Devices interfaces

Maitani MM, Allara DL, Ohlberg DAA, Li Z, Williams RS, Stewart DR (2010) High integrity metal/organic device interfaces via low temperature buffer layer assisted metal atom nucleation. Appl Phys Lett 96(17) 173109-173113... [Pg.269]

In addition to improving structural order, reliable improvements of device performance have been demonstrated through optimization of device interfaces and architectures. The architectures are perhaps more easily addressed, and are also related to improving the structural order. Several possible constructions of TFT are known from the long history of silicon-based devices. These were the first architectures adopted for OTFTs also. Top and bottom contact, indicating the location of the source and drain electrodes with regard to the semiconductor, are the most widely used. [Pg.41]

GDDM (graphical data display manager) GDI (graphics device interface)... [Pg.164]

Application of laser Raman multichannel spectroscopy to a kinetic investigation in the liquid phase has been reported by Crunelle-Cras and Merlin (1977). A multichannel spectrometer with photoelectric image devices, interfaced with a data aquisition and handling system, permits the study of fast processes, exemplified by the fast oxidation of the sulfite ion by the bromate ion in an acidic medium. [Pg.433]

Tegeler, T.J., Mechref, Y., Boraas, K., Reilly, J.P and Novotny, M.V. (2004) Microdeposition device interfacing capillary electrochromatography and microcolumn liquid chromatography with matrix-assisted laser desorption/ionization mass spectrometry. Anal. Chem. 76, 6698—6706. [Pg.379]

Input/output devices Interfaces Display systems Power systems Portable systems... [Pg.59]

Enhanced Small Device Interface (ESDI) A popular hard-disk, floppy-disk, and tape-drive interface standard, capable of a data transfer rate of 10 to 20 megabits per second. ESDI is most often used with large hard disks. [Pg.829]

T.J. Tegeler, Y. Mechref, K. Boraas, J.P. Reilly, M.V. Novotny, Microdeposition device interfacing capillary electrochromatography and microcolumn LC with MALDI-MS, Anal. Chem., 76 (2004) 6698. [Pg.140]

The CIC connectivity standards are represented simply as the two interfaces between the POCT devices and information systems (Figure 12-11). The device interface passes patient results and QC information between the POCT instrument and devices, such as docking stations, concentrators, terminal servers, and point-of-care data managers. The latter have to be linked to a variety of information systems via the observation reporting interface or electronic data interface, for transmission of ordering information and patient results. [Pg.309]

Schwarzacher, W. Metal nanostructures a new class of electronic devices. Interface (Electrochem. Soc.) 1999, 8, 20-24. [Pg.832]

Electronic communication is not restricted to the problem of the native device interface. To gain access to all information relevant for a laboratory process, the internal laboratory workflow must be taken into account. Consequently, a workflow analysis is one of the most important steps in implementing instrument ports. [Pg.320]

Several studies have examined the influence of film morphology on sensor behavior [109, 168-178]. Two main areas of interest are the influence of film thickness and grain size on the time scale for sensor response as well as the magnitude (sensitivity) of sensor response. Other factors that may influence the conductivity response are the nature of the semiconductor-metal device contacts, as well as charge accumulation at other device interfaces, such as the gate oxide in field effect sensor devices. [Pg.103]

The paper of Diem and Ludl (152) describes a low-cost microcomputer-controlled diode array detector data acquisition device (interface) designed for low-level optical spectroscopies. While these authors are interested in Raman... [Pg.260]

CREATING A BIOCOMPATIBLE TISSUE -DEVICE INTERFACE ADVANTAGES OF SiC... [Pg.295]

Figure 4.12 Schematic of the PDMS multichannel device interfaced to ESI-TOF-MS with sample injection system and ESI voltage connection. (Reprinted with permission from ref. 21).

Heterostructures based on III-V compounds (InP, GaAs, GalnAlAs, GalnAsP) are very important in the field of high frequency optoelectronic devices. Interface chemistry control is a key point for device quality and reliability. III-V compounds have highly reactive surfaces leading to an easy formation of vacancies for instance which are detrimental to the electronical characteristics. To solve these problems passivation treatments are needed. Classical treatments are based on vapor phase reactions or other wet procedures like chemical oxidation or ammonium sulfide treatments. [Pg.224]

NAPLPS was designed specifically to meet the needs of videotext on slow speed telecommunication lines currently, it is the videotext standard in the United States and Canada. As a communication standard for the exchange of graphical and textual information, it is a useful device interface because it is compact, portable, and resolution independent. A decoder is needed on the terminal to receive and display NAPLPS. This can be a software emulator or it can be built into the hardware. [Pg.135]

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