Standard Graphite Counter Electrode Kit
Part Number
AFCTR3B
This Standard Graphite Counter Electrode consists of a 1/4″ (6.4 mm) OD graphite rod that fits into a 14/20 PTFE adapter. A fritted glass tube isolates the counter electrode from the main test solution. The glass tube is equipped with a PTFE adapter suitable for mounting the tube in a 14/20 port on our standard electrochemical cells. Alternatively, the counter electrode may be removed from the glass tube and mounted directly in the electrochemical cell.
- Includes 150 mm long fritted glass tube, 7 mm to 14/20 adapter, 12 mm OD 14/20 adapter
- 6.4 mm OD x 184.2 mm graphite rod
- Compatible with our standard electrochemical cells
See “Description” tab below for additional precautions and information.
This Standard Graphite Counter Electrode consists of a 1/4" (6.4 mm) OD graphite rod that fits into a 14/20 PTFE adapter. A fritted glass tube isolates the counter electrode from the main test solution. The glass tube is equipped with a PTFE adapter suitable for mounting the tube in a 14/20 port on our standard electrochemical cells. Alternatively, the counter electrode may be removed from the glass tube and mounted directly in the electrochemical cell.
When possible, we add published articles, theses and dissertations, and books to our references library. When we know this product has been used, we will include it in this list below. If you have a reference where our product was used and it's not in this list, please contact us with the details and we will add it.
- Gautam et al. Enhanced CO Tolerance with PtRuAuPd/C Anode Catalyst in Proton Exchange Membrane Fuel Cells. ACS Applied Energy Materials, 2024, , .
- A. Spencer et al. Participation of electrochemically inserted protons in the hydrogen evolution reaction on tungsten oxides. Chemical Science, 2024, 15, 5385-5402.
- Vishnosky, Nicholas. Synthesis, characterization, and evaluation of metal complexes with cancer selective anti-proliferative effects and hydrogen evolution catalytic properties. Ph.D. Dissertation, University of Louisville (Louisville, KY), 2019.
- San Roman et al. Engineering Three-Dimensional (3D) Out-of-Plane Graphene Edge Sites for Highly Selective Two-Electron Oxygen Reduction Electrocatalysis. ACS Catalysis, 2020, 10, 1993-2008.
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