Physisorption analyser

Details

RFx ID :	33915827
Tender Name :	Physisorption analyser
Reference # :	26-109
Open Date :	Wednesday, 15 April 2026 2:00 PM (Pacific/Auckland UTC+12:00)
Close Date  :	Tuesday, 5 May 2026 12:00 PM (Pacific/Auckland UTC+12:00)
Department/Business Unit :	Planning, Finance & ITS
Tender Type :	Request for Quotations (RFQ)
Tender Coverage :	Sole Agency  [?]
Categories :	41000000 - Laboratory and Measuring and Observing and Testing Equipment
Regions:	Canterbury
Exemption Reason :	None
Required Pre-qualifications :	None
Contact :	Sun Jeong
Alternate Physical Delivery Address  :
Alternate Physical Fax Number  :

The University of Canterbury (UC) is seeking to acquire a physisorption analyser to strengthen its research infrastructure and analytical capability within the Department of Chemical and Process Engineering (CAPE).
The introduction of this instrument will provide additional analytical capacity for characterising material properties such as surface area, pore size distribution, and adsorption behaviour. This will alleviate the current bottleneck caused by the heavily oversubscribed existing unit, enabling simultaneous measurements and significantly improving research efficiency and throughput.
This procurement represents a strategic investment in UC’s research capability. The analyser will support postgraduate research, enhance student outcomes through improved access to critical equipment, and increase the University’s ability to generate research outputs and external funding. It will also enable UC to expand consultancy services and reduce reliance on external testing, improving turnaround times and reducing costs.
Physisorption analysis is a fundamental technique in materials science, catalysis, gas processing, and energy research. Access to high-quality physisorption instrumentation is essential for maintaining internationally competitive research programmes and supporting interdisciplinary collaboration across academic and industry partners.
The primary objective of this procurement is to increase analytical capacity and accessibility, enabling UC researchers and students to conduct timely, high-quality experiments and respond effectively to growing research demand. This investment will ensure continued access to advanced analytical tools necessary to support innovation and research excellence.