[JV1]@Ana Lopes Please ensure this is in the Mandatory requirements. I was not able to identify this requirement.THE DELIVERABLES
The requested Multi-Quadrupole Inductively Coupled Plasma Mass Spectrometer (ICP-MS) to measure single size nanoparticles, to characterize α-olefins produced from microalgae derived bio-oils and analyze additives in various polymeric materials; measure trace metals and speciation of metalloid’s; and accurately quantify unknown proteins and peptides, sulfur and phosphorus hetero elements accurately at low concentrations.
STATEMENT OF WORK
- Background
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- Requirements-Specifications and Environment
The requested Multi-Quadrupole ICP-MS is a critical piece of equipment required for analysis and quantification of the chemical composition of polymer samples within a matrix of other materials for both the physic-chemical and toxicological fate of sustainable polymers and plastics. This includes, but is not limited to, measuring toxic elements that have adsorbed onto microplastics, characterizing α-olefins produced from microalgae derived bio-oils, analyzing additives in various polymeric materials, performing the analysis of single nanoparticles in various sample matrices, As and Hg speciation, quantification of unknown proteins and peptides, sulfur and phosphorus hetero elements in human specimens, and lead isotope ratios in environmental samples.
The Multi-Quadrupole-ICP-MS instrument will be capable of measuring single nanoparticles, α-olefins produced from microalgae speciation, and accurately quantify unknown proteins and peptides, sulfur and phosphorus hetero elements accurately at low concentrations. It will also be used for analysis of trace metals as well as lead isotope ratio; arsenic and mercury speciation and stable isotope analysis. A requirement of this system is a single particle sample introduction system that can provide particle size distribution and mass concentration information for specific types of plastic
[JV1] .
The instrument will require the following peripherals for the following workflows: standard analysis using a liquid autosampler, As and Hg speciation analysis using liquid chromatography, and nanoparticle analysis using field flow fractionation.
The Mutli-Quardrupole-ICP-MS should have exceptional linearity and stability. It should be able to analyze low level (ppt) elements and isotopes through a combination of system configuration and its ability to removal spectral interferences to produce ultra low detection limits in a variety of sample matrices. The instrument should be able to deal with complex matrices, with minimal downtown for cleaning and maintenance.
Provision of a water purification system to produce 18 MΩ quality water at 2 litres/min for ultra trace metal, mercury and organics analysis. This will not be part of the evaluation process, but pricing is to be included in APPENDIX C-1 – FINANCIAL SUBMISSION FORM, Section B Options.
The Multi-Quadrupole-ICP MS will be placed in the Clean lab (CRG 417) at University of Ottawa.
Please refer to Section D. MANDATORY TECHNICAL SPECIFICATIONS REQUIREMENTS and Section E.RATED CRITERIA of this Appendix D – RFP Particulars.
- Delivery Schedule
-
- The equipment outlined in this document shall be guaranteed to be delivered to specified location at the University of Ottawa Campus, 417A-20 Marie-Curie Private (Loading Dock). The University is anticipating that the equipment or component will be delivered and installed by June 2025 or a date that has been agreed to with the successful proponent. The delivery schedule is tentative and may be subject to change at the University’s sole discretion, based on lab construction/renovation progress, at no extra cost. The University of Ottawa Loading Dock Map can be found at the following link: Loading Dock Map.
-
- It is the responsibility of the successful proponent to coordinate the delivery of the completed system with the University Contact.
[JV1]@Ana Lopes Please ensure this is in the Mandatory requirements. I was not able to identify this requirement.THE DELIVERABLES
The requested Multi-Quadrupole Inductively Coupled Plasma Mass Spectrometer (ICP-MS) to measure single size nanoparticles, to characterize α-olefins produced from microalgae derived bio-oils and analyze additives in various polymeric materials; measure trace metals and speciation of metalloid’s; and accurately quantify unknown proteins and peptides, sulfur and phosphorus hetero elements accurately at low concentrations.
STATEMENT OF WORK
- Background
-
- Requirements-Specifications and Environment
The requested Multi-Quadrupole ICP-MS is a critical piece of equipment required for analysis and quantification of the chemical composition of polymer samples within a matrix of other materials for both the physic-chemical and toxicological fate of sustainable polymers and plastics. This includes, but is not limited to, measuring toxic elements that have adsorbed onto microplastics, characterizing α-olefins produced from microalgae derived bio-oils, analyzing additives in various polymeric materials, performing the analysis of single nanoparticles in various sample matrices, As and Hg speciation, quantification of unknown proteins and peptides, sulfur and phosphorus hetero elements in human specimens, and lead isotope ratios in environmental samples.
The Multi-Quadrupole-ICP-MS instrument will be capable of measuring single nanoparticles, α-olefins produced from microalgae speciation, and accurately quantify unknown proteins and peptides, sulfur and phosphorus hetero elements accurately at low concentrations. It will also be used for analysis of trace metals as well as lead isotope ratio; arsenic and mercury speciation and stable isotope analysis. A requirement of this system is a single particle sample introduction system that can provide particle size distribution and mass concentration information for specific types of plastic
[JV1] .
The instrument will require the following peripherals for the following workflows: standard analysis using a liquid autosampler, As and Hg speciation analysis using liquid chromatography, and nanoparticle analysis using field flow fractionation.
The Mutli-Quardrupole-ICP-MS should have exceptional linearity and stability. It should be able to analyze low level (ppt) elements and isotopes through a combination of system configuration and its ability to removal spectral interferences to produce ultra low detection limits in a variety of sample matrices. The instrument should be able to deal with complex matrices, with minimal downtown for cleaning and maintenance.
Provision of a water purification system to produce 18 MΩ quality water at 2 litres/min for ultra trace metal, mercury and organics analysis. This will not be part of the evaluation process, but pricing is to be included in APPENDIX C-1 – FINANCIAL SUBMISSION FORM, Section B Options.
The Multi-Quadrupole-ICP MS will be placed in the Clean lab (CRG 417) at University of Ottawa.
Please refer to Section D. MANDATORY TECHNICAL SPECIFICATIONS REQUIREMENTS and Section E.RATED CRITERIA of this Appendix D – RFP Particulars.
- Delivery Schedule
-
- The equipment outlined in this document shall be guaranteed to be delivered to specified location at the University of Ottawa Campus, 417A-20 Marie-Curie Private (Loading Dock). The University is anticipating that the equipment or component will be delivered and installed by June 2025 or a date that has been agreed to with the successful proponent. The delivery schedule is tentative and may be subject to change at the University’s sole discretion, based on lab construction/renovation progress, at no extra cost. The University of Ottawa Loading Dock Map can be found at the following link: Loading Dock Map.
-
- It is the responsibility of the successful proponent to coordinate the delivery of the completed system with the University Contact.
[JV1]@Ana Lopes Please ensure this is in the Mandatory requirements. I was not able to identify this requirement.
