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    Computer-Controlled Bipotentiostat

    Part Number
    AFCBP1
    Computer-Controlled Bipotentiostat
    Computer-Controlled Bipotentiostat - Image 2
    Computer-Controlled Bipotentiostat - Image 3
    Product Discontinued - No Replacement Available
    This product has been discontinued and can no longer be purchased. The product remains on our website for reference and a listing of its specifications. There is no direct product replacement to offer.

    The CBP bipotentiostat system offers you a choice between front panel control of the instrument or software control using our powerful AfterMath software package. (click for more details…)

    Related Links: CBP Support Site, List of Supported Techniques

    Host PC Requirements: Windows Desktop or Tower PC with one free PCI slot (more details…).

    Out of stock

    Categories
    Legacy Products > Legacy Electrochemical Workstations
    Tags
    ,
    Computer-Controlled Bipotentiostat
    Computer-Controlled Bipotentiostat - Image 2
    Computer-Controlled Bipotentiostat - Image 3

    The CBP bipotentiostat system offers you a choice between front panel control of the instrument or software control using our powerful AfterMath software package. (click for more details…)

    Related Links: CBP Support Site, List of Supported Techniques

    Host PC Requirements: Windows Desktop or Tower PC with one free PCI slot (more details…).

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    References
    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.
    1. Schild, Jérémy. Catalyseurs supportés sur nanotubes de carbone pour la production d’énergies bas carbone. Ph.D. Dissertation, University of Paris - Saclay (Paris, France), 2020.
    2. Schmidt et al. The oxygen reduction reaction on a Pt/carbon fuel cell catalyst in the presence of chloride anions. Journal of Electroanalytical Chemistry, 2025, 508, 41–47.
    3. Thimiopoulos et al. Synthesis, characterization and DFT analysis of new phthalocyanine complexes containing sulfur rich substituents. Inorganica Chimica Acta, 2019, 488, 170-181.
    4. Shao et al. Electroreductive dechlorination of γ-Hexachlorocyclohexane catalyzed by Rh2(dpf)4 in nonaqueous media, where dpf=N,N′-Diphenylformamidinate (1-) ion. Journal of Electroanalytical Chemistry, 2019, 837, 208-218.
    5. Bystron et al. Glassy carbon electrode activation – A way towards highly active, reproducible and stable electrode surface. Electrochimica Acta, 2019, 299, 963-970.
    6. Li et al. First-row transition metals and nitrogen co-doped carbon nanotubes: The exact origin of the enhanced activity for oxygen reduction reaction. Carbon, 2019, 143, 859-868.
    7. Abrego-Martínez et al. Nanostructured Mn2O3/Pt/CNTs selective electrode for oxygen reduction reaction and methanol tolerance in mixed-reactant membraneless micro-DMFC. Electrochimica Acta, 2019, 297, 230-239.
    8. Caron et al. Variable oxidation state sulfur-bridged bithiazole ligands tune the electronic properties of ruthenium(II) and copper(I) complexes. Dalton Transactions, 2019, 48, 1263-1274.
    9. Henning et al. Bulk-Palladium and Palladium-on-Gold Electrocatalysts for the Oxidation of Hydrogen in Alkaline Electrolyte. Journal of The Electrochemical Society, 2015, 162, F178-F189.
    10. Yang et al. A direct borohydride fuel cell with a polymer fiber membrane and non-noble metal catalysts. Scientific Reports, 2012, 2, 567.
    11. Wu et al. PtxNi alloy nanoparticles as cathode catalyst for PEM fuel cells with enhanced catalytic activity. Journal of Alloys and Compounds, 2009, 488, 195-198.