), 110-117. https://doi.org/10.35238/sufefd.806837
AMA Çelik S, Büyükkabasakal K, Deniz A, Açıkbaş Y, Çapan R, Erdoğan M. Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları ve Matematiksel Modelleme. sufefd. October 2020;46(2):110-117. doi:10.35238/sufefd.806837
Chicago Çelik, Sibel, Kemal Büyükkabasakal, Ali Deniz, Yaser Açıkbaş, Rifat Çapan, and Matem Erdoğan. “Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları Ve Matematiksel Modelleme”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 46, no. 2 (October 2020): 110-17. https://doi.org/10.35238/sufefd.806837.
EndNote Çelik S, Büyükkabasakal K, Deniz A, Açıkbaş Y, Çapan R, Erdoğan M (October 1, 2020) Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları ve Matematiksel Modelleme. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 46 2 110–117.
IEEE S. Çelik, K. Büyükkabasakal, A. Deniz, Y. Açıkbaş, R. Çapan, and M. Erdoğan, “Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları ve Matematiksel Modelleme”, sufefd, vol. 46, no. 2, pp. 110–117, 2020, doi: 10.35238/sufefd.806837.
ISNAD Çelik, Sibel et al. “Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları Ve Matematiksel Modelleme”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 46/2 (October 2020), 110-117. https://doi.org/10.35238/sufefd.806837.
JAMA Çelik S, Büyükkabasakal K, Deniz A, Açıkbaş Y, Çapan R, Erdoğan M. Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları ve Matematiksel Modelleme. sufefd. 2020;46:110–117.
MLA Çelik, Sibel et al. “Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları Ve Matematiksel Modelleme”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi, vol. 46, no. 2, 2020, pp. 110-7, doi:10.35238/sufefd.806837.
Vancouver Çelik S, Büyükkabasakal K, Deniz A, Açıkbaş Y, Çapan R, Erdoğan M. Grafen Kaplı Kimyasal Sensörlerin Şişme Davranışları ve Matematiksel Modelleme. sufefd. 2020;46(2):110-7.
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Journal Owner: On behalf of Selçuk University Faculty of Science, Rector Prof. Dr. Hüseyin YILMAZ
Selcuk University Journal of Science Faculty accepts articles in Turkish and English with original results in basic sciences and other applied sciences. The journal may also include compilations containing current innovations.

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