「ELectrode」の共起表現一覧(1語右で並び替え)
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lly return to the same location of the solid | electrode adversely manifests itself as shape change a |
E - the potential of the same | electrode against a defined reference electrode, V |
may be struck by either lightly tapping the | electrode against the metal or scratching the electrod |
an pennies from 1997-1999 may serve the zinc | electrode and 1942-1996 pennies as the copper. |
ive, and provides a current path between the | electrode and the work. |
r electrical connections between the sparker | electrode and the spark module electronics are require |
Each cell consists of an | electrode and an electrolyte with ions that undergo ei |
dation of agr-Lipoic Acid at a Glassy Carbon | Electrode and Its Determination in Dietary Supplements |
ata management, and 3) interface technology ( | electrode and electronic packaging technologies). |
ll is a structure that contains a conductive | electrode and a surrounding conductive electrolyte sep |
r manufacturing of wire and nail, wire mesh, | electrode and welding filler, bolt and nut, spring) |
EGW, the heat of the welding arc causes the | electrode and workpieces to melt and flow into the cav |
etal coming from the parts being welded, the | electrode, and the guide tube. |
the proposed future uses of the neurotrophic | electrode, and brain computer interfaces in general, i |
C) or radio-frequency (RF) signal between an | electrode and the conductive walls of a reactor chambe |
y oxidizing or reducing the target gas at an | electrode and measuring the resulting current. |
supply to create an electric arc between an | electrode and the base material to melt the metals at |
Water is passed between an anode (positive | electrode) and a cathode (negative electrode). |
Saturated calomel | electrode and glass electrode are often used in conjun |
A glass | electrode and reference electrode is immersed in the s |
omentarily pump electric charges between the | electrode and the electrolyte, resulting in a potentia |
separate from the water toward the negative | electrode and the negative ions toward the positive el |
Any products generated at the disk | electrode are then swept past the ring electrode. |
ned metalised layer which is used to form an | electrode array and radiating antenna. |
its associated sensor) that terminates in an | electrode array which sits atop the tongue. |
s it into impulses which are sent through an | electrode array, via the tongue, to the person's brain |
He and his colleagues implanted | electrode arrays into a monkey's brain that were able |
His followers use single electrodes and | electrode arrays temporarily inserted or implanted in |
sited is limited by the cross-section of the | electrode, as there is no scope for manually weaving t |
ed on preparation and evaluation of membrane | electrode assemblies as well as fuel cell testing. |
A membrane | electrode assembly (MEA) is an assembled stack of prot |
l function when incorporated into a membrane | electrode assembly (MEA) of a DMFC or DEFC : separatio |
the proton exchange membrane in the membrane | electrode assembly (MEA) of the proton exchange membra |
tetracene in 1963 using a small area silver | electrode at 400V. |
In the 1830s, insertable | electrode attachments for small magnetos could be purc |
But it cannot be an | electrode because auxiliary phase materials are not ge |
For example, when gas near a high voltage | electrode begins to undergo dielectric breakdown, elec |
anode reaction involves a metal atom in the | electrode being dissolved and transported as a positiv |
ield is produced at the tip by an extraction | electrode biased negatively in front of the tip. |
nement induced by a turbulent heating pulse, | electrode biasing and compact torus injection. |
ium tin oxide (ITO) - the common transparent | electrode, but Rh2O3 has 0.2 eV lower work function th |
d the oxidized species are stripped from the | electrode by sweeping the potential positively. |
The carbon | electrode can be worn away by oxidation from heat buil |
There is a third | electrode charged negatively with respect to the catho |
Type III sensors make the | electrode concept even more confusing. |
The three points of | electrode contact on these limbs produces what is know |
rk University developed ohmic dark-injecting | electrode contacts to organic crystals. |
The working | electrode contacts both the electrolyte and the ambien |
k functions) for hole and electron injecting | electrode contacts. |
Rutile is widely used as a welding | electrode covering. |
The self-renewing | electrode does not need to be cleaned or polished like |
th peroxodicarbonate C2O62−, at the negative | electrode during electrolysis of molten lithium carbon |
with peroxocarbonate CO42−, at the negative | electrode during electrolysis of molten lithium carbon |
will deposit on or near the anodic, working | electrode during deposition. |
of interest is electroplated on the working | electrode during a deposition step, and oxidized from |
surface absorbs solar energy and acts as an | electrode for water splitting. |
tial and is the most commonly used reference | electrode for testing cathodic protection corrosion co |
hich makes it also suitable as a transparent | electrode, for example in touchscreens, organic light- |
t, the frequency is determined by an annular | electrode, fringe-effect capacitor, and the dielectric |
xchange membrane fuel cells also protect the | electrode from carbonate formation, which can cause fu |
ion-detecting applications, and a variety of | electrode geometries, such as coplanar grids, have bee |
iffusion approximation can be applied to the | electrode geometry and ohmic drop distortion is minima |
ta was then recorded from implanted subdural | electrode grids placed directly on the surface of the |
moving head variation uses an assembly of an | electrode guide tube which travels upwards as the weld |
his particular application, the neurotrophic | electrode has an advantage in that it has already been |
the cause of this phenomenon to the platinum | electrode he was using. |
The term refers to a hydrogen | electrode immersed in the electrolyte solution actuall |
Chronic subcortical | electrode implant in a laboratory rat used to deliver |
eriments control the potential (volts) of an | electrode in contact with the analyte while measuring |
ated the Bunsen cell battery, using a carbon | electrode instead of the expensive platinum electrode |
If the potential applied to the working | electrode is great enough (an overpotential), then the |
The Copper-copper(II) sulfate | electrode is a type of reference electrode, based on t |
er bearing the electrocatalyst, and the disk | electrode is poised at a potential which reduces the o |
The potential of the ring | electrode is poised to detect any hydrogen peroxide th |
FET transistor, where the charge on the gate | electrode is applied by a chemical process. |
since a laminar flow of solution against the | electrode is neither the objective or outcome of the s |
red more rapidly, or the area of the working | electrode is increased. |
Copper-copper(II) sulfate | electrode is also used as a one of the half cell in th |
) thick, while the maximum thickness for one | electrode is approximately 20 mm (0.8 in). |
One | electrode is commonly used to make welds on materials |
The working | electrode is often used in conjunction with an auxilia |
The reversible hydrogen | electrode is a fairly practical and reproducible elect |
For most standard tests, the working | electrode is a mercury film electrode. |
r sweep voltammetry the current at a working | electrode is measured while the potential between the |
The interior of the | electrode is typically made of titanium. |
The working | electrode is the electrode in an electrochemical syste |
metric method where the current at a working | electrode is measured while the potential between the |
If the potential applied to the working | electrode is sufficient to reduce the analyte, then th |
Depending on whether the reaction on the | electrode is a reduction or an oxidation, the working |
If an | electrode is immersed in hydrochloric acid which conta |
a subclass of voltammetry where the working | electrode is a dropping mercury electrode (DME), usefu |
The | electrode is guided into the weld area by either a con |
tion describing a current at a rotating disk | electrode is named after him. |
The sharpened carbon | electrode is drawn along the metal, an arc forms and m |
This reaction characterized by fast | electrode kinetics, meaning that a sufficiently high c |
Electrode Kinetics, Oxford University Press, 1975 (ISB | |
charge transfer coefficient is the heart of | electrode kinetics. |
eated in this process drift toward a readout | electrode, known as the anode, under the influence of |
lity for each electron which is added to the | electrode material a lithium ion enters the lattice of |
One of its primary uses is as gate | electrode material for MOS devices. |
oxide and hydrogen-storage alloy powder, are | electrode materials for nickel metal hydride (NiMH), a |
CO2 storage as well as in the production of | electrode materials because of their combination of in |
vations thereof using the same biocompatible | electrode materials, are currently used in visual pros |
operation) where the stainless steel counter | electrode might just be earthed. |
oxide by cyclic voltammetry using a graphite | electrode modified with microscopic particles of the u |
etic mobilities, analytes migrate toward the | electrode of opposite charge. |
to 90-fold) and selectivity of a gas exposed | electrode on a solid electrolyte cell upon application |
Each pair has one | electrode on each side of the hinge, with one of the p |
ooth the data by sampling the current at the | electrode only once per drop at a specific size. |
t is the flow of electrons into the positive | electrode, or anode, from a species in solution. |
An ion selective | electrode, or distillation/titration method can often |
is alloy is typically used as an arc welding | electrode or filler material for use with AA 2219 work |
nergy stay closer to a surface of the target | electrode or pulsed electrode when the accelerating vo |
, is the flow of electrons from the negative | electrode, or cathode, interface to a species in solut |
The | electrode pair in the electrolyte with different local |
nt were introduced and the use of unilateral | electrode placement was recommended. |
The | electrode plant continued operating until 2007 when th |
The | electrode potential may also be chosen such that the t |
soluble catalytic anodes, which maintains an | electrode potential that prevents oxidation. |
Zeta potential should not be confused with | electrode potential or electrochemical potential (beca |
an electrochemical cell and controlling the | electrode potential in a zone where the metal is passi |
E: | electrode potential |
Main article: standard | electrode potential |
Using standard | electrode potentials in this way must be done with cau |
The values of standard | electrode potentials are given in the table below in v |
do this experiment several times increasing | electrode potentials from low to high. |
the point where the formal potential of the | electrode reaction is found. |
n: number of electrons involved in the | electrode reaction |
In other systems, the | electrode reactions can involve the metals of the elec |
Here the | electrode reactions convert chemical energy to electri |
al achievement was the fundamental theory of | electrode reactions, which describes the influence of |
te are preferred electron acceptors over the | electrode reducing current generation from an MFC. |
the volume of solution close to the working | electrode, restoring the concentration. |
c between the base material and a consumable | electrode rod or 'stick'. |
The | electrode rod is made of a material that is compatible |
trodes (RRDE) are examples where the working | electrode rotates. |
Most experiment involve a three | electrode setup but the configuration of the setup var |
ge that can be partly compensated by special | electrode shapes. |
For ideal performance the auxiliary | electrode should be similar in surface area, as close |
nclude a light to illuminate the measurement | electrode, so that measurement, logging and recharging |
The | electrode surface properties determine the magnitude o |
DMF) will be reduced (An + e- -> An-) at the | electrode surface that is at a certain negative potent |
econcentration of a metal phase onto a solid | electrode surface or into Hg (liquid) at negative pote |
sition of long, well-ordered chains onto the | electrode surface is followed by growth of either long |
also effect the way anaylte diffuses to the | electrode surface. |
create a laminar flow of solution across the | electrode surface. |
sfer of the substrate in the solution to the | electrode surface. |
Interaction with patch potentials on the | electrode surfaces can be responsible for heating and |
by a layer of caesium atoms adsorbed on the | electrode surfaces. |
d ion can then be held further away from the | electrode surfaces. |
used in electrochemical studies using three | electrode systems when investigating reaction mechanis |
The neurotrophic | electrode: teflon-coated gold wires extend from the ba |
age power supply (30 - 200 kV) and the +H.V. | electrode, the anode. |
As the analyte is reduced at the working | electrode, the concentration of the analyte in the who |
elding allows a weld the entire length of an | electrode to be welded in one pass, without pausing. |
erometric approach), where NO reacts with an | electrode to induce a current or voltage change. |
It employs a consumable carbon or graphite | electrode to melt the material, which is then blown aw |
The torturer then touched the second | electrode to different places on the body, such as the |
water treatment technology that utilizes an | electrode to ionize water molecules and separate disso |
The tendency of the zinc | electrode to dissolve into solution and not fully migr |
used as electrodes; electrons flow from one | electrode to the other outside of the battery, while i |
Diagram of an | electrode used in the field |
ining equilibrium constants before the glass | electrode was invented. |
Damage was often caused where the movable | electrode was applied close to the point where the fix |
nsors measure the electrical potential of an | electrode when no current is flowing. |
of electrolytes, no reactions occur near the | electrode which could transfer electrons, and that the |
tain electrical neutrality the charge of the | electrode will be balanced by a redistribution of ions |
oduced by the disintegration of a flux-cored | electrode wire. |
filtration of high-temperature gases, as an | electrode with high surface area and impeccable corros |
ich are charged due to ion imbalance) to the | electrode with the relevant polarization. |
the victim and a wire with a bare end or an | electrode with a wooden insulating handle, is moved ar |
A gold disk working | electrode with a Teflon shroud insulating the disk. |
his advantage comes at the cost of a working | electrode with a constantly changing surface area. |
ossible to predict where and when the moving | electrode would next be touched to the body. |
al above that of mercury, or where a mercury | electrode would be otherwise unsuitable, a solid, iner |
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