Determining Properties of Samples Using Quantum Sensing

Organization Name

The University of Melbourne

Inventor(s)

Gawain Mccoll of Parkville, Victoria (AU)

David Allan Simpson of Melbourne, Victoria (AU)

Liam Terres Hall of Melbourne, Victoria (AU)

Erin Susanne Grant of Melbourne, Victoria (AU)

Determining Properties of Samples Using Quantum Sensing - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240377328 titled 'Determining Properties of Samples Using Quantum Sensing

The method described in the abstract involves using a quantum sensor to determine properties of a molecular metal ligand in a sample by exposing the sensor to the sample, applying an illumination signal, and detecting photoluminescence intensity emitted from the sensor.

• Quantum sensor utilized for analyzing molecular metal ligands in a sample
• Exposure of sensor to sample
• Application of illumination signal for a predetermined duration
• Detection of photoluminescence intensity emitted from the sensor
• Photoluminescence intensity indicates properties of the molecular metal ligand in the sample

Potential Applications: - Analytical chemistry - Material science research - Pharmaceutical development

Problems Solved: - Efficient analysis of molecular metal ligands - Quick determination of properties in samples

Benefits: - Faster and more accurate analysis - Non-destructive testing method - Cost-effective solution for research and development

Commercial Applications: Title: "Advanced Molecular Metal Ligand Analysis Technology" This technology can be used in laboratories, research institutions, and pharmaceutical companies for analyzing molecular metal ligands in various samples, leading to improved research outcomes and product development processes.

Prior Art: Readers can explore scientific journals, patent databases, and academic publications related to quantum sensors, photoluminescence analysis, and molecular metal ligands to find prior art relevant to this technology.

Frequently Updated Research: Stay updated on advancements in quantum sensor technology, photoluminescence analysis techniques, and applications of molecular metal ligand analysis in different industries.

Questions about Molecular Metal Ligand Analysis: 1. How does the quantum sensor differentiate between different properties of molecular metal ligands in a sample? 2. What are the potential limitations of using photoluminescence intensity as an indicator of properties in molecular metal ligands?

Original Abstract Submitted

a method for determining one or more properties of a molecular metal ligand in a sample comprises the steps of: providing a quantum sensor: exposing the quantum sensor to the sample: applying an illumination signal to the quantum sensor for a first predetermined duration: and detecting a photoluminescence intensity emitted from the quantum sensor. a characteristic of the detected photoluminescence intensity is indicative of one of the properties of the molecular metal ligand in the sample.