01008cam a22002531 4500991000301219707536740917s1963 pau b 000 0 eng b12597004-39ule_instDip.to Scienze pedagogicheitaAnderson, Paul Russell,1907-305281Platonism in the Midwest /Paul R. AndersonPhiladelphia,Temple University Publications;distributed by Columbia University Press, New York,1963216 p.23 cmBibliografia: p.[203]-207Jones, Hiram K.,1818-1903Johnson, Thomas Moore,1851-1919Filosofia americanaStoriaPlatonismo.b1259700421-09-0611-02-04991000301219707536LE022 MP 70 I 612022000057981le022S.i.-E0.00-l- 00000.i1307675911-02-04Platonism in the Midwest277803UNISALENTOle02211-02-04ma -engpau0103996nam 2200781z- 450 991055768640332120210501(CKB)5400000000044668(oapen)https://directory.doabooks.org/handle/20.500.12854/69145(oapen)doab69145(EXLCZ)99540000000004466820202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierLight-Addressing and Chemical Imaging Technologies for Electrochemical SensingBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (122 p.)3-03943-028-9 3-03943-029-7 Visualizing chemical components in a specimen is an essential technology in many branches of science and practical applications. This book deals with electrochemical imaging techniques based on semiconductor devices with capability of spatially resolved sensing. Two types of such sensing devices have been extensively studied and applied in various fields, i.e., arrayed sensors and light-addressed sensors. An ion-sensitive field-effect transistor (ISFET) array and a charge-coupled device (CCD) ion image sensor are examples of arrayed sensors. They take advantage of semiconductor microfabrication technology to integrate a large number of sensing elements on a single chip, each representing a pixel to form a chemical image. A light-addressable potentiometric sensor (LAPS), on the other hand, has no pixel structure. A chemical image is obtained by raster-scanning the sensor plate with a light beam, which can flexibly define the position and size of a pixel. This light-addressing approach is further applied in other LAPS-inspired methods. Scanning photo-induced impedance microscopy (SPIM) realized impedance mapping and light-addressable electrodes/light-activated electrochemistry (LAE) realized local activation of Faradaic processes. This book includes eight articles on state-of-the-art technologies of light-addressing/chemical imaging devices and their application to biology and materials science.Research & information: generalbicsscbioactive cationsCCD ion sensorcell imagingcellular metabolismchemical imagingchemical imaging sensorCMOS technologyCorynebacterium glutamicumcrevice corrosioncrevice gapdifferential cell-based measurementDNA biosensorE. coliEscherichia coliextracellular acidificationfield-effect sensorInGaN/GaN epilayerink-jet printinglabel-free detectionLactobacillus brevisLAPSlight-activated electrochemistrylight-addressable cell stimulation and photoelectrochemistrylight-addressable electrodelight-addressable potentiometric sensorlight-addressable potentiometric sensor (LAPS)microfluidicsmulti-analyte analysismulti-ion imagephotoelectrochemical depositionphotoelectrochemistrypotential distributionsemiconductorspatial and temporal resolutionZnO nanorod arraysResearch & information: generalYoshinobu Tatsuoedt1318427Schöning Michael JedtYoshinobu TatsuoothSchöning Michael JothBOOK9910557686403321Light-Addressing and Chemical Imaging Technologies for Electrochemical Sensing3033230UNINA