Diacetylene Monocarboxylic Acids for LB Films

Recently, the Langmuir-Blodgett Method1) is receiving much attention as a means to obtaining functional organic super thin films in the electric field. This method can control rearrangement in molecular dimensions while retaining highly orderly structure. New diversified applications utilizing the method are being developed in a variety of fields such as molecular electronics, bioelectronics, etc..2) Amphiphilic diacetylene monocarboxylic acids are readily polymerised by heat, light3) and radiation while polymerized films3,4) are thermally and mechanically stable. As a result, application to photoresist material5) having a high degree of resolving power and nonlinear optical material6) are expected.

Diacetylene Monocarboxylic Acids

Related Compounds

Diacetylene Monocarboxylic Acids

H0668 H0668 H0666 H0666 H0667 H0667
H0775 H0775 N0514 N0514 N0515 N0515
P1030 P1030 P1032 P1032 T1200 T1200
H0668 2,4-Heneicosadiynoic Acid
H0666 10,12-Heptacosadiynoic Acid
H0667 2,4-Heptadecadiynoic Acid
H0775 10,12-Heptadecadiynoic Acid
N0514 10,12-Nonacosadiynoic Acid
N0515 2,4-Nonadecadiynoic Acid
P1030 10,12-Pentacosadiynoic Acid
P1032 2,4-Pentadecadiynoic Acid
T1200 10,12-Tricosadiynoic Acid
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Related Compounds

B1298 B1298 B1342 B1342 B1340 B1340
B1348 B1348 C1195 C1195 H0619 H0619
H0663 H0663 P1065 P1065 N0718 N0718
O0193 O0193 O0192 O0192 P1053 P1053
P1054 P1054 P1055 P1055 P0497 P0497
T1211 T1211 T1239 T1239 T1123 T1123
U0054 U0054 U0055 U0055
B1298 1,4-Bis(trimethylsilyl)-1,3-butadiyne
B1342 1-Bromo-4,6-nonadecadiyne
B1340 1-Bromo-10,12-pentacosadiyne
B1348 1-Butynyl Iodide (stabilized with Copper chip)
C1195 3-Chloro-1-butyne
H0619 2,4-Hexadiyne-1,6-diol
H0663 2,4-Hexadiyne-1,6-diol Bis(azobenzene-4-sulfonate)
P1065 1-Iodo-1-propyne
N0718 4,6-Nonadecadiyn-1-ol
O0193 1-Octadecyl-4-(4-phenyl-1,3-butadienyl)pyridinium Bromide
O0192 N-Octadecyl-4-stilbazole Bromide
P1053 10,12-Pentacosadiyn-1-ol
P1054 1-(10,12-Pentacosadiynyl)pyridinium Bromide
P1055 1-Pentynyl Iodide
P0497 Propiolic Acid
T1211 22-Tricosenoic Acid
T1239 Trimethylsilylacetylene
T1123 1-(Trimethylsilyl)-1-propyne
U0054 10-Undecynoic Acid
U0055 10-Undecyn-1-ol
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Literature

1) K. Blodgett, J. Am. Chem. Soc., 1935, 57, 1007 [DOI].
2) (a) M. Sugi, et al., Oyo Butsuri, 1983, 52, 567.
(b) M. Sugi, et al., Hyomen Kagaku (J. Surf. Sci. Soc. Jpn.), 1985, 6, 102.
(c) K. Fukuda, et al., “LB Films and Electronics”,CMC, 1986.
(d) Review: Maku (Membrane), 1986, 11, No.3.
(e) Review: Hyomen Kagaku (j. Surf. Sci. Soc. Jpn.), 1986, 7, No.6.
3) (a) B. Tieke, G. Wegner, D. Naegele, H. Ringsdorf, Angew. Chem., Int. Ed. Engl., 1976, 15, 764 [DOI].
(b) B. Tieke, H. -J. Graf, G. Wegner, B. Naegele, H. Ringsdorf, A. Banerjie, D. Day and J. B. Lando, , Colloid Polym. Sci. 1977, 255, 521 [DOI].
(c) A. Barraud, C. Rosilio, A. Ruaudel-Teixier, J. Colloid Interface Sci., 1977, 62, 509 [DOI].
(d) G. Lieser, B. Tieke, G. Wegner, Thin Solid Films, 1980, 68, 77 [DOI].
4) (a) D. Day, J. B. Lando, Macromolecules, 1980, 13, 1478 [DOI].
(b) I. R. Perterson, IEE Proceeding Pt I, 1983, 130, 252.
5) (a) A. Barraud, et al., Solid State Technology, 1979, 22, 120.
(b) A. Barraud, Charles Rosilio, Annie Ruaudel-Teixier, Thin Solid Films, 1980, 68, 91 [DOI].
(c) A. Barraud, Charles Rosilio, Annie Ruaudel-Teixier, Thin Solid Films, 1980, 68, 99 [DOI].
(d) A. Barraud, Thin Solid Films, 1983, 99,317 [DOI].
6) (a) F. Kajzar, J. Messier, J. Zyss, I. Ledoux, Opt. Commun., 1983, 45, 133 [DOI].
(b) P. A. Chollet, F. Kajzar, J. Messier, Thin Solid Films, 1985, 132, 1 [DOI].
(c) F. Kajzar, J. Messier, Thin Solid Films, 1985, 132, 11 [DOI].

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