Add to ORKGUltra-high-Q microresonators have demonstrated sensitive and specific chemical and biological detection. The sensitivity is derived from the long photon lifetime inside the cavity and specificity is achieved through surface functionalization. Here, ultra-high-Q microcavities demonstrate label-free, single molecule detection of Interleukin-2 (IL-2) in fetal bovine serum (FBS). IL-2 is a cytokine released in response to immune system activation. The surface of the microtoroids was sensitized using anti-IL-2. The detection mechanism relies upon a thermo-optic mechanism to enhance resonant wavelength shifts induced through binding of a molecule
Single-molecule detection is one of the fundamental challenges of modern biology. Such experiments o...
The ability to perform multiple simultaneous protein biomarker measurements in complex media with pi...
Being able to detect a single molecule without the use of labels has been a long standing goal of bi...
Ultra-high-Q microresonators have demonstrated sensitive and specific chemical and biological detect...
Interleukin-2 (IL2) is a cytokine that regulates T-cell growth and is used in cancer therapies. By ...
Current single-molecule detection techniques require labeling the target molecule. We report a highl...
Recently, a method for fabricating planar arrays of optical microtoroid resonators with quality fact...
High quality factor whispering gallery mode microresonators have been recently shown to exhibit dete...
Recently, quality factors greater than 100 million were demonstrated using planar arrays of silica m...
Although label-free biosensors comprised of optical microcavities inherently possess the capability ...
2014-11-03The ability to detect specific molecules in solution is critical for a variety of applicat...
Optical microcavities that confine light in high-Q resonance promise all of the capabilities require...
Optical microcavities are desirable label-free sensors due to their sensitive detection capabilities...
Whispering gallery mode optical resonators offer an unusual coupling of rapid response time and ultr...
Optical microcavities that confine light in high-Q resonance promise all of the capabilities require...
Single-molecule detection is one of the fundamental challenges of modern biology. Such experiments o...
The ability to perform multiple simultaneous protein biomarker measurements in complex media with pi...
Being able to detect a single molecule without the use of labels has been a long standing goal of bi...
Ultra-high-Q microresonators have demonstrated sensitive and specific chemical and biological detect...
Interleukin-2 (IL2) is a cytokine that regulates T-cell growth and is used in cancer therapies. By ...
Current single-molecule detection techniques require labeling the target molecule. We report a highl...
Recently, a method for fabricating planar arrays of optical microtoroid resonators with quality fact...
High quality factor whispering gallery mode microresonators have been recently shown to exhibit dete...
Recently, quality factors greater than 100 million were demonstrated using planar arrays of silica m...
Although label-free biosensors comprised of optical microcavities inherently possess the capability ...
2014-11-03The ability to detect specific molecules in solution is critical for a variety of applicat...
Optical microcavities that confine light in high-Q resonance promise all of the capabilities require...
Optical microcavities are desirable label-free sensors due to their sensitive detection capabilities...
Whispering gallery mode optical resonators offer an unusual coupling of rapid response time and ultr...
Optical microcavities that confine light in high-Q resonance promise all of the capabilities require...
Single-molecule detection is one of the fundamental challenges of modern biology. Such experiments o...
The ability to perform multiple simultaneous protein biomarker measurements in complex media with pi...
Being able to detect a single molecule without the use of labels has been a long standing goal of bi...