Quimiossensores cromogênicos e fluorogênicos para a detecção de analitos aniônicos

Abstract: Recebido em 11/2/08; aceito em 12/6/08; publicado na web em 17/11/08 CHROMOGENIC AND FLUOROGENIC CHEMOSENSORS FOR DETECTION OF ANIONIC ANALITES. The detection of anionic species is a field which is currently attracting increasing interest. Research is carried out not only to gain a better understanding of biological events that anions participate in, but also to ascertain the potential contribution of the anionic chemosensors to the qualitative and quantitative analysis of species of interest in the areas of i… Show more

“…A large variety of chemosensors, based on supramolecular chemistry and nanotechnologic approaches, have been developed in recent years aiming to find solutions for analytical problems associated with the visual and quantitative detection of various chemical species, which are important in several fields, being involved in chemical, industrial, biomedical, and environmental processes. − The conception of a chemosensor for a particular chemical species is based on the study of an adequate receptor unit, linked by means of a spacer or through noncovalent interactions to a signalizing unit. While the recognition of the target analyte occurs at the receptor site, the signalizing unit is responsible for the detection of the recognized species.…”

Pyridinium N-Phenolate Betaine Dyes

“…A large variety of chemosensors, based on supramolecular chemistry and nanotechnologic approaches, have been developed in recent years aiming to find solutions for analytical problems associated with the visual and quantitative detection of various chemical species, which are important in several fields, being involved in chemical, industrial, biomedical, and environmental processes. − The conception of a chemosensor for a particular chemical species is based on the study of an adequate receptor unit, linked by means of a spacer or through noncovalent interactions to a signalizing unit. While the recognition of the target analyte occurs at the receptor site, the signalizing unit is responsible for the detection of the recognized species.…”

Pyridinium N-Phenolate Betaine Dyes

“…The development of different strategies for obtaining optical chemosensors for anionic detection is an important challenge which many research groups have confronted in recent years [1][2][3][4][5][6][7][8][9][10][11][12][13], due to the fact that anionic species play a very important role in many chemical and biological processes. In this regard, many optical chemosensors have been developed for fluoride (F − ) [14][15][16] and cyanide (CN − ) [17].…”

Anionic chromogenic chemosensors highly selective for cyanide based on the interaction of phenyl boronic acid and solvatochromic dyes

“…Many chromogenic chemosensors have been developed for the selective visual and quantitative detection of anions [7][8][9][10][11][12][13][14][15][16][17]. In this regard, CN À represents an important target analyte to be detected due to its many industrial applications and considering the risk that it poses to human health, being lethal in very small amounts because it inhibits the mitochondrial electron transport chain due to its strong binding to the active site of cytochrome-oxidase [18][19][20].…”

“…Some roots and fruit seeds release CN À through hydrolysis [21] and also some neurotoxic agents [22][23][24] deliver CN À through hydrolysis [25], highlighting the importance of the development of optical chemosensors for CN À detection [26][27][28][29]. http Many strategies have been used to detect CN À , these being generally based on acid-base equilibrium [11,[30][31][32][33], the formation of cyanide complexes [34][35][36][37][38][39] and the development of chemodosimeters, which are systems able to interact with the anion through irreversible reactions [11,13,[40][41][42]. The design of a chemodosimeter requires the connection of at least two functional units: the reaction site (responsible for the interaction of the device with the analyte); and a signalizing unit (which provides the optical signal indicating the presence of the analyte).…”

A novel strategy for chromogenic chemosensors highly selective toward cyanide based on its reaction with 4-(2,4-dinitrobenzylideneamino)benzenes or 2,4-dinitrostilbenes