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This Solicitation opportunity from Government of Canada was posted on June 6, 2025. The submission period has ended. Browse the details below for market research, or find similar active opportunities.

NEW COULOMETRY AND ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY (EIS) SYSTEM

Closed
25-58021Canada

Contract Overview

Solicitation details, issuing organization, response deadlines, documents, and interested companies for this government contract opportunity.

General Info

Agency

Government of Canada → National Research Council of CanadaView Agency

NAICS

N/A

Place of Performance

*Ontario (except NCR), CAN

Set-Aside

NONE

Documents

(0)

No documents available

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Timeline

PhaseClosed
Posted

Solicitation

Response Deadline

Deadline has passed

Submission Closed

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Organization & Contact Information

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AgencyGovernment of Canada → National Research Council of Canada
Contacts1 person available
OfficeN/A
Organization / Agency
Government of Canada → National Research Council of Canada
View Agency Profile
Office AddressN/A
Contacts
Kacendra DionPoint of Contact

Full Description

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The National Research Council of Canada (NRC) requires the supply of a turnkey and integrated specialized system combining Ultra-High Precision Coulometry (UHPC) and Electrochemical Impedance Spectroscopy (EIS) measurements without manual intervention or setup changes. The system must allow automated test sequence wherein precise EIS measurements are performed at set intervals during long term UHPC cycling without manual intervention or setup changes, making both UHPC and EIS measurements during a single experiment and controlled by a single software facilitating test automation with seamless execution. This integrated system allows enhanced insights into electrochemical systems, increasing flexibility and enabling rapid predictions of battery lifespan, degradation mapping, and early fault detection. This integrated approach supports the development of robust physics-based battery models, which are essential for advancing next-generation battery technologies, such as solid-state, lithium-metal, and lithium-silicon chemistries. The integrated system also improves the reliability and quality of data by reducing the number of connections and manipulations required when setting up tests. The integration allows for automated tests, making both UHPC and EIS measurements during a single experiment and controlled by a single software facilitating test automation with seamless execution of sophisticated experimental designs with improved data outcomes, enabling and cross-validation of the data.