Ultrathin Films for Sensorics and Molecular Electronics

Brehmer, Ludwig

doi:10.1007/978-3-662-04068-3_2

Ludwig Brehmer

Part of the book series: Macromolecular Systems — Materials Approach ((MACROSYSTEMS))

478 Accesses

Abstract

The workshop “Molecular Electronics” held in Washington in 1981 [1] is considered to be the public birthday of molecular electronics. Obviously there were strong and highly sophisticated studies long before this event, for instance the proposal for a molecular rectifier given by Aviram and Ratner in 1974 [2], but the proceedings of the workshop [3] was the first fundamental monograph in this field. With the publication of this monograph a worldwide initiative was launched which focused a huge scientific potential on the aim of the development of electronics at a molecular level.

This is a preview of subscription content, log in via an institution to check access.

Access this chapter

Log in via an institution

Chapter: USD 29.95; Price excludes VAT (USA)

eBook: USD 189.00; Price excludes VAT (USA)

Softcover Book: USD 249.99; Price excludes VAT (USA)

Hardcover Book: USD 329.99; Price excludes VAT (USA)

Tax calculation will be finalised at checkout

Purchases are for personal use only

Institutional subscriptions

Preview

Unable to display preview. Download preview PDF.

References

Workshop (1981) Molecular Electronic Devices. NRL Washington
Google Scholar
Aviram A, Ratner MA (1974) Chem Phys Lett 29: 277
Article CAS Google Scholar
Carter FL (1982) Molecular electronic device. Dekker, New York
Google Scholar
Göpel W, Hesse J, Zemel JN (eds) (1995) Sensors: micro-and nanosensoror technology. VCH, Weinheim, New York
Google Scholar
Workshop (1998) Innovation from the Nanokosmos. Bonn
Google Scholar
Blodgett KB (1935) J Am Chem Soc 57: 1007
Article CAS Google Scholar
Zsadzinski JA,Viswanathan R, Madsen L, Garnaes J, Schwartz DK (1994) Science 263: 1726
Article Google Scholar
Whitesides M, Mathias JP, Seto CT (1991) Science 254: 1312
Article CAS Google Scholar
Kumar A, Whitesides H (1993) Appl Phys Lett 63: 2002
Article CAS Google Scholar
Tsukruk V, Renecker DH (1995) Polymer 36: 1791
Article CAS Google Scholar
Herrmann MA, Siller H (1996) Molecular beam epitaxy. Springer, Berlin Heidelberg New York
Book Google Scholar
Forrest SR, Burrows PE (1997) Supramolecular Sci 4: 127
Article CAS Google Scholar
Langmuir I (1917) J Am Chem Soc 39: 1848
Article CAS Google Scholar
Wüstneck R, Enders P, Ebisch T, Miller R (1997) Thin Solid Films 298: 39
Article Google Scholar
Kwok DY, Vollhard D, Miller R, Li D, Neumann AW (1994) Colloids and Surfaces A88: 51
Article CAS Google Scholar
Peterson IR (1989) Spec Publ R Soc Chem 69: 317
CAS Google Scholar
Stroeve P, Franses E (eds) (1987) Molecular engineering of ultrathin polymeric films.Elsevier Applied Science, London
Google Scholar
Roberts G (ed) (1990) Langmuir-Blodgett films. Plenum Press, New York London
Google Scholar
Gaines G L Jr (1966) Insoluble monolayers at liquid-gas interfaces. Interscience, New York
Google Scholar
Ulman A (1991) An introduction to ultrathin organic films. Academic Press, San Diego
Google Scholar
Kuhn H (1989) Thin Solid Films 178: 1
Article CAS Google Scholar
Tredgold RH 1994 Order in thin organic films. Cambridge University Press
Google Scholar
Fukuda K, Sugi M (eds) (1989) Proceedings of the 4th Conference on Langmuir-Blodgett Films, Tsukuba, Japan. Elsevier, Amsterdam
Google Scholar
Barraud A, Palacin S (eds) (1992) Proc 5th Int Conf on LB- Films (LB-5), Paris, 26.-30.08. 1991. In: Thin Solid Films 210/211. Elsevier, Amsterdam New York Tokyo
Google Scholar
Leblanc RM, Salesse C (eds) (1994) Proc. 6th Int Conf on Organised Molecular Films, Trois-Rivieres, Kanada, 1993. In: Thin Solid Films 242–244. Elsevier, Amsterdam
Google Scholar
Rusticelli F (ed) (1996) Proceedings of the 7th International Conference on Organized Molecular Films (LB-7), Numana, Italy, September 10–15,1995. In: Thin Solid Films, im Druck
Google Scholar
Lindén DJM, Peltonen JPK, Rosenholm JB (1994) Langmuir 10: 1592
Article Google Scholar
Taylor DM, Bayes GF (1994) Phys Rev E 49: 1439
Article CAS Google Scholar
Dörfler HD, Kruger H (1992) Tenside Surf Det 29: 92
Google Scholar
Heckl W, Miller A, Möhwald H (1988) Thin Solid Films 159: 125
Article CAS Google Scholar
Hönig D, Möbius D (1991) J Phys Chem 95: 4590
Article Google Scholar
Hönig D, Overbeck GA, Möbius D (1992) Adv Mater 4: 419
Article Google Scholar
Henon S, Meunier J (1991) Rev Sci Instrum 62: 936
Article CAS Google Scholar
Morawetz K, Reiche J, Brehmer L, Jäger W (1998) To be published in the Proceedings of the 7th European Conference on Thin Organised Films. 14–18 Sept 1998, Potsdam, Germany
Google Scholar
Katholy S, Reiche J, Geue T, Pietsch U, Brehmer L (1998) To be published in the Proceedings of the 7th European Conference on Thin Organised Films. 14–18 Sept 1998, Potsdam, Germany
Google Scholar
Als-Nielsen J, Möhwald H (1989). In: Ebashi S, Rubinstein E, Koch M (eds) Handbook of synchrotron radiation, vol 4. North Holland
Google Scholar
Kjaer K, Als-Nielsen J, Helm CA, Laxhuber LA, Möhwald H (1987) Phys Rev Lett 58: 2224
Article CAS Google Scholar
Kjaer K,Als-Nielsen (1989) J Phys Chem 93 (8): 3200
Article Google Scholar
Schmitt J, Grünewald T, Decher G, Pershan PS, Kjaer K, Lösche M (1993) Macromolecules 26: 7058
Article CAS Google Scholar
Jacquemain D, Wolf SG, Leveiller F, Lahav M, Leiserowitz L, Deutsch M, Kjaer K, Als-Nielsen S (1989) Colloque de Physique 50 10: C7
Google Scholar
Kjaer K, Als-Nielsen J, Helm CA, Tippmann-Krayer P, Möhwald HJ (1989) Phys Chem 93: 3200
Article CAS Google Scholar
Helm CA, Möhwald H, Kjaer K, Als-Nielsen J (1987) Europhys Lett 1: 697
Article Google Scholar
Helm CA, Möhwald H, Kjaer K, Als-Nielsen J (1987) Biophys J 52: 381
Article CAS Google Scholar
Reiche J, Janietz D, Barb erka T, Hofmann D, Brehmer L (1995) Nucl Inst Meth B 97: 416
Article CAS Google Scholar
Blodgett KB (1935) J Am Chem Soc 57: 1007
Article CAS Google Scholar
Zisman W (1964). In: Fowkes FM (ed) Contact angle, wettability and adhesion: Advances in Chemistry Series, no 43. American Chemical Society, Washington
Google Scholar
De Gennes GP (1985) Rev Mod Phys 57: 827
Article Google Scholar
Popovitz-Biro R, Hill K, Shavit E, Hung DJ, Lahav M, Leiserowitz L, Sagiv J, Hsiung H, Meredith GR,Vanherzeele H (1990) J Am Chem Soc 112: 2498
Article CAS Google Scholar
Pugelli M, Gabrielli G (1983) Colloid Polym Sci 261: 82
Article Google Scholar
Shimomura M, Kunitake T (1985)Thin Solid Films 132:243
Google Scholar
Chi LF, Johnston RR, Ringsdorf H (1991) Langmuir 7: 2323
Article CAS Google Scholar
Michel T, Nitsch W (1994) Thin Solid Films 242: 234
Article CAS Google Scholar
Saremi F, Tieke B (1995) Advanced Mater 7: 378
Article CAS Google Scholar
Daniel MF, Dolphin JC, Grant AJ, Kerr KEN, Smith GW (1985) Thin Solid Films 133: 235
Article CAS Google Scholar
Barraud A, Leloup J, Gouzerh A, Palacin S (1985) Thin Solid Films 133: 117
Article CAS Google Scholar
Tredgold RH, Evans SD, Hodge P, Hoofar A (1988) Thin Solid Films 160: 99
Article CAS Google Scholar
Parratt LG (1954) Phys Rev 95: 359
Article Google Scholar
Hosemann R, Bagchi SN (1953) Acta Cryst 6: 318
Article CAS Google Scholar
Rieutord F, Benattar JJ, Boiso L, Robin P, Blot C, de Kouchkovsky R (1986) J Physique 47: 1249
Article CAS Google Scholar
Seul M, Eisenberger P (1989) Phys Rev A 39: 4230
Article CAS Google Scholar
Alexander LE, Seul M (1969) X-ray diffraction methods in polymer science. Wiley, New York
Google Scholar
Ables F (1950) Ann Physique 5: 597
Google Scholar
Feigin LA, LvovYM (1988) Macromol Chem Macromol Symp 15: 259
Article Google Scholar
Barberka TA, Höhne U, Pietsch U, Metzger TH (1994) Thin Solid Films 244: 1061
Article CAS Google Scholar
Ringsdorf H, Schlarb B, Venzmer J (1988) Angew Chem 100: 117
Article CAS Google Scholar
Kunz RW (1991) Molecular Modelling für Anwender, Anwendung von Kraftfeld-und MO-Methoden in der organischen Chemie. Teubner, BG, Stuttgart
Google Scholar
Binnig G, Rohrer H, Gerber Ch, Weibel E (1982) Appl Phys Lett 40: 178
Article CAS Google Scholar
Güntherodt HJ, Wiesendanger R (eds) (1992) Scanning tunneling microscopy I, II and III. In: Surface sciences. Springer, Berlin Heidelberg New York
Google Scholar
Fuchs H (1989) Phys B1 45: 105
Google Scholar
Hansma PK, Tersoff J (1987) J Appl Phys 61: R1
Article CAS Google Scholar
Rabe JP (1989) Angew Chem 101: 117
Article CAS Google Scholar
Frommer J (1992) Angew Chem 104: 1325
Article CAS Google Scholar
Albrecht 0, Sakai K, Takimoto K, Matsuda H, Eguchi K, Nakagiri T (1991) Adv in Chemistry. In: Birge RR (ed) Molecular and biomolecular electronics. Washington 1994
Google Scholar
Ginnai T, Harrington A, Rodov V, Matsuno M, Saito K (1989) Thin Solid Films 180: 277
Article CAS Google Scholar
Harkins WD (1952) In: Reinhold (ed) The physical chemistry of surface films. New York
Google Scholar
Albrecht O, Johnston DS, Villaverde C, Chapman D (1982) Biochem Biophys Acta 687: 165
Article CAS Google Scholar
Maget-Dana R, Hetru C, Ptak M (1996) Thin Solid Films 284 /285: 841
Article Google Scholar
Petrigliano A, Tronin A, Nicolini C (1996) Thin Solid Films 284 /285: 752
Article Google Scholar
Gu C, Sun L, Zhang T, Li T (1996) Thin Solid Films 284 /285: 863
Article Google Scholar
Souto J, Rodriges-Mendez ML, de Saja-Gonzalez J, de Saja JA (1996) Thin Solid Films 284 /285: 888
Article Google Scholar
Rella R, Serra A, Siciliano P, Tepore A, Trosi L, Valli L (1996) Thin Solid Films 284 /285: 870
Article Google Scholar
Milella E, Musio F, Alba MB (1996) Thin Solid Films 284 /285: 908
Article Google Scholar
Tredgold RH, Young MC, Hodge P, Khosdel E (1987) Thin Solid Films 151: 441
Article CAS Google Scholar
Smith VC, Batty SV, Richardson T, Foster KA, Johnstone RAW, Sobral AJFN, Rocha Gonsalves AMd’A (1996) Thin Solid Films 284 /285: 911
Article Google Scholar
Lang SB (1974) Sourcebook of pyroelectricity. Gordon and Breach, New York
Google Scholar
Jona F, Shirane G (1962) Ferroelectric crystals. Pergamon Press, London
Google Scholar
Fatuzzo E Merz WJ (1967) Ferroelectrics. North-Holland, Amsterdam
Google Scholar
Lines ME, Glass AM (1977) Principles and application of ferroelectrics and related materials. Clarendon Press Oxford
Google Scholar
Das-Gupta DK (ed) (1994) Ferroelectric polymers and ceramic-polymer composites.Trans Tech Publications, Switzerland
Google Scholar
Kawai H (1969) Japan J Appl Phys 8: 975
Article CAS Google Scholar
Bergman JG McFee JH Crane GR (1971) Appl Phys Lett 18: 203
Article Google Scholar
Wang T, Herbert JM, Glass AM (eds) (1987) The application of ferroelectric polymers.Blackie, Glasgow
Google Scholar
Wada K, Hayakawa R (1976) Japan J Appl Phys 15: 2041
Article CAS Google Scholar
Sworakowsky J (1992). In: Ashwell GJ (ed) Molecular electronics. Research Studies Press, Taaunton, Wiley, New York, p 266
Google Scholar
Korenyeva LG, Zolin VF, Davydov BL (1980) Molecular crystals in nonlinear optics.Nauka, Moscow
Google Scholar
Williams DJ (ed) (1983) Nonlinear optical properties of organic and polymeric materials. Am Chem Soc, Washington
Google Scholar
Chemla DS, Zyss J (eds) (1987) Nonlinear optical properties of organic molecules and crystals. Academic Press, Orlando
Google Scholar
Berlincourt DA, Curran DR, Jafee H (1964). In: Physical acoustics 1A. Academic Press, New York, p 183
Google Scholar
Onsager L (1936) J Amer Chem Soc 58: 1486
Article CAS Google Scholar
Mopsik FI, Broadhurst MG (1975) J Appl Phys 46: 4204
Article Google Scholar
Sessler GM (1980) Electrets. Springer, Berlin Heidelberg New York
Google Scholar
Narula GK, Pillai KK (1989) J Mat Sci Lett 8: 608
Article CAS Google Scholar
Frensch H, Wendorff JH (1986) 27: 1332
CAS Google Scholar
Frübing P, Wegner M, Gerhardt-Multhaupt R, Buchsteiner A, Neumann W, Brehmer L (1999), Polymer 40: 3413
Article Google Scholar
Das-Gupta DK (1994) Ferroelectrics polymers and ceramic-polymer composites.In: Das-Gupta DK (ed) Trans Tech Publications
Google Scholar
Mazur K (1998) Electret and piezoelectric properties of dielectric systems. Zielona Gara
Google Scholar
Whatmore RW (1986) Rep Prog Phys 49: 1335
Article CAS Google Scholar
Bauer S (1990) J Appl Phys 75: 5309
Google Scholar
Blinov LM, Mikhnev LV, Sokolova EG,Yudin SG (1983) Soy Tech Phys Lett 9: 640
Google Scholar
Roberts GG (1989) Ferroelectrics 91: 21
Article CAS Google Scholar
Petty M, Tsibouklis J, Song YP, Yarwood J, Petty MC, Feast IV] (1992) J Mater Chem 2: 87
Article CAS Google Scholar
Furukawa T (1989) Phase Trans 18: 143
Article CAS Google Scholar
Palto S, Blinov L, Bune A, Dubovik E (1995) Ferroelectrics Lett 19: 65
Article CAS Google Scholar
Blinov LM, Fridkin VM, Palto SP, Sorokin AV, Yudin SG (1996) Thin solid films, 284–285: 469
Article Google Scholar
Blinov LM, Fridkin VM, Palto SP, Sorokin AV, Yudin SG (1996) Thin solid films, 284–285: 474
Article Google Scholar
Bauer S (1993) Appl Phys Lett 63: 2018
Article CAS Google Scholar
Bauer-Gogonea S (1994) J Appl Phys 76: 2627
Article CAS Google Scholar
Garn LE, Sharp EJ (1982) J Appl Phys 53: 8974, 8980
Google Scholar
Brehmer L, Kaminorz Y, Grasnick G, Herkner G (1996) Makromol Symp 102: 391
Article CAS Google Scholar
Carr PL, Davies GR, Ward IM (1993) Polymer 34: 5
Article CAS Google Scholar
Davies GR, Hubbart HV, Steward IM, Feast W], Gibson VC, Khosravi E, Marshall EL (1995) Polymer 36: 235
Google Scholar
Janietz D, Bauer M (1991) Macromol Chem 192: 2635
Article CAS Google Scholar
Stewart JJ (1990) J Comput Aided Mol Design 4: 1105
Article Google Scholar
Broadhurst MG, Davis GT (1980). In: Sessler GM (ed) Electrets. Springer, Berlin Heidelberg New York
Google Scholar
Liemant A, Brehmer L (1996) Preprint 294, Berlin
Google Scholar
Putley EH (1980) Infra-red Phys 20: 139–147
Article Google Scholar
Wilson G (1995) Jpn J Appl Phys 34: 3775
Article CAS Google Scholar
Ichikawa K, Dickinson LC, MacKnight WJ, Watanabe M, Ogata N (1992) Polymer23:4699
Google Scholar
Sakai Y, Sadaoka Y, Fukumoto H (1988) Sensors and Actuators 13: 243
Article Google Scholar
Cai Y, Wlodarski WB, Shanks RA (1991) Polymers and Biomaterials 207
Google Scholar
Sakai Y Sadaoka Y Matsuguchi M Hirayama K (1991) Proc Int Conf Solid State Sensors and Actuators 562
Google Scholar
Tieman RS, Rauen KL, Heinemann WR, Huber EW (1992) Chem Sens Technol 4: 125
CAS Google Scholar
Huang PH (1988) Sensors and Actuators 13: 329
Article CAS Google Scholar
Huber EW, Heinemann WR (1988) J Polymer Science Part C Polym Lett 26: 333
Article CAS Google Scholar
Castro de ES, Huber EW, Villarroel D, Galiatsatos C, Mark JE, Heinemann WR (1987) Anal Chem 59: 134
Article Google Scholar
Brehmer L, Grasnick G, Herkner G (1996) Patent, Deutsches Patenamt: DE 196 41 490 Al
Google Scholar
Mirsky VM, Krause C, Heckmann KD (1996) Thin Solid Films 284 /285: 939
Article Google Scholar
Nitsch W, Kurthen C (1989) Thin Solid Films 178: 145
Article CAS Google Scholar
Albrecht O, Ginnai T, Harrington A, Marr-Leisy D, Rodov V (1990) In: Hong FT (ed) Molecular electronics, biosensors and biocomputers. Plenum Press, New York
Google Scholar
Brehmer L, Wernecke R, Zehner C, Jaeger W (1994) Patent, Deutsches Patenamt: P 44 03 4091
Google Scholar
Brehmer L, Grasnick G, Herkner G, Janietz D (1996) Patent, Deutsches Patenamt: DE 195 13 499 Al
Google Scholar
Sugi M (1987) Thin Solid Films 152: 305
Article CAS Google Scholar
Stroeve P, Franses EJ (1987) Thin Solid Films 152: 405
Article Google Scholar
Palto S, Blonov L, Bune A (1995) Ferroelectric Letters Section 19: 65
Article CAS Google Scholar
Richardson T, Topacli A, Greenwood MB (1994) Adv Mater Opt Electron 4: 243
Article CAS Google Scholar
Isibouklis J, Pearson C, Cresswell JP (1994) IEE Colloquium on Molecular Electronic Devices (Digest No. 1994/084), London, UK: IEE. p.3/1–6 of 56 pp 13 refs. Conference: London, UK, 6 April 1994 Sponsor(s): IEE
Google Scholar
Majid WH, Richardson T, Holder S, Lacey D (1994) Int J Electron 76: 745
Article CAS Google Scholar
Richardson T, Majid WH, Capan R (1994) Supramol Sci 1: 39
Article CAS Google Scholar
Yang J, Wang R, Wang H, Li T (1994) Thin Solid Films 234: 536
Article Google Scholar
Ou SH, Percec V, Mann JA, Lando JB (1994) Langmuir 10: 905
Article CAS Google Scholar
Richardson T, Majid WH, Cochrane EC, Holder S, Lacey D (1994) Thin Solid Films 242: 61
Article CAS Google Scholar
Kamata T, Umemura J, Takenaka T (1994) Jpn J Appl Phys 33: 1074
Article CAS Google Scholar
Poulter MW, Richardson T, Roberts GG (1991) IEEE Int Symp Appl Ferroelectr, 7th IEEE, New York NY, p 395
Google Scholar
Colbrock R, Roberts GG (1991) IEEE Int Symp Appl Ferroelectr, 7th IEEE, New York NY, p 63
Google Scholar
Gavrilova ND, Lazarev VV, Novik VK (1992) Biol Membr 9: 977
CAS Google Scholar
Yang J, Jiang L, Wang R, Tang D (1992) Hongwai Yu Haomibo Xuebao 11: 289
CAS Google Scholar
Fischer TM, Knoll W (1991) Polym Adv Technol 2: 237
Article CAS Google Scholar
Isibouklis J, Pearson C, Song YL, Warren 1 (1993) J Mater Chem 3: 97
Article Google Scholar
Fang J, Wei Y (1992) Dongnan Daxue Xuebao 22: 42
CAS Google Scholar
Fang J, Wei Y, Sun Z (1992) Yingyong Kexue Xuebao 10: 101
CAS Google Scholar
Ohara K, Imura N (1991) In: Gerhardt-Multhaupt R, Künstler W, Brehmer L, Danz R (eds) Proceedings ISE 7 (Cat. No.91CH3029–6), New York, p 862
Google Scholar
Isibouklis J, Petty M, Song YP, Richardson R, Yarwood J, Petty M (1991) J Mater Chem 1: 819
Article Google Scholar
Colbrock R, Richardson T, Roberts GG, Smallridge A, Davies SG (1991) Ferroelectrics 118: 209
Article Google Scholar
Colbrock R, Holcroft B, Roberts GG, Polywka ME, Davies SG (1989) Ferroelectrics 92: 381
Article Google Scholar
Richardson T, Majid WH, Capan R, Lacey D, Holder S (1994) IEE Colloquium on Molecular Electronic Devices, (Digest No. 1994/084) London, UK: IEE. p.4/1–7 of 56 pp, 15 refs. Conference: London, UK, 6 April 1994 Sponsor(s): IEE
Google Scholar
Ou SH, Percec V, Mann JA, Lando JB, Zhou L, Singer KD (1993) Macromolecules 26: 7263
Article CAS Google Scholar
Greenberg CB (1994) Thin Solid Films 251: 81–93
Article CAS Google Scholar
Kaneko M Yamada A (1984) Adv Polym Sci 55: 1
Article CAS Google Scholar
Guillet 1 (1985) Polymer photophysics and photochemistry. Cambridge University Press, Cambridge, chap 12, p 314
Google Scholar
Kumar GS, Neckers DC (1989) Chem Rev 89: 1915
Article CAS Google Scholar
Neckers DC (1990) Chem Tech p 615
Google Scholar
Kumar GS (1993) Azo Functional Polymers. Technomic, Lancaster Basel
Google Scholar
Patai S (1975) The chemistry of the hydrazo, azo and azoxy groups, pt I II. Wiley, New York
Book Google Scholar
Rau H (1991) In: Rabek JF (ed) Photoisomerization of azobenzenes. In: Photochemistry and photophysics, vol II. CRC Press, Boca Raton Florida, p 119
Google Scholar
Zollinger H (1961) Azo and diazo chemistry. Interscience, New York and London
Google Scholar
Orlandi G, Siebrand W (1975) Chem Phys Lett 30: 352
Article CAS Google Scholar
Olbrich G (1978) Chem Phys 27: 117
Article CAS Google Scholar
Ronayette J Arnaud R Lemaire J (1974) Can J Chem 52: 1858
Article Google Scholar
Griffiths J (1972) Chem Soc Rev 1: 481
Article CAS Google Scholar
Lang JJ Robertson JM Woodward I (1939) Proc Roy Soc Sec A 171: 398
Article Google Scholar
Hartley GS (1938) J Chem Soc, p 633
Google Scholar
Dürr H, Bounas LH (eds) (1990) Photochromism, molecules and systems in organic chemistry. Elsevier, Amsterdam
Google Scholar
Wildes PD, Pacifici JG, Irik G, Whitten DG (1971) J Am Chem Soc 93: 2004
Article Google Scholar
Haberfield P, Block PM, Lux MS (1975) J Am Chem Soc 97: 5804
Article CAS Google Scholar
Asano T Yano T Okada T (1982) J Am Chem Soc 104: 4900
Article Google Scholar
Brown EV, Granneman GR (1975) J Am Chem Soc 97: 621
Article CAS Google Scholar
Nishimura N, Tanaka T, Asano M, Sueishi Y (1986) J Chem Soc Perkin Trans 2: 1839
Google Scholar
Liu Z, Morigaki K, Enomoto T, Hashimoto K, Fujishima A (1992) J Phys Chem 96: 1875
Article CAS Google Scholar
Heesemann J (1980) J Chem Soc 102: 2167
Article CAS Google Scholar
Nakahara H, Fukuda K (1983) J Colloid Interface Sci 93: 530
Article CAS Google Scholar
Seki T, Ichimura K (1989) Thin Solid Films 179: 77
Article CAS Google Scholar
Tachibana (1989) Thin Solid Films 179: 207
Article CAS Google Scholar
Sawodny M, Schmidt A, Stamm M, Knoll W, Urban C, Ringsdorf H (1991) Polym Adv Technol 2: 127
Article CAS Google Scholar
Geue T, Ziegler A, Stumpe J (1997) Macromolecules 30: 5729
Article CAS Google Scholar
Picard G, Nevernov I, Alliata D, Pazdernik L (1997) Langmuir 13: 264
Article CAS Google Scholar
Desiraju GR (1995) Angew Chem 107: 2541
Article Google Scholar
Vincett PS, Roberts GG (1980) Thin Solid Films 68: 135
Article CAS Google Scholar
Sessler GM (1992) Electrical properties of polymers. Academy Press, New York
Google Scholar
Brehmer L, Liemant A, Müller I (1993) Preprint No 44 Berlin, Institute of Applied Analysis and Stochastic
Google Scholar
Brehmer L, Kaminorz Y, Grasnick G, Herkner G (1996) Macromol Symp 102: 391
Article CAS Google Scholar
Knobloch H, Szada-Borryskowsky G,Wiojk S, Helms A, Brehmer L (1996) Appl Phys Lett 69: 2336
Article CAS Google Scholar
Natansohn A, Rochon P, Gosselin J, Xie S (1992) Macomolecules 25: 2268
Article CAS Google Scholar
Hill RA, Dreher S, Knoesen A,Yankelevich DR (1995) Appl Phys Lett 66: 2156
Article CAS Google Scholar
Stumpe J, Läsker L, Fischer T, Ruthloh M, Kostromin S, Rühmann R (1996) Thin Solid Films 284285: 252
Article Google Scholar
Knobloch H, Penacorada F, Brehmer L (1997) Thin Solid Films 295: 210
Article CAS Google Scholar
Knobloch H, Katholy S, Hesse J, Orendi H, Prescher D, Rühmann R, Brehmer L (1998) Materials Science and Engineering C5: 307
Article Google Scholar
Knobloch H, Woijk S, Brehmer L, Yussopov R, Rakhnyanskaya A (1995) Thin Solid Films
Google Scholar
Wüstneck R, Prescher D, Katholy S, Knochenhauer G, Brehmer L (1998) Thin Solid Films (In press)
Google Scholar
Iwamoto M, Majima Y (1991) J Chem Phys 94: 5135
Article CAS Google Scholar
Iwamoto M, Ohnishi K, Xu X (1995) Jpn J Appl Phys 34: 3814
Article CAS Google Scholar
Nordmann I (1995) Preprint report, University Potsdam
Google Scholar
Pillai PKC (1995) In: Nalwa HS (ed) Ferroelectric polymers. Marcel Dekker, New York, p 1
Google Scholar
Knobloch H, Orendi H, Stiller B, Büchel M, Knoll W, Seki T, Ito S, Brehmer L (1996) Synthesis Metals 81: 297
Article CAS Google Scholar
Mercker FW, McKenzie MT, Bruma M, Schulz B (1994) Polymer International 33: 399
Article Google Scholar
Mercker FW, McKenzie MT, Bruma M, Schulz B (1994) Polymer International 33: 399
Article Google Scholar
Meinhard JE (1964) Appl Phys Lett 35: 3059
CAS Google Scholar
Polymeropoulos EE, Möbius D, Kuhn H (1980) Thin Solid Films 68: 173
Article CAS Google Scholar
Metzger RM (1995) Mat Sci Eng C3 277
Article Google Scholar
Aviram A, Freisner MJ, Young PE, U.S. Patent 3.953. 874 27. 4. 1976
Google Scholar
Liang N, Miller JR, Closs GL (1990) J Am Chem Soc 112: 5353
Article CAS Google Scholar
Metzger RM, Panetta CA (1989) J Mol Electronics 5: 1
CAS Google Scholar
Metzger RM, Panetta CA (1989) Synth Met 28: C807
Article CAS Google Scholar
Metzger RM, Panetta CA (1990) Advanced research society materials. In: Chang LY, Cowan DO, Chaikin P (eds.) Materials Research Society Symposium Proceedings Series.MRS Press, Philadelphia, 173: 531
Google Scholar
Wang P, Singleton JL, Wu XL, Shamsuzzoha M, Metzger RM, Panetta CA, Heimer NE (1993) Synth Met 55 /57: 3824
Article Google Scholar
Nadizadeh H, Mattern DL, Singleton J, Wu XL, Metzger RM (1994) Chem Materials 6: 268
Article CAS Google Scholar
Metzger RM, Panetta CA, Heimer NE, Batti AM, Torres E, Blackburn GF, Tripathy SK, Samuelson LA (1986) J Mol Electronics 2: 119
CAS Google Scholar
Sandman DJ Laski J Geddes NJ Sambles JR Jarvis DJ Parker WG (1991) Synth Met 41 /43: 1415
Google Scholar
Geddes NJ, Sambles JR, Jarvis DJ, Parker WG, Sandman DJ (1992) J Appl Phys 71 (2): 756
Article CAS Google Scholar
Martin AS, Sambles JR, Ashwell GJ (1992) Thin solid films, 210–211: 313
Article Google Scholar
Martin AS, Sambles JR, Ashwell GJ (1993) Phys Rev Lett 70: 218
Article CAS Google Scholar
Fischer CM, Burghard M, Roth S, Klitzing v K (1994) Europhys Lett 28: 129
Article CAS Google Scholar
Fischer CM, Burghard M, Roth S, Klitzing v K (1995) Appl Phys Lett 66: 3331
Article CAS Google Scholar
Martin AS, Sambles JR (1996) Nanotechnology 7: 401
Article CAS Google Scholar
Metzger RM, Tachibana H, Wu X, Höpfner U, Chen B, Lakshmikantham MV, Cava MP (1997) Synthetic Metals 85: 1359
Google Scholar
Metzger RM, Chen B, Höpfner U, Lakshmikantham MV, Vuillaume D, Kawai T, Wu X Tachibana H, Hughes TV, Sakurai H, Baldwin JW, Hosch C Cava MP, Brehmer L, Ashwell GJ (1997) J Am Chem Soc 119: 10, 455
Google Scholar
Metzger RM, Chen B, Vuillaume D, Höpfner U, Baldwin JW, Kawai T, Tachibana H, Sakurai H, Lakshmikantham MV, Cava MP (1997) Proceedings of the Fall Meeting of the MRS. Boston USA, vol 488
Google Scholar
Bernanose A Comte M Vonaux P (1953) J Chim Phys, Phys Chim Biol 50: 64
Google Scholar
Pope M Kallmann H Magnante P (1963) J Chem Phys 38: 2042
Article Google Scholar
Helfrich W Schneider WG (1965) Phys Rev Lett 14: 229
Article CAS Google Scholar
Helfrich W, Schneider WG (1966) J Chem Phys 44: 2902
Article CAS Google Scholar
Mehl W, Büchner W (1965) Zeitschrift für Physik. Chemie neue Folge 47: 76
Article CAS Google Scholar
Vityuk NV, Mikho VV (1973) Soc Phys Semicond 6: 1479
Google Scholar
Partridge RH (1983) Polymer 24: 755
Article CAS Google Scholar
Partridge RH (1993) Polymer 24: 748
Article Google Scholar
Burroughes JH, Bradley DD, Brown AR, Marks RN Mackay K, Friend RH, Burns PL, Holmes AB (1990) Nature 347: 539
Article CAS Google Scholar
Tang CW, Slyke SAV (1987) Appl Phys Lett 51: 913
Article CAS Google Scholar
Joswick MD, Campbell IH, Barashkov NN, Ferraris JP (1996) J Appl Phys 80: 2883
Article CAS Google Scholar
Braun D, Staring EG, Demandt CJ, Rikken GL, Kessener YA,Venhuizen AH (1994) Synth Met 66: 75
Article CAS Google Scholar
Staring EGJ (1996) The Royal Society of Chemistry, London, special edition
Google Scholar
Gustafsson G, Cao Y, Treacy GM, Klavetter F, Colaneri N, Heeger AJ (1992) Nature 357: 477
Article CAS Google Scholar
Birgerson J, Kaeriyama K, Barta P, Bröms P, Fahlmann M, Granlund T, Salaneck WR (1996) Adv Mater 8: 982
Article CAS Google Scholar
Greenham NC, Moratti SC, Bradley DDC, Friend RH, Holmes AB (1993) Nature 365: 628
Article CAS Google Scholar
Gmeiner J, Karg S, Meier M, Rieß W, Strohriegel P, Schwörer M (1993) Acta Polymer 44: 201
Article CAS Google Scholar
Lidzey DG, Pate MA, Weaver MS, Fisher TA, Bradley DDC (1996) Synth Met 82: 141
Article CAS Google Scholar
Noach S, Faraggi EZ, Cohen G, Avny Y, Neumann R, Davidov D, Lewis A (1996) Appl Phys Lett 69: 3650
Article CAS Google Scholar
Smela E, Kaminorz Y, Inganäs O, Brehmer L (1997) Semicond Sci Tech 13: 433
Article Google Scholar
Wakimoto T, Murayama R, Nagayama K, Okuda Y, Nakada H, Tohma T (1996) Organic LED dot-matrix display. Soc Inf Display, San Diego, p 849
Google Scholar
Morau WM (ed) (1987) Semiconductor lithography - principles, practices, and materials. Plenum Press, New York London
Google Scholar
Brambley D, Martin B, Prewett PD (1994) Advanced Materials for Optics and Electronics 4: 55
Article CAS Google Scholar
Jones RG (1993) Trend in Polymer Science, 1: 372
CAS Google Scholar
Horie K, Yamashita T (eds) (1995) Photsensitive polyimides. Technomic Publ
Google Scholar
Mercer FW, McKenzie MT, Bruma M, Schulz B (1996) High Perform Polym 8: 1
Article Google Scholar
Bruma M, Schulz B, Mercer FW (1994) Polymer 35: 4209
Article CAS Google Scholar
Hamciuc C, Schulz B, Bruma M (1996) Angew Makromol Chem 235: 111
Article CAS Google Scholar
Bruma M, Hamciuc C, Hamciuc E, Mercer FW, Belomoina N, Schulz B (1997) Makrom Chem Macromol Symp 122: 303
Article CAS Google Scholar
Sava I, Schulz B, Zhu S, Bruma M (1995) High Perform Polym 7: 493
Article CAS Google Scholar
Sava I, Szesztay M, Bruma M, Mercer F, Schulz B (1997) Angew Makromol Chem 253: 169
Article CAS Google Scholar
Bruma M, Sava I, Mercer F, Reddy VN, Köpnick Th, Stiller B, Schulz B (1998) Polymer for Advanced Technology 9: 752
Article CAS Google Scholar
Tieke B (1990) Adv. Mater 2: 222
Article Google Scholar
Roberts GG (1985) Advances in Physics 34: 476
Article Google Scholar
Fuchs H, Ohst H, Prass W (1991) Adv Mater 3: 10
Article CAS Google Scholar
Barraud A (1983) Thin Solid Films 99: 317
Article CAS Google Scholar
Fariss G, Lando J, Rickert S (1983) Thin Solid Films 99: 305
Article CAS Google Scholar
Jones R, Winter CS, Tredgold R H, Hodge P, Hoorfar A (1987) Polymer 28: 1619
Article CAS Google Scholar
Broers AN, Pomerantz M (1983) Thin Solid Films 99: 323
Article CAS Google Scholar
Freydank A, Schulz B, Köpnick T, Zetzsche Th, Brehmer L (1996) In: Proceedings ECOF’6. Sheffield
Google Scholar
Saito S, Tsutsui T, Era M, Takada N, Adachi C, Hamada Y, Wakimoto T (1993) SPIE 1910: 212
Article CAS Google Scholar
Metzger TH, Luidl C, Pietsch U, Vierl U (1994) Nucl Inst and Meth in Phys Res A 350: 398
Article CAS Google Scholar

Download references

Authors

Ludwig Brehmer
View author publications
You can also search for this author in PubMed Google Scholar

Editor information

Editors and Affiliations

Division of Biological Sciences, Graduate School of Science, Hokkaido University, 060 Sapporo, Japan
Yoshihito Osada
Centro Interdipartimentale di Ricerca “E. Piaggio”, Facolta di Ingegneria, Universita degli Studi di Pisa, Via Diotisalvi 2, 56100, Pisa, Italia
Danilo E. De Rossi

Rights and permissions

Reprints and permissions

Copyright information

About this chapter

Cite this chapter

Brehmer, L. (2000). Ultrathin Films for Sensorics and Molecular Electronics. In: Osada, Y., De Rossi, D.E. (eds) Polymer Sensors and Actuators. Macromolecular Systems — Materials Approach. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-04068-3_2

Download citation

DOI: https://doi.org/10.1007/978-3-662-04068-3_2
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-08482-9
Online ISBN: 978-3-662-04068-3
eBook Packages: Springer Book Archive

Publish with us

Policies and ethics