Add to ORKGGold nanoparticles (NPs) efficiently quench adsorbed fluorophores. Upon disruption of such complexes by an analyte, fluorescence turn-on is observed. By judicious choice of the functionalized NP and the fluorophore, these complexes display different responses to analytes, thus leading to versatile yet simple array-based sensor platforms. Using this strategy, we can identify proteins in buffer and serum, distinguish between both different species and different strains of bacteria, and differentiate between healthy, cancerous, and metastatic human and murine cells
The remarkable physicochemical properties of gold nanoparticles (AuNPs) have prompted developments i...
A series of dual-ligand cofunctionalized fluorescent gold nanodots with similar fluorescence and div...
Rapid and effective differentiation between normal and cancer cells is an important challenge for th...
Rapid and sensitive detection of biomolecules is an important issue in nanomedicine. Many disorders ...
Developing effective biosensor for proteins, cells, and tissues would enhance the likelihood of earl...
Developing effective biosensor for proteins, cells, and tissues would enhance the likelihood of earl...
Infectious diseases spread rapidly because current diagnostic methods are slow, expensive, and requi...
AbstractConventional lock-and-key biosensors often only detect a single pathogen because they incorp...
Rapid and sensitive detection of biomolecules is an important issue in nanomedicine. Many disorders ...
Fluorescent gold nanoparticle (GNP) is an easily synthesized and biocompatible optical platform for ...
In the past decade gold nanoparticle-nucleic acid conjugates became progressivelyimportant for biome...
Gold nanoparticles are promising nanotools for bioanalysis and diagnostics.The specific electrical a...
Gold nanoparticles (AuNPs) have a unique optical phenomena termed localized surface plasmon resonanc...
Nanoparticle-based technologies have played important roles in providing opportunities for the devel...
Verma, M. S., Chen, P. Z., Jones, L., & Gu, F. X. (2015). Controlling “chemical nose” biosensor char...
The remarkable physicochemical properties of gold nanoparticles (AuNPs) have prompted developments i...
A series of dual-ligand cofunctionalized fluorescent gold nanodots with similar fluorescence and div...
Rapid and effective differentiation between normal and cancer cells is an important challenge for th...
Rapid and sensitive detection of biomolecules is an important issue in nanomedicine. Many disorders ...
Developing effective biosensor for proteins, cells, and tissues would enhance the likelihood of earl...
Developing effective biosensor for proteins, cells, and tissues would enhance the likelihood of earl...
Infectious diseases spread rapidly because current diagnostic methods are slow, expensive, and requi...
AbstractConventional lock-and-key biosensors often only detect a single pathogen because they incorp...
Rapid and sensitive detection of biomolecules is an important issue in nanomedicine. Many disorders ...
Fluorescent gold nanoparticle (GNP) is an easily synthesized and biocompatible optical platform for ...
In the past decade gold nanoparticle-nucleic acid conjugates became progressivelyimportant for biome...
Gold nanoparticles are promising nanotools for bioanalysis and diagnostics.The specific electrical a...
Gold nanoparticles (AuNPs) have a unique optical phenomena termed localized surface plasmon resonanc...
Nanoparticle-based technologies have played important roles in providing opportunities for the devel...
Verma, M. S., Chen, P. Z., Jones, L., & Gu, F. X. (2015). Controlling “chemical nose” biosensor char...
The remarkable physicochemical properties of gold nanoparticles (AuNPs) have prompted developments i...
A series of dual-ligand cofunctionalized fluorescent gold nanodots with similar fluorescence and div...
Rapid and effective differentiation between normal and cancer cells is an important challenge for th...