Model
|
Photo
|
Description
|
IDA
|
|
IDA
Electrode
Characteristic:
High sensitivity CV measurement
Very small
quantity electrochemical measurement
Small and integrated
Fast
response
Conductivity measurement
Applications:
Electrode for liquid chromatography
Electrode for
electrochemical analysis
Biosensor and chemical sensor
Chemically modified
electrode
Electrode for Chemical reaction process control
|
Name
|
Wide(µm)
|
interval(µm)
|
length(mm)
|
Number of
feet
|
|
IDA Electrode
Au
|
10
|
5
|
2
|
65
|
|
IDA Electrode
Pt
|
10
|
5
|
2
|
65
|
|
IDA Electrode
C
|
10
|
5
|
2
|
65
|
|
|
IDA3
|
|
3um IDA
Electrode
More fine IDA(Pt/Au) Electrode
was developed. Its 3µm pitch working electrodes significantly increase redox
cycle and allow reserachers to perform ultra-sensitive
measurement.
Catalog
No.
|
Description
|
Width(µm)
|
Interval(µm)
|
Length(mm)
|
Number of feet
(pairs)
|
011960
|
IDA
electrode (Au) 3um
|
3
|
3
|
2
|
65
|
011961
|
IDA
electrode (Pt) 3um
|
3
|
3
|
2
|
65
|
011122
|
Cable
kit for IDA electrode
|
|
RDPE
|
|
Ring Disc Electrode is a
printed electrode developed by NTT Advance Technology. As figure showed below,
ring disc shaped electrode is formed on a glass plate. There is carbon, gold and
platinum type of this electrode, and it can be used for radial flow cell
electrode. Diameter of electrode disc is 3mm, inner ring diameter 4mm, outer
ring diameter 6mm, and electrode thickness 0.1µm. When it used in radial flow
cell, in micro flow it will gain an optimum coulometric electrolysis. At this
condition, on the center of electrode disc will occur 100% oxidation
(reduction). As special feature, this system can perform qualitative and
quantitative analysis simultaneously and also analyze the successive chemical
reaction. Using Horse Radish Peroxidase(HRP) developed by Prof. Adam Heller from
Texas Univ coated on it, the electrode be able to analyze hydrogen peroxide at
zero volt. A flow injection analysis system also performable by modifying
electrode with other oxidase to analyze many biochemical
matters.
Catalog
No.
|
Product name and
specifications
|
Quantity
|
010392
|
Ring disc electrode
Au
|
3 pcs.
|
010393
|
Ring disc electrode
Pt
|
3 pcs.
|
010394
|
Ring disc electrode
C
|
3 pcs.
|
|
ITO
|
|
ITO
electrode
This quite unique material transmits only visible light
whereas it does not transmit UV radiation. Our ITO electrodes consist of 100 nm
thick of ITO layer deposited on quartz glass substrate (0.5 mm thick).
We are
capable of produce special ITO products such as:
Plane ITO plate
Ring-Disk electrode
Sprit-Disk electrode
IDA electrode
Special
cells etc.
|
AC1
|
|
The sensor is
formed on a corundum ceramic base.
On to this surface the working, the
reference and the auxiliary electrodes are applied. The working and the
auxiliary electrodes are made of Gold and the reference one is made of Silver in
standard product AC1.WS.RS. At the end of the sensor there is a contacting field
which is connected with the active part by the silver conducting paths which are
covered by a dielectric protection layer. A bio-chemically active substance is
put on the working electrode of the sensor.
|
AC2
|
|
The sensor is
formed on a corundum ceramic base. On to this surface two working electrodes,
and the reference electrode are applied. The working electrodes are made of Gold
and the reference one is made of Silver in standard product AC2.WS.RS. At the
end of the sensor there is a contacting field which is connected with the active
part by the silver conducting paths which are covered by a dielectric protection
layer. A bio-chemically active substance is put on the working electrodes of the
sensor.
|
AC3
|
|
The sensor is
formed on a corundum ceramic base.
On to this surface working electrode is
applied. The working electrode is made of Gold in standard product AC3.WS. At
the end of the sensor there is a contact which is connected with the active part
by the silver conducting path which is covered by a dielectric protection layer.
A bio-chemically active substance is put on the working electrode of the sensor.
|
AC4
|
|
The sensor is
formed on a corundum ceramic base.
On to this surface working electrode is
applied. The working electrode is made of Gold in standard product AC4.WS. At
the end of the sensor there is a contact which is connected with the active part
by the silver conducting path which is covered by a dielectric protection layer.
A bio-chemically active substance is put on the working electrode of the sensor.
|
AC5
|
|
The sensor is
formed on a corundum ceramic base.
On to this surface the working and the
reference electrodes are applied.The working electrodes create an array of eight
electrodes. The working electrodes are made of Gold and the reference are made
of Silver in standard product AC5.WS.RS. At the end of the sensor there is a
contacting field which is connected with the active part by the silver
conducting paths which are covered by a dielectric protection layer. A
bio-chemically active substance is put on the working electrodes of the sensor.
|
AC6
|
|
The sensor is
formed on a corundum ceramic base.
On to this surface the working, the
reference and two auxiliary electrodes are applied. The working and the
auxiliary electrodes are made of Gold and the reference one is made of Silver in
standard product AC6.WS.RS. At the end of the sensor there is a contacting field
which is connected with the active part by the silver conducting paths which are
covered by a dielectric protection layer. A bio-chemically active substance is
put on the working electrode of the sensor.
|
AC7
|
|
The sensor is
formed on a corundum ceramic base.
On to this surface the working, the
reference and the auxiliary electrodes are applied. The working and the
auxiliary electrodes are made of Gold and the reference one is made of Silver in
standard product AC1.WS.RS. At the end of the sensor there is a contacting field
which is connected with the active part by the silver conducting paths which are
covered by a dielectric protection layer. A bio-chemically active substance is
put on the working electrode of the sensor.
|
AC8
|
|
The sensor is
formed on a corundum ceramic base.
On to this surface working electrode is
applied. Four working electrodes are made of Gold in standard product AC8.WS. At
the end of the sensor there is a contact which is connected with the active part
by the silver conducting path which is covered by a dielectric protection layer.
A bio-chemically active substance is put on the working electrodes of the
sensor.
|
AC9
|
|
The sensor is
formed on a corundum ceramic base. On to this surface eight working electrodes,
and the reference electrodes are applied. The working electrodes are made of
Gold and the reference one is made of Silver in standard product AC9.WS.RS. At
the end of the sensor there is a contacting field which is connected with the
active part by the silver conducting paths which are covered by a dielectric
protection layer. A biochemically active substance is put on the working
electrodes of the sensor.
|
CC1
|
|
The sensor is
formed on a corundum ceramic base.
Onto this surface two interdigitated
structures of electrodes are applied. The electrodes are made of Platinum-Gold
alloy in standard product CC1.WS. At the end of the sensor there is a contact
which is connected with the active part by the silver conducting path which is
covered by a dielectric protection layer. A bio-chemically active substance is
put on the working electrode of the sensor.
|
CC2
|
|
The sensor is
formed on a corundum ceramic base.
Onto this surface two interdigitated
structures of electrodes are applied. The electrodes are made of Platinum-Gold
alloy in standard product CC2.WS. At the end of the sensor there is a contact
which is connected with the active part by the silver conducting path which is
covered by a dielectric protection layer. A bio-chemically active substance is
put on the electrodes, one interdigitated structure, the second structure is
reference.
|
|
|
비교전극용 AgCl잉크
표면저항
|
0.2Ω/sq/25.4μm
|
점도
|
50,000±10,000CP@21.1℃
|
인화점
|
82℃
|
용량
|
2ml
|
도전체에 바르는 것만으로 기준전극 역할을 할 수 있는
잉크입니다.
|