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"electron transfer potential"¿¡ ´ëÇÑ °Ë»ö °á°úÀÔ´Ï´Ù. °Ë»ö °á°ú º¸´Â µµÁß¿¡ Tab ۸¦ ´©¸£½Ã¸é °Ë»ö âÀÌ ¼±Åõ˴ϴÙ.
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  • ¿µ¹®
    ÇѱÛ
  • streaming potential
    È帧ÀüÀ§
  • summating potential
    °¡ÁßÀüÀ§
  • synaptic potential
    ½Ã³À½ºÀüÀ§, ¿¬Á¢ÀüÀ§
  • segmental sensory evoked potential
    ºÎºÐ°¨°¢À¯¹ßÀüÀ§
  • sensory nerve action potential
    °¨°¢½Å°æÈ°µ¿ÀüÀ§
  • serrated action potential
    Åé´ÏȰµ¿ÀüÀ§
  • visual evoked potential
    ½Ã°¢À¯¹ßÀüÀ§
  • zeta potential
    ¿µÀüÀ§, Á¦Å¸ÀüÀ§
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  • ¿µ¹®
    ÇѱÛ
  • oxidation-reduction potential
    »êȭȯ¿øÀüÀ§
  • potential
    ÀüÀ§, °¡´É¼º, ÀáÀç·Â
  • pacemaker potential
    ½É¹ÚÁ¶À²±âÀü¾Ð, ÇâµµÀâÀÌÀüÀ§, ÆäÀ̽º¸ÞÀÌÄ¿ÀüÀ§
  • pathogenic potential
    ¹ßº´´É
  • phase boundary potential
    »ó°èÀüÀ§
  • plate potential
    ÆÇÀüÀ§
  • plateau potential
    °í¿øÀüÀ§, °í¿øÀü¾Ð
  • polarizing potential
    ºÐ±ØÀüÀ§, ºÐ±ØÀü¾Ð
  • polyphasic action potential
    ´Ù»óȰµ¿ÀüÀ§
  • potential surface
    ÀüÀ§¸é
  • potential trauma
    ÀáÀç¿Ü»ó
  • potential doubling time
    ÀáÀç¹è°¡½Ã°£
  • receptor potential
    °¨¼ö±âÀüÀ§, °¨¼ö±âÀü¾Ð, ¼ö¿ëüÀü¾Ð
  • redox potential
    »êȭȯ¿øÀüÀ§
  • reduction potential
    ȯ¿øÀüÀ§
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  • ¿µ¹®
    ÇѱÛ
  • electron system
    ÀüÀÚÀü´Þ°è.
  • electron theory
    ¹æ»ç ÇÙÀÇÀüÀÚÀÌ·Ð(¡­ìµÖå).
  • electron transparence
    ÀüÀÚÅõ°úµµ(¡­÷âΦöô).
  • electron tube
    ¹æ»ç ÀüÀÚ°ü(ï³í­Î·).
  • electron unit
    ¹æ»ç ÀüÀÚ´ÜÀ§(¡­Ó¤êÈ).
  • electron volt
    ÀüÀÚº¼Æ®
  • electron volt =eV
    ¹æ»ç ÀüÀÚº¼Æ®.
  • electron wave
    ÀüÀÚÆÄ
  • electron wave
    ÀüÀÚÆÄ(ï³í­÷î).
  • electron-beam therapy
    ÀüÀÚ¼± Ä¡·á
  • free electron
    ÀÚÀ¯ÀüÀÚ
  • free electron
    ÀÚÀ¯ÀüÀÚ(í»ë¦ï³í­).
  • high electron density
    °íÀüÀڹеµ(ÍÔï³í­ÚËöô).
  • immune electron microscopy
    ¸é¿ªÀüÀÚÇö¹Ì°æ¹ý.
  • immune-electron microscopy
    ¸é¿ªÀüÀÚÇö¹Ì°æ¹ý
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    ÇѱÛ
  • resting potential
    ÈÞ½Ä ÀüÀ§(ï³êÈ)
  • sedimentation potential
    ħ°­Àü¾Ð (öØË½ï³äâ)
  • standard electrode potential
    Ç¥ÁØ Àü±ØÀüÀ§(øöñÞï³Ð¿ï³êÈ)
  • standard oxidation potential
    Ç¥ÁØ »êÈ­ÀüÀ§(øöñÞß«ûùï³êÈ)
  • standard potential
    Ç¥ÁØÀüÀ§(øöñÞï³êÈ)
  • standard reduction potential
    Ç¥ÁØ È¯¿øÀüÀ§(øöñÞü½êªï³êÈ)
  • starting potential
    ½ÃÀÛ ÀüÀ§ (ã·íÂï³êÈ)
  • Stern potential
    ½ºÅÏ ÀüÀ§(ï³êÈ)
  • streaming potential
    È帧 ÀüÀ§(ï³êÈ)
  • surface potential
    Ç¥¸éÀüÀ§ (øúØüï³êÈ)
  • threshold potential
    ¹®ÅÎÀüÀ§ (ï³êÈ)
  • transmembrane potential
    ¸·È¾´ÜÀüÀ§(دüôÓ¨ï³êÈ)
  • zeta potential
    Á¦Å¸ ÀüÀ§(ï³êÈ)
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EDP electron dense particle; electronic data processing; end-diastolic pressure
EELS electron energy loss spectroscopy
EGS electrogalvanic stimulation; electron gamma-shower; external guide sequence
EIMS electron ionization mass spectrometry
ELS Eaton-Lambert syndrome; electron loss spectroscopy; extended least square; extracorporeal life suppo...
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OTF Optical transfer functions
PC-TP Phosphatidylcholine transfer protein
PI-TP Phosphatidylinositol transfer protein
PLTP Phospholipid Transfer Protein
RET Resonance Energy Transfer
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reverse electron transport <chemistry> The energy-dependent movement of electrons against the thermodynamic gradient to form a strong reductant from a weaker electron donor.
(11 Jan 1998)
microscope, electron <microscopy> An electron-optical device which produces a magnified image of an object. Detail may be revealed by virtue of selective transmission, reflection, or emission of electrons by the object.
(05 Aug 1998)
microscopy, electron Visual and photographic microscopy in which electron beams with wavelengths thousands of times shorter than visible light are used in place of light, thereby allowing much greater magnification.
(12 Dec 1998)
microscopy, electron, scanning Microscopy in which the object is examined directly by an electron beam scanning the specimen point-by-point, giving the surface image a three-dimensional quality.
(12 Dec 1998)
microscopy, electron, scanning transmission A type of electron microscopy which scans with an extremely narrow beam that is transmitted through the sample. The detection apparatus produces an image whose brightness depends on the atomic number of the sample. It should not be confused with microscopy, electron scanning nor with microscopy, electron, transmission (see microscopy, electron).
(12 Dec 1998)
Conventional Transmission Electron Microscopy <technique> A term applied to 'normal' transmission electron microscopy imaging. The electron beam is passed through a thin film sample (typically ~1-200 nm thick). Bright field diffraction contrast images are formed with the direct (undiffracted) beam. Dark field images are formed with a selected diffracted beam. CTEM imaging is used in the general observation of samples and careful selection of the diffracting conditions of the sample will allow the analysis of defect structures within the sample.
(05 Aug 1998)
Convergent Beam Electron Diffraction <microscopy> An electron probe is tightly focused on a transmission electron microscopy specimen and the resulting pattern of diffracted electrons is observed.
The patterns contains information on the crystal symmetry and atomic and electronic structure of the sample. Regions as small as 0.2 nm may be examined.
Acronym: CBED
(05 Aug 1998)
conversion electron An internal conversion electron.
(05 Mar 2000)
positive electron A subatomic particle of mass and charge equal to the electron but of opposite (i.e., positive) charge.
Synonym: positive electron.
(05 Mar 2000)
scanning electron microscope <instrument> An electron microscope in which the image is formed by a beam synchronised with an electron probe scanning the object.
The intensity of the image forming beam is proportional to the scattering or secondary emission of the specimen where the probe strikes it
(05 Aug 1998)
scanning electron microscopy <procedure> Technique of electron microscopy in which the specimen is coated with heavy metal and then scanned by an electron beam. The image is built up on a monitor screen (in the same way as the raster builds a conventional television image). The resolution is not so great as with transmission electron microscopy, but preparation is easier (often by fixation followed by critical point drying), the depth of focus is relatively enormous, the surface of a specimen can be seen (though not the interior unless the specimen is cracked open) and the image is aesthetically pleasing.
(18 Nov 1997)
scanning transmission electron microscopy <procedure> Method of electron microscopy in which image formation depends upon analysis of the pattern of energies of electrons that pass through the specimen. Has comparable resolving power to conventional transmission EM.
(18 Nov 1997)
secondary electron <microscopy> Produced by an incident electron passing near an atom in the specimen, near enough to impart some of its energy to a lower energy electron (usually in the K-shell). This causes a slight energy loss and path change in the incident electron and the ionisation of the electron in the specimen atom. This ionised electron then leaves the atom with a very small kinetic energy (5eV) and is then termed a secondary electron. Each incident electron can produce several secondary electrons.
(05 Aug 1998)
secondary electron imaging <microscopy> Production of secondary electrons is very topography related. Due to their low energy, 5eV, only secondaries that are very near the surface (less than 10nm) can exit the sample and be examined. Any changes in topography in the sample that are larger than this sampling depth will change the yield of secondaries due to collection efficiencies. Collection of these electrons is aided by using a collector in conjunction with the secondary electron detector. The collector is a grid or mesh with a +100V potential applied to it which is placed in front of the detector, attracting the negatively charged secondary electrons to it which then pass through the grid-holes and into the detector to be counted. When a Secondary Electrons collide with the solid-state saemiconductor detector an electron-hole pairs are created which are then counted. This quantity is translated into a pixel intensity and displayed on the CRT, forming the image.
(05 Aug 1998)
Selected Area Electron Diffraction <technique> In this diffraction mode an aperture is used to define the area from which a diffraction pattern is to be recorded from a thin sample. This aperture is typically located in an image plane below the sample.
Selected Area Electron Diffraction patterns are simple spot patterns and are of use in phase determination (lattice spacing measurement) and defect analysis (sample orientation).
Acronym: SAED
(05 Aug 1998)
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