Platinum-Iridium Electrodes, Blunted Tip

(MicroProbes)
Description

Platinum-Iridium alloy is considered by many to be the “gold standard” for chronic recording and microstimulation due to its excellent electrochemical and mechanical characteristics.

Advantages Disadvantages
  • Platinum-Iridium possesses lower concomitant impedance, higher charge transfer capacity, and improved electrochemical stability compared to tungsten and stainless steel.
  • Offers excellent and versatile microstimulation performance, allowing safe stimulation to be performed with small probe sizes.
  • Iridium content of alloy greatly improves mechanical hardness and stiffness, providing electrodes with a degree of bend resistance that approaches tungsten.
  • Greater cost than tungsten and eligoy or stainless steel, making it less appropriate for acute recording or non-intensive chronic recording.
  • Can be vulnerable to corrosion and dissolution with some intensive stimulation protocols.

These monopolar microelectrodes of MicroProbes are also available in Tungsten, Elgiloy (an alloy similar to stainless steel), and Pure Iridium metal. The electrodes are insulated with a thin film of vapor-deposited Parylene-C. As an option we provide them surrounded by Polymide tubing. Each electrode is etched to a fine taper and tipped using a proprietary process to a specific impedance value. Four different tip profiles are also available to further fine-tune your electrode selection to your particular application.

We offer a variety of different tip alternatives for those that prefer a specialized electrode profile for their research.

The tip selection can provide subtle yet important changes to the performance of the electrode, as described below. It is recommended that first time users consider experimenting with different tip profiles to determine which works best for their recording or stimulation protocols.

For some applications concentric or bipolar electrodes (stereotrodes) are useful.

 

Monopolar Electrodes, Platinum-Iridium, Blunted Tip
(75 µm × 2")

Item

Length

Shaft Diameter

Tip Diameter

Impedance

Applications

Pkg of 10

PI20030.01B3

51 mm

0.081 mm

3-5 µm

0.01 MΩ

MultiUnit & ERP recording & Stim

PI20030.05B3

51 mm

0.081 mm

0.05 MΩ

PI20030.1B3

51 mm

0.081 mm

0.1 MΩ

PI20030.5B3

51 mm

0.081 mm

0.5 MΩ

Single & multiunit rec. & stim.

PI20031.0B3

51 mm

0.081 mm

3-4 µm

1.0 MΩ

PI20031.5B3

51 mm

0.081 mm

1.5 MΩ

PI20032.0B3

51 mm

0.081 mm

2.0 MΩ

PI20032.5B3

51 mm

0.081 mm

2.5 MΩ

Greater Selectivity - Small Cells

PI20033.0B3

51 mm

0.081 mm

3.0 MΩ

PI20035.0B3

51 mm

0.081 mm

5.0 MΩ

 

 

Monopolar Electrodes, Platinum-Iridium, Blunted Tip
(125 µm × 2")

Item

Length

Shaft Diameter

Tip Diameter

Impedance

Applications

Pkg of 10

PI20030.01B5

51 mm

0.127 mm

3-5 µm

0.01 MΩ

MultiUnit & ERP recording & Stim

PI20030.05B5

51 mm

0.127 mm

0.05 MΩ

PI20030.1B5

51 mm

0.127 mm

0.1 MΩ

PI20030.5B5

51 mm

0.127 mm

0.5 MΩ

Single & multiunit rec. & stim.

PI20031.0B5

51 mm

0.127 mm

3-4 µm

1.0 MΩ

PI20031.5B5

51 mm

0.127 mm

1.5 MΩ

PI20032.0B5

51 mm

0.127 mm

2.0 MΩ

PI20032.5B5

51 mm

0.127 mm

2.5 MΩ

Greater Selectivity - Small Cells

PI20033.0B5

51 mm

0.127 mm

3.0 MΩ

PI20035.0B5

51 mm

0.127 mm

5.0 MΩ

 

 

Monopolar Electrodes, Platinum-Iridium, Blunted Tip
(125 µm × 3")

Item

Length

Shaft Diameter

Tip Diameter

Impedance

Applications

Pkg of 10

PI30030.01B5

76 mm

0.127 mm

3-5 µm

0.01 MΩ

MultiUnit & ERP recording & Stim

PI30030.05B5

76 mm

0.127 mm

0.05 MΩ

PI30030.1B5

76 mm

0.127 mm

0.1 MΩ

PI30030.5B5

76 mm

0.127 mm

0.5 MΩ

Single & multiunit rec. & stim.

PI30031.0B5

76 mm

0.127 mm

3-4 µm

1.0 MΩ

PI30031.5B5

76 mm

0.127 mm

1.5 MΩ

PI30032.0B5

76 mm

0.127 mm

2.0 MΩ

PI30032.5B5

76 mm

0.127 mm

2.5 MΩ

Greater Selectivity - Small Cells

PI30033.0B5

76 mm

0.127 mm

3.0 MΩ

 

 

Monopolar Electrodes, Platinum-Iridium, Blunted Tip
(225 µm × 2")

Item

Length

Shaft Diameter

Tip Diameter

Impedance

Applications

Pkg of 10

PI20030.01B10

51 mm

0.231 mm

3-5 µm

0.01 MΩ

MultiUnit & ERP recording & Stim

PI20030.05B10

51 mm

0.231 mm

0.05 MΩ

PI20030.1B10

51 mm

0.231 mm

0.1 MΩ

PI20030.5B10

51 mm

0.231 mm

0.5 MΩ

Single & multiunit rec. & stim.

PI20031.0B10

51 mm

0.231 mm

3-4 µm

1.0 MΩ

PI20031.5B10

51 mm

0.231 mm

1.5 MΩ

PI20032.0B10

51 mm

0.231 mm

2.0 MΩ

PI20032.5B10

51 mm

0.231 mm

2.5 MΩ

Greater Selectivity - Small Cells

PI20033.0B10

51 mm

0.231 mm

3.0 MΩ

 

 

Common Tip Profiles:

Scheme of Standard Tip Profile
A - STANDARD TIP PROFILE
The standard tip profile features a sharp yet robust point that offers versatile performance and an effective balance between penetration and durability.
Scheme of Blunted Tip Profile
B - BLUNTED TIP PROFILE
The blunted electrodes are engineered to have a more rounded, bullet-shaped tip. For many applications the blunted tip can offer superior stimulation performance.
Scheme of Heat Treated Tapered Tip Profile
H - HEAT TREATED TAPERED TIP PROFILE
The heat-treated electrodes are intended for those investigators who must penetrate their probes through tough membranes, such as the dura mater of larger mammals.
Scheme of Extra Fine Tip Profile
F - EXTRA FINE TIP PROFILE
The extra-fine tip profile features a significantly sharper taper as well as a thinner insulation layer. Available in Tungsten only!

 

Also see:

Selecting the Optimum Electrode Configuration