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Year 2010, Volume: 12 Issue: 1, 75 - 90, 01.06.2010

Rifat Çapan

Abstract

Termal görüntüleme cihazlarının, askeri, endüstri ve uzay araştırmaları gibi geniş uygulama alanlarından dolayı, sıcaklığa bağlı polarize olan pyroelektrik maddeleri üzerindeki çalışmalar, araştırmacıların ilgisini çekmektedir. Bu maklede, pyroelektrik olayın, pyroelektrik maddelerin ve bu maddelere ait bazı uygulamaların genel bir değerlendirilmesi verilecektir

Keywords

Pyroelektrik olay pyroelektrik maddeleri pyroelektriğin uygulamaları

References

  • Lang, S.B., Source of Pyroelectricity, Gordon & Breach Science Publisher, New York, (1974).
  • Poulter, M., Pyroelectric Organic Thin Films, Ph.D. Thesis, University of Oxford, UK, (1992).
  • Brewster, D., Edinburgh J. Sci., 1, 208, (1824).
  • Valasek, J., Phys. Rev., 1, 475, (1921).
  • Ta, Y., Compt. Rend., 207, 1042, (1938).
  • Whatmore, R.W., Rep. Prog. Phys., 49, 1335, (1986).
  • Muralt, P., Rep. Prog. Phys., 64, 1339, (2001).
  • Hadni, A., J. Phy. E: Sci. Instrum., 14, 1233, (1981).
  • Roberts, G.G., Holcroft, B., Thin Solid Films, 180, 211, (1989).
  • Richardson, T., The Preparation and Characterisation of Novel Organo- Ruthenium Langmuir-Blodgett Films, Ph.D. Thesis, University of Oxford, UK, (1989).
  • Petty, M., Tsibouklis, J., Davis, F., Hodge, P., Petty, M.C., Feast, W.J., Journal of Physics D: Applied Physics, 25, 1032, (1992).
  • Colbrook, R., Roberts, G.G., Ferroelectrics, 118, 199, (1991).
  • Roberts, G.G., Science and Technology Rewiev, 1, 26 (1987).
  • Gagulin, V.V., Chayanow, B.A., Izvestiya Akademii Nauk SSSR, Neorganicheskie Materialy, 18, 1667, (1982).
  • Biddle, M.B., Rickert, S.E., Ferroelectrics, 76, 133, (1987).
  • Porter, S.G., Ferroelectrics, 33, 193, (1981).
  • Josh, J.C., Dawar, A.L., Phys. Stat. Sol. (a), 70, 353, (1982).
  • Majid, W.H.A., Pyroelectric Activity in Cyclic and Linear Polysiloxane Langmuir-Blodgett Films, University of Sheffield UK, (1994).
  • Poulter, M.W., Colbrook, R., Roberts, G.G., Lower-Dimentional System and Molecular Electronics, (Edited by Metzger R.M.), New York, (1991).
  • Kang, D.S., Han, M.S., Lee, S.G., Song, S.H., J. European Ceramic Society, 23, , 515, (2003).
  • Shaw, C.P., Gupta, S., Stringfellow, S.B., Navarro, A., Alcock, J.R., Whatmore, R.W., J. European Ceramic Society, 22, 2123, (2002).
  • Dias, C., Simon, M., Quad, R., Gupta, D.K.D., J. Phys. D: Appl. Phys., 26, 106, Hughes, S.T., Piercy, A.R., J. Phys. D: Appl. Phys., 20, 1175, (1987).
  • Roberts, G.G., Langmuir-Blodgett Films, Plenum Press, New York, (1990).
  • Petty, M.C., Langmuir-Blodgett Films, Chambridge University Press, (1996).
  • Capan, R., Batty, S.V., Richardson, T., Lacey, D., Holder, S.J., Majid, W.H.A., Thin Solid Films, 284-285, 915, (1996).
  • Richardson, T., Topacli, A., Majid, A.B.D., Greenwood, M.B., Bruce, D.W., Thornton, A., Marsden, J.R., Advanced Materials for Optics and Electronics, 4, 243, (1994).
  • Greenwood, M.B., Richardson, T., Bruce, D.W., Taylor, D.M., Lacey, D., Yarwood, J., Thin Solid Films, 284-285, 46 (1996).
  • Kamata, T., Umemura, J., Takenaka, T., Koizumi, N., Takehara, K., Isomura, K., Taniguchi, H., Jpn. J. Appl. Phys., 33, 1074, (1994).
  • Poulter, M.W., Roberts, G.G., Costello, J.F., Davies, S.G., Edwards, A.J., Thin Solid Films, 210-211, 427, (1992).
  • Tsibouklis, J., Petty, M., Song, Y.P., Richardson, R., Yarwood, J., Petty, M.C., Feast, J.W., J. Mater. Chem., 1, 819, (1991).
  • Majid, W.H.A., Richardson, T., Holder, S., Lacey, D., Thin Solid Films, 243, 378 (1994).
  • Jones, C.A., Petty, M.C., Roberts, G.G., Proc. 6th IEEE Int. Symp. Applications of Ferroelectrics, IEEE, 195, (1986).
  • Majid, W.H.A., Richardson, T.H., Lacey, D., Topacli, A., Thin Solid Films, 376, , (2000).
  • Lacey, D., Holder, S.J., Majid, W.H.A., Capan, R., Richardson, T., Materials Science and Engineering C, 3, 197, (1995).
  • Batty, S.V., Capan, R., Richardson, T., Mann, T.E., Lacey, D., Thin Solid Films, 285, 919, (1996).
  • Lacey, D., Richardson, T., Davis, F., Capan, R., Materials Science and Engineering C, 8-9, 377, (1999).
  • McCartney, M.C., Richardson, T., Pavier, M.A., Davis, F., Stirling, C.J.M., Thin Solid Films, 327-329, 431, (1998).
  • Capan, R., Richardson, T., Lacey, D., Thin Solid Films, 327-329, 369 (1998).
  • Myagkov, I.V., Mazurina, E.A., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 198-200, 89, (2002).
  • Capan, R., Richardson, T.H., Tsibouklis, J., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 198-200, 835, (2002).
  • Capan, R., Richardson, T.H., Lacey, D., Thin Solid Films, 415, 236, (2002).
  • McCartney, M.C., Electrical and Structural Properties of Calixarene Langmuir-Blodgett Films, Ph.D. Thesis, University of Sheffield, UK, (1998).
  • Yang, J., Wang, R., Wang, H., Li, T., Pan, S., Zhang, B., Thin Solid Films, 243, , (1994).
  • Liu, W., Ko, J.S., Zhu, W., Thin Solid Films, 371, 254, (2000).
  • Zhang, Q., Whatmore, R.W., Journal of Physics D: Applied Physics, 34, ,(2001).
  • Zhang, T., Ni, H., Sensors and Actuators A, 100, 252, (2002).
  • Wu, H.G., Wang, S.M., Xu, Z.X., Fu, J., Materials Letters, 4235, 1, (2002).
  • Zhang, Q.Q., Chan, H.L.W., Choy, C.L., Composites, Part A: Applied Science and Manufacturing, 30, 163, (1999).
  • Zhao, L., Wang, S., Xu, Z., Fu, J., Wu, C., Cheng, S., Materials Letters, 57, 2116, (2003).
  • Imai, T., Maeda, M., Suzuki I., J. Korean Physical Society, 32, 1485, (1998).
  • Tripathi, A.K., Goel, T.C., Prakash, C., Material Science and Engineering B, 96, , (2002).
  • Sun, L.L., Tan, O.K., Liu, W.G., Chen, X.F., Zhu, W., Microelectronic Engineering, 66, 738, (2003).
  • Xu, Y.H., Cheng, C.H., Mackenzie, J.D., J. Non-Crystalline Solids, 176, 1, (1994).
  • Ye, C., Tamagawa, T., Schiller, P., Polla, D.L., Sensors and Actuators A, 35, ,(1992).
  • Liu, M.D., Wang, P.Y., Wu, G.A., Rao, Y.H., Sensors and Actuators A, 35, 259, (1993).
  • Liu, W.G., Ko, J.S., Zhu, W.G., Thin Solid Films, 371, 254, (2000).
  • Gerlach, G., Suchaneck, Kohler G.R., Sandner, T., Padmini, P., Krawietz, R., Pompe, W., Frey, J., Jost, O., Schonecker, A., Ferroelectrics, 230, 411, (1999).
  • Poyato, R., Calzada, M.L., Ricote, J., Pardo, L., Willing, B., Integrated Ferroelectrics, 35, 1807, (2001).
  • Zhang, Q.Q., Chan, H.L.W., Ploss, B., Zhou, Q.F., Choy, C.L., J. Non-Crystalline Solids, 254, 118, (1999).
  • Poyato, R., Calzada, M.L., Pardo, L., J. European Ceramics Society, 21, 1593, (2001).
  • Schmid, P.E., Levy, F., J. Korean Physical Society, 32, 1454, (1998).
  • Jinhua, L., Ningyi, Y., Chan, H.L.W., Sensors and Actuators A, 100, 231, (2002).
  • Putley, E.H., Optics&Laser Technology, 3, 150, (1971).
  • Zhang, S.B., Guo X.Y., Xu J.T., Ferroelectrics, 232, 1064, (1999).
  • Fairley, P.D., Rutt, H.N., Sensors and Actuators B, 75, 192, (2001).
  • Novik, V.K., Gavrilova, N.D., Physics of the Solid State, 42, 991, (2000).
  • Cascetta, F., Measurements, 16, 239, (1995).
  • Pevtsov, E.Ph., Maleto, M.I., Petrovsky, V.I., Sigov, A.S., Chernokozhin, V.V., Microelectronic Engineering, 29, 97, (1995).
  • Willing, B., Kohli, M., Muralt, P., Oehler, O., Infrared Physics & Technology, , 443, (1998).
  • Kohler, R., Padmini, P., Gerlach, G., Hofmann, G., Bruchhaus, R., Integrated Ferroelectrics, 22, 903, (1998).
  • Tar, D., Infrared Physics, 25, 349, (1985).
  • Nicholson, J.P., Ahmed, H., Optics Communications, 49, 55, (1984).
  • Watton, R., Burgess, D., Nelson, P., Infrared Physics, 19, 683, (1979).
  • Turner, B., Boot, H.A.H., Infrared Physics, 16, 367, (1976).
  • Logan, R.M., Infrared Physics, 15, 51, (1975).
  • Logan, R.M., Watton, R., Infrared Physics, 12, 17, (1972).
  • Lozinski, A., Wang, F., Uusimaki, A., Leppavuori, S., Sensors and Actuators A, , 290, (1998).
  • Sun, L.L., Tan, O.K., Liu, W.G., Zhu, W.G., Yao, X., Infrared Physics & Technology, 44, 177, (2003).
  • Sokoll, T., Norkus, V., Gerlach, G., Surface & Coatings Technology, 97, 469, (1997).
  • Whatmore, R.W., Watton, R., Ferroelectrics, 236, 258, (2000).
  • Clark, R.J., Sanderson, D.C.W., Radiation Measurements, 23, 641 (1994).
  • Yokoo, T., Shibata, K., Kuwano, Y., Japanise Journal of Applied Physics, 24, , (1986).
  • Antoniow, J.S., Henry, J.F., Égéé, M., Chirtoc, M., Rev Gén Therm, 36, 453, Haschberger, P., Bundschuh, M., Tank, V., Optical Engineering, 35, 882, (1996).

Organic pyroelectric materials for device applications

Year 2010, Volume: 12 Issue: 1, 75 - 90, 01.06.2010

Rifat Çapan

Abstract

The wide range of applications of thermal imaging devices existing in military, industrial and space fields attract researchers to study pyroelectric materials which exhibit a temperature-dependent spontaneous polarisation. A brief review of pyroelectricity, pyroelectric materials and some commercial applications of these materials we will be given in this paper

Keywords

Pyroelectric effect pyroelectric materials applications of pyroelectricity

References

  • Lang, S.B., Source of Pyroelectricity, Gordon & Breach Science Publisher, New York, (1974).
  • Poulter, M., Pyroelectric Organic Thin Films, Ph.D. Thesis, University of Oxford, UK, (1992).
  • Brewster, D., Edinburgh J. Sci., 1, 208, (1824).
  • Valasek, J., Phys. Rev., 1, 475, (1921).
  • Ta, Y., Compt. Rend., 207, 1042, (1938).
  • Whatmore, R.W., Rep. Prog. Phys., 49, 1335, (1986).
  • Muralt, P., Rep. Prog. Phys., 64, 1339, (2001).
  • Hadni, A., J. Phy. E: Sci. Instrum., 14, 1233, (1981).
  • Roberts, G.G., Holcroft, B., Thin Solid Films, 180, 211, (1989).
  • Richardson, T., The Preparation and Characterisation of Novel Organo- Ruthenium Langmuir-Blodgett Films, Ph.D. Thesis, University of Oxford, UK, (1989).
  • Petty, M., Tsibouklis, J., Davis, F., Hodge, P., Petty, M.C., Feast, W.J., Journal of Physics D: Applied Physics, 25, 1032, (1992).
  • Colbrook, R., Roberts, G.G., Ferroelectrics, 118, 199, (1991).
  • Roberts, G.G., Science and Technology Rewiev, 1, 26 (1987).
  • Gagulin, V.V., Chayanow, B.A., Izvestiya Akademii Nauk SSSR, Neorganicheskie Materialy, 18, 1667, (1982).
  • Biddle, M.B., Rickert, S.E., Ferroelectrics, 76, 133, (1987).
  • Porter, S.G., Ferroelectrics, 33, 193, (1981).
  • Josh, J.C., Dawar, A.L., Phys. Stat. Sol. (a), 70, 353, (1982).
  • Majid, W.H.A., Pyroelectric Activity in Cyclic and Linear Polysiloxane Langmuir-Blodgett Films, University of Sheffield UK, (1994).
  • Poulter, M.W., Colbrook, R., Roberts, G.G., Lower-Dimentional System and Molecular Electronics, (Edited by Metzger R.M.), New York, (1991).
  • Kang, D.S., Han, M.S., Lee, S.G., Song, S.H., J. European Ceramic Society, 23, , 515, (2003).
  • Shaw, C.P., Gupta, S., Stringfellow, S.B., Navarro, A., Alcock, J.R., Whatmore, R.W., J. European Ceramic Society, 22, 2123, (2002).
  • Dias, C., Simon, M., Quad, R., Gupta, D.K.D., J. Phys. D: Appl. Phys., 26, 106, Hughes, S.T., Piercy, A.R., J. Phys. D: Appl. Phys., 20, 1175, (1987).
  • Roberts, G.G., Langmuir-Blodgett Films, Plenum Press, New York, (1990).
  • Petty, M.C., Langmuir-Blodgett Films, Chambridge University Press, (1996).
  • Capan, R., Batty, S.V., Richardson, T., Lacey, D., Holder, S.J., Majid, W.H.A., Thin Solid Films, 284-285, 915, (1996).
  • Richardson, T., Topacli, A., Majid, A.B.D., Greenwood, M.B., Bruce, D.W., Thornton, A., Marsden, J.R., Advanced Materials for Optics and Electronics, 4, 243, (1994).
  • Greenwood, M.B., Richardson, T., Bruce, D.W., Taylor, D.M., Lacey, D., Yarwood, J., Thin Solid Films, 284-285, 46 (1996).
  • Kamata, T., Umemura, J., Takenaka, T., Koizumi, N., Takehara, K., Isomura, K., Taniguchi, H., Jpn. J. Appl. Phys., 33, 1074, (1994).
  • Poulter, M.W., Roberts, G.G., Costello, J.F., Davies, S.G., Edwards, A.J., Thin Solid Films, 210-211, 427, (1992).
  • Tsibouklis, J., Petty, M., Song, Y.P., Richardson, R., Yarwood, J., Petty, M.C., Feast, J.W., J. Mater. Chem., 1, 819, (1991).
  • Majid, W.H.A., Richardson, T., Holder, S., Lacey, D., Thin Solid Films, 243, 378 (1994).
  • Jones, C.A., Petty, M.C., Roberts, G.G., Proc. 6th IEEE Int. Symp. Applications of Ferroelectrics, IEEE, 195, (1986).
  • Majid, W.H.A., Richardson, T.H., Lacey, D., Topacli, A., Thin Solid Films, 376, , (2000).
  • Lacey, D., Holder, S.J., Majid, W.H.A., Capan, R., Richardson, T., Materials Science and Engineering C, 3, 197, (1995).
  • Batty, S.V., Capan, R., Richardson, T., Mann, T.E., Lacey, D., Thin Solid Films, 285, 919, (1996).
  • Lacey, D., Richardson, T., Davis, F., Capan, R., Materials Science and Engineering C, 8-9, 377, (1999).
  • McCartney, M.C., Richardson, T., Pavier, M.A., Davis, F., Stirling, C.J.M., Thin Solid Films, 327-329, 431, (1998).
  • Capan, R., Richardson, T., Lacey, D., Thin Solid Films, 327-329, 369 (1998).
  • Myagkov, I.V., Mazurina, E.A., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 198-200, 89, (2002).
  • Capan, R., Richardson, T.H., Tsibouklis, J., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 198-200, 835, (2002).
  • Capan, R., Richardson, T.H., Lacey, D., Thin Solid Films, 415, 236, (2002).
  • McCartney, M.C., Electrical and Structural Properties of Calixarene Langmuir-Blodgett Films, Ph.D. Thesis, University of Sheffield, UK, (1998).
  • Yang, J., Wang, R., Wang, H., Li, T., Pan, S., Zhang, B., Thin Solid Films, 243, , (1994).
  • Liu, W., Ko, J.S., Zhu, W., Thin Solid Films, 371, 254, (2000).
  • Zhang, Q., Whatmore, R.W., Journal of Physics D: Applied Physics, 34, ,(2001).
  • Zhang, T., Ni, H., Sensors and Actuators A, 100, 252, (2002).
  • Wu, H.G., Wang, S.M., Xu, Z.X., Fu, J., Materials Letters, 4235, 1, (2002).
  • Zhang, Q.Q., Chan, H.L.W., Choy, C.L., Composites, Part A: Applied Science and Manufacturing, 30, 163, (1999).
  • Zhao, L., Wang, S., Xu, Z., Fu, J., Wu, C., Cheng, S., Materials Letters, 57, 2116, (2003).
  • Imai, T., Maeda, M., Suzuki I., J. Korean Physical Society, 32, 1485, (1998).
  • Tripathi, A.K., Goel, T.C., Prakash, C., Material Science and Engineering B, 96, , (2002).
  • Sun, L.L., Tan, O.K., Liu, W.G., Chen, X.F., Zhu, W., Microelectronic Engineering, 66, 738, (2003).
  • Xu, Y.H., Cheng, C.H., Mackenzie, J.D., J. Non-Crystalline Solids, 176, 1, (1994).
  • Ye, C., Tamagawa, T., Schiller, P., Polla, D.L., Sensors and Actuators A, 35, ,(1992).
  • Liu, M.D., Wang, P.Y., Wu, G.A., Rao, Y.H., Sensors and Actuators A, 35, 259, (1993).
  • Liu, W.G., Ko, J.S., Zhu, W.G., Thin Solid Films, 371, 254, (2000).
  • Gerlach, G., Suchaneck, Kohler G.R., Sandner, T., Padmini, P., Krawietz, R., Pompe, W., Frey, J., Jost, O., Schonecker, A., Ferroelectrics, 230, 411, (1999).
  • Poyato, R., Calzada, M.L., Ricote, J., Pardo, L., Willing, B., Integrated Ferroelectrics, 35, 1807, (2001).
  • Zhang, Q.Q., Chan, H.L.W., Ploss, B., Zhou, Q.F., Choy, C.L., J. Non-Crystalline Solids, 254, 118, (1999).
  • Poyato, R., Calzada, M.L., Pardo, L., J. European Ceramics Society, 21, 1593, (2001).
  • Schmid, P.E., Levy, F., J. Korean Physical Society, 32, 1454, (1998).
  • Jinhua, L., Ningyi, Y., Chan, H.L.W., Sensors and Actuators A, 100, 231, (2002).
  • Putley, E.H., Optics&Laser Technology, 3, 150, (1971).
  • Zhang, S.B., Guo X.Y., Xu J.T., Ferroelectrics, 232, 1064, (1999).
  • Fairley, P.D., Rutt, H.N., Sensors and Actuators B, 75, 192, (2001).
  • Novik, V.K., Gavrilova, N.D., Physics of the Solid State, 42, 991, (2000).
  • Cascetta, F., Measurements, 16, 239, (1995).
  • Pevtsov, E.Ph., Maleto, M.I., Petrovsky, V.I., Sigov, A.S., Chernokozhin, V.V., Microelectronic Engineering, 29, 97, (1995).
  • Willing, B., Kohli, M., Muralt, P., Oehler, O., Infrared Physics & Technology, , 443, (1998).
  • Kohler, R., Padmini, P., Gerlach, G., Hofmann, G., Bruchhaus, R., Integrated Ferroelectrics, 22, 903, (1998).
  • Tar, D., Infrared Physics, 25, 349, (1985).
  • Nicholson, J.P., Ahmed, H., Optics Communications, 49, 55, (1984).
  • Watton, R., Burgess, D., Nelson, P., Infrared Physics, 19, 683, (1979).
  • Turner, B., Boot, H.A.H., Infrared Physics, 16, 367, (1976).
  • Logan, R.M., Infrared Physics, 15, 51, (1975).
  • Logan, R.M., Watton, R., Infrared Physics, 12, 17, (1972).
  • Lozinski, A., Wang, F., Uusimaki, A., Leppavuori, S., Sensors and Actuators A, , 290, (1998).
  • Sun, L.L., Tan, O.K., Liu, W.G., Zhu, W.G., Yao, X., Infrared Physics & Technology, 44, 177, (2003).
  • Sokoll, T., Norkus, V., Gerlach, G., Surface & Coatings Technology, 97, 469, (1997).
  • Whatmore, R.W., Watton, R., Ferroelectrics, 236, 258, (2000).
  • Clark, R.J., Sanderson, D.C.W., Radiation Measurements, 23, 641 (1994).
  • Yokoo, T., Shibata, K., Kuwano, Y., Japanise Journal of Applied Physics, 24, , (1986).
  • Antoniow, J.S., Henry, J.F., Égéé, M., Chirtoc, M., Rev Gén Therm, 36, 453, Haschberger, P., Bundschuh, M., Tank, V., Optical Engineering, 35, 882, (1996).
There are 83 citations in total.

Details

Other ID JA22DF34TD
Authors

Rifat Çapan This is me

Submission Date June 1, 2010
Publication Date June 1, 2010
Published in Issue Year 2010 Volume: 12 Issue: 1

Cite

APA Çapan, R. (2010). Organic pyroelectric materials for device applications. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 12(1), 75-90.
AMA Çapan R. Organic pyroelectric materials for device applications. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi. June 2010;12(1):75-90.
Chicago Çapan, Rifat. “Organic Pyroelectric Materials for Device Applications”. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi 12, no. 1 (June 2010): 75-90.
EndNote Çapan R (June 1, 2010) Organic pyroelectric materials for device applications. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi 12 1 75–90.
IEEE R. Çapan, “Organic pyroelectric materials for device applications”, Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 12, no. 1, pp. 75–90, 2010.
ISNAD Çapan, Rifat. “Organic Pyroelectric Materials for Device Applications”. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi 12/1 (June2010), 75-90.
JAMA Çapan R. Organic pyroelectric materials for device applications. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi. 2010;12:75–90.
MLA Çapan, Rifat. “Organic Pyroelectric Materials for Device Applications”. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 12, no. 1, 2010, pp. 75-90.
Vancouver Çapan R. Organic pyroelectric materials for device applications. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi. 2010;12(1):75-90.