"1"^^ . . "Spatially resolved electrochemical sensing of chemical gradients" . "Mensack, N. M." . . . "2" . "5"^^ . . "Henry, C. S." . "Spatially resolved electrochemical sensing of chemical gradients"@en . "4"^^ . . "Dandy, D. S." . "RIV/67985882:_____/13:00396884" . "Wydallis, J. B." . . "CARBON; CHEMOTAXIS; ELECTRODES"@en . "13" . "Spatially resolved electrochemical sensing of chemical gradients" . "Chemical gradients drive a diverse set of biological processes ranging from nerve transduction to ovulation. At present, the most common method for quantifying chemical gradients is microscopy. Here, a new concept for probing spatial and temporal chemical gradients is reported that uses a multi-layer microfluidic device to measure analyte concentration as a function of lateral position in a microfluidic channel using electrochemistry in a format that is readily adaptable to multi-analyte sensing"@en . "10.1039/c2lc41054k" . "I" . "000312219100003" . "Lab on a Chip" . "Spatially resolved electrochemical sensing of chemical gradients"@en . . "[33449D3E2255]" . "Lynn, Nicholas Scott" . "1473-0197" . . . "Lynn, Nicholas Scott" . . . "Chemical gradients drive a diverse set of biological processes ranging from nerve transduction to ovulation. At present, the most common method for quantifying chemical gradients is microscopy. Here, a new concept for probing spatial and temporal chemical gradients is reported that uses a multi-layer microfluidic device to measure analyte concentration as a function of lateral position in a microfluidic channel using electrochemistry in a format that is readily adaptable to multi-analyte sensing" . "106808" . . "RIV/67985882:_____/13:00396884!RIV14-AV0-67985882" . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . . .