Chemistry Reference
In-Depth Information
39. Varnes AW, Dodson RB, Wehry EL (1972) Interactions of transition-metal ions with
photoexcited states of flavins. Fluorescence quenching studies. J Am Chem Soc 94:
946-950
40. Geddes CD, Apperson K, Karolin J et al (2001) Chloride-sensitive fluorescent indicators.
Anal Biochem 293:60-66
41. Miyaji H, Sessler JL (2001) Off-the-shelf colorimetric anion sensors. Angew Chem Int Ed
40:154-157
42. Aldakov D, Anzenbacher P Jr (2003) Dipyrrolyl quinoxalines with extended chromophores
are efficient fluorimetric sensors for pyrophosphate. Chem Commun 12:1394-1395
43. Amendola V, Esteban-Gomez D, Fabbrizzi L et al (2006) What anions do to N-H-containing
receptors. Acc Chem Res 39:343-353
44. Ros-Lis JV, Mart´nez-M´˜ez R, Sancen´n F et al (2007) Signalling mechanisms in anion-
responsive push-pull chromophores: the hydrogen-bonding, deprotonation and anion
exchange chemistry of functionalized azo dyes. Eur J Org Chem 2449-2458
45. Buhleier E, Wehner W, V¨gtle F (1978) Ligandstruktur und Komplexierung, XIII:
2,2
0
-Bipyridin als Baustein fur neue Aza-Kronenether und Cryptanden. Chem Ber
111:200-204
46. Mutai T, Abe Y, Araki K (1997) A novel bipyridine-based fluorescent host for diphenyl
phosphate: affinity, photo-response and mechanism. J Chem Soc Perkin Trans 2:
1805-1809
47. L
´
tard JF, Lapouyade R, Rettig W (1993) Synthesis and photophysical study of 4-(N-
monoaza-15-crown-5) stilbenes forming TICT states and their complexation with cations.
Pure Appl Chem 65:1705-1712
48. Blackburn C, Bai M, LeCompte KA et al (1994) Lithium responsive fluorophores derived
from monoaza-12-crown-4 and coumarin. The influence of a methoxy side-arm on photo-
physical properties. Tetrahedron Lett 43:7915-7918
49. Bourson J, Pouget J, Valeur B (1993) Ion-responsive fluorescent compounds. 4. Effect of
cation binding on the photochemical properties of a coumarin linked to monoaza- and diaza-
crown ethers. J Phys Chem 97:4552-4557
50. Delmond S, L´tard JF, Lapouyade R et al (1996) Cation-triggered photoinduced intramolecu-
lar charge transfer and fluorescence red-shift in fluorescence probes. New J Chem 20:861-869
51. Yang JS, Hwang CY, Hsieh CC et al (2004) Spectroscopic correlations between super-
molecules and molecules. Anatomy of the ion-modulated electronic properties of the nitro-
gen donor in monoazacrown-derived intrinsic fluoroionophores. J Org Chem 69:719-726
52. Li YQ, Bricks JL, Resch-Genger U et al (2006) Bifunctional charge transfer operated
fluorescent probes with acceptor and donor receptors. 2. Bifunctional cation coordination
behavior of biphenyl-type sensor molecules incorporating 2, 2
0
:6
0
,2
00
-terpyridine acceptors.
J Phys Chem A 110:10972-10984
53. Valeur B, Leray I (2000) Design principles of fluorescent molecular sensors for cation
recognition. Coord Chem Rev 205:3-40
54. Rettig W, Lapouyade R (1994) Fluorescence probes based upon twisted intramolecular
charge transfer TICT states and other adiabatic photoreactions. In: Lakowicz JR (ed)
Topics in fluorescence spectroscopy: volume 4: probe design and chemical sensing. Plenum,
New York, pp 109-149
55. Rettig W, Rurack K, Sczepan M (2001) From cyanines to styryl bases - photophysical
properties, photochemical mechanisms, and cation sensing abilities of charged and neutral
polymethinic dyes. In: Valeur B, Brochon JC (eds) New trends in fluorescence spectroscopy:
applications to chemical and life sciences. Springer, Berlin, pp 125-155
56. Taki M, Watanabe Y, Yamamoto Y (2009) Development of ratiometric fluorescent probe for
zinc ion based on indole fluorophore. Tetrahedron Lett 50:1345-1347
57. Suksai C, Tuntulani T (2003) Chromogenic anion sensors. Chem Soc Rev 32:192-202
58. Kato R, Nishizawa S, Hayashita T et al (2001) A thiourea-based chromoionophore for
selective binding and sensing of acetate. Tetrahedron Lett 42:5053-5056
Search WWH ::
Custom Search