Add to ORKGAbu S M Mohsin,1 Mariam B Salim2 1Centre for Micro-Photonics, Department of Physics, Swinburne University of Technology, Melbourne, VIC 3122, Australia; 2Electrical and Telecommunication Engineering, Swinburne University of Technology, Melbourne, VIC 3122, Australia Background: We have introduced a novel method to quantify the intracellular refractive index (RI) of living cells and determine the molecular interaction of two interacting molecules using single particle spectroscopy. The advantages of this proposed technique over fluorescence-based imaging techniques is that it does not require any contrasting agent and it does not blink and bleach. Instead, our technique provides a non-destructive, non-invasive, high-resolution imaging of l...
The promise and success of current biomedical research is highly dependent on understanding the mech...
Gold nanostars are important nanoscopic tools in biophotonics and theranostics. To understand the fa...
The highly attritional nature of drug discovery research is underpinned by a fundamental lack of kno...
textImaging of biomolecules on the nano-scale is a crucial developing technology with major implicat...
The detection of biomolecules at single molecule sensitivity is critical to the study of live cell d...
International audienceThe measuring of nanoparticle toxicity faces an important limitation since it ...
Using a confocal Rayleigh light scattering microspectroscopy and imaging system, we followed and rec...
The aim of this PhD was to develop a technique to quantify the uptake and aggregation of gold nanopa...
This photograph originally appeared in the 2014 Research student photography and image competition h...
Labeling cells and tissues with fluorescent probes, such as organic dyes and quantum dots (Qdots) is...
The need for new therapeutic approaches in the treatment of challenging diseases such as cancer, whi...
Probing intracellular events is a key step in developing new biomedical methodologies. Optical micro...
Understanding uptake of nanomaterials by cells and their use for intracellular sensing is important ...
textMolecular optical imaging enables the ability to non-invasively image biological function. When ...
Gold nanoparticles are ideal probes for studying intracellular environments and energy transfer mech...
The promise and success of current biomedical research is highly dependent on understanding the mech...
Gold nanostars are important nanoscopic tools in biophotonics and theranostics. To understand the fa...
The highly attritional nature of drug discovery research is underpinned by a fundamental lack of kno...
textImaging of biomolecules on the nano-scale is a crucial developing technology with major implicat...
The detection of biomolecules at single molecule sensitivity is critical to the study of live cell d...
International audienceThe measuring of nanoparticle toxicity faces an important limitation since it ...
Using a confocal Rayleigh light scattering microspectroscopy and imaging system, we followed and rec...
The aim of this PhD was to develop a technique to quantify the uptake and aggregation of gold nanopa...
This photograph originally appeared in the 2014 Research student photography and image competition h...
Labeling cells and tissues with fluorescent probes, such as organic dyes and quantum dots (Qdots) is...
The need for new therapeutic approaches in the treatment of challenging diseases such as cancer, whi...
Probing intracellular events is a key step in developing new biomedical methodologies. Optical micro...
Understanding uptake of nanomaterials by cells and their use for intracellular sensing is important ...
textMolecular optical imaging enables the ability to non-invasively image biological function. When ...
Gold nanoparticles are ideal probes for studying intracellular environments and energy transfer mech...
The promise and success of current biomedical research is highly dependent on understanding the mech...
Gold nanostars are important nanoscopic tools in biophotonics and theranostics. To understand the fa...
The highly attritional nature of drug discovery research is underpinned by a fundamental lack of kno...