Synthesis and Chiral Recognition Properties of Novel Fluorescent Chemosensors for Amino Acid

[1]  Guangyan Qing,et al.  Novel chiral fluorescent chemosensors for malate and acidic amino acids based on two-arm thiourea and amide , 2008 .

[2]  F. Pfeffer,et al.  Indole as a scaffold for anion recognition. , 2007, Organic & biomolecular chemistry.

[3]  F. Sansone,et al.  N-linked peptidocalix[4]arene bisureas as enantioselective receptors for amino acid derivatives. , 2007, The Journal of organic chemistry.

[4]  V. Lynch,et al.  Diindolylquinoxalines: effective indole-based receptors for phosphate anion. , 2006, Journal of the American Chemical Society.

[5]  T. Gunnlaugsson,et al.  Synthesis and photophysical evaluation of charge neutral thiourea or urea based fluorescent PET sensors for bis-carboxylates and pyrophosphate. , 2005, Organic & biomolecular chemistry.

[6]  T. Gunnlaugsson,et al.  Fluorescent Photoinduced Electron Transfer (PET) Sensors for Anions; From Design to Potential Application , 2005, Journal of Fluorescence.

[7]  R. Martínez‐Máñez,et al.  New Advances in Fluorogenic Anion Chemosensors , 2005, Journal of Fluorescence.

[8]  Xiaojun Wu,et al.  Synthesis and chiral recognition of novel chiral fluorescence receptors bearing 9-anthryl moieties , 2005 .

[9]  Jianzhang Zhao,et al.  An enantioselective fluorescent sensor for sugar acids. , 2004, Journal of the American Chemical Society.

[10]  H. Katagiri,et al.  Synthesis of an inherently chiral O,O′-bridged thiacalix[4]crowncarboxylic acid and its application to a chiral solvating agent , 2004 .

[11]  M. Sabat,et al.  Macrocyclic bisbinaphthyl fluorophores and their acyclic analogues: signal amplification and chiral recognition. , 2004, The Journal of organic chemistry.

[12]  Lin Pu,et al.  Fluorescence of organic molecules in chiral recognition. , 2004, Chemical reviews.

[13]  Félix Sancenón,et al.  Fluorogenic and chromogenic chemosensors and reagents for anions. , 2003, Chemical reviews.

[14]  S. Ishihara,et al.  Isothiouronium-derived simple fluorescent chemosensors of anions , 2002 .

[15]  Richard J. Fitzmaurice,et al.  Synthetic receptors for carboxylic acids and carboxylates , 2002 .

[16]  J. You,et al.  Novel chiral imidazole cyclophane receptors: synthesis and enantioselective recognition for amino acid derivatives. , 2002, Chemical communications.

[17]  T. Gunnlaugsson,et al.  Fluorescent photoinduced electron transfer (PET) sensing of anions using charge neutral chemosensors , 2001 .

[18]  J. Malval,et al.  Derivatization of 4-(Dimethylamino)benzamide to Dual Fluorescent Ionophores: Divergent Spectroscopic Effects Dependent on N or O Amide Chelation , 2001 .

[19]  U. Nilsson,et al.  An Efficient and Convergent Route Towards Water-Soluble, Chiral and Amphiphilic Macrocycles. , 2001 .

[20]  S. Ishihara,et al.  A simple anion chemosensor based on a naphthalene–thiouronium dyad , 2000 .

[21]  T. Hayashita,et al.  Anion Sensing by a Thiourea Based Chromoionophore via Hydrogen Bonding , 1998 .

[22]  R. M. Izatt,et al.  Enantiomeric Recognition of Amine Compounds by Chiral Macrocyclic Receptors. , 1997, Chemical reviews.

[23]  W. Rettig,et al.  Amide Derivatives of DMABN: A New Class of Dual Fluorescent Compounds , 1997 .

[24]  Terence E. Rice,et al.  Signaling Recognition Events with Fluorescent Sensors and Switches. , 1997, Chemical reviews.

[25]  Kwang Soo Kim,et al.  Origin of diastereoselectivity in the nitrile oxide cycloadditions with Oppolzer's chiral sultams: coulombic interaction as the key role in diastereofacial differentiation , 1993 .

[26]  N. Ernsting,et al.  Tuning of photoinduced energy transfer in a bichromophoric coumarin supermolecule by cation binding , 1992 .

[27]  Michael Famulok,et al.  Stereospecific recognition of tryptophan agarose by in vitro selected RNA , 1992 .