Add to ORKGConjugated polymers entrapped in porous silicon microcavity have been studied as optical sensors for low volatility explosives such as trinitrotoluene. The fluorescence spectra of entrapped polymers were modulated by the microcavity via a spectral “hole” that matches the resonance peak of the microcavity reflectance. Exposure of the porous silicon microcavity containing entrapped polymer to explosives vapor results in a red shift of the resonance peak and the spectral hole, accompanied by the quenching of the fluorescence. This multiplexed response provides multiple monitoring parameters, enabling the development of an optical sensor array for the detection of target explosive vapor
Forensic detection of non-volatile nitro explosives poses a difficult analytical challenge. A colori...
Silicon photonic microring resonators have emerged as a promising technology for the sensitive detec...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Amplifying fluorescence technology has been employed since Dr. Timothy Swager first published its us...
This work explores the use of a polymer of intrinsic microporosity (PIM-1) as the active layer withi...
An array comprising 4 Si microcantilevers coated with nanoporous ETS-10 crystals sub-micrometric in ...
An array comprising four Si µ -cantilevers coated with nanoporous functionalized ETS-10 crystals sub...
A new technique for the detection of explosives has been developed based on fluorescence quenching o...
Optical techniques for the detection of explosives are receiving increasing interest due to potentia...
With increasing public concern for possible future terrorist attacks involving novel explosives, the...
There remains a demand for inexpensive and reliable explosive sensors to be used in a field setting ...
With the rising use of improvised explosive devices in conflicts and terrorist attacks, explosive tr...
The sensing of chemicals and biochemical molecules using several porous silicon optical microsensor...
This work explores the use of a polymer of intrinsic microporosity (PIM-1) as the active layer withi...
An electrospun nanofibrous explosive sensor was first constructed based on a newly developed fluores...
Forensic detection of non-volatile nitro explosives poses a difficult analytical challenge. A colori...
Silicon photonic microring resonators have emerged as a promising technology for the sensitive detec...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Amplifying fluorescence technology has been employed since Dr. Timothy Swager first published its us...
This work explores the use of a polymer of intrinsic microporosity (PIM-1) as the active layer withi...
An array comprising 4 Si microcantilevers coated with nanoporous ETS-10 crystals sub-micrometric in ...
An array comprising four Si µ -cantilevers coated with nanoporous functionalized ETS-10 crystals sub...
A new technique for the detection of explosives has been developed based on fluorescence quenching o...
Optical techniques for the detection of explosives are receiving increasing interest due to potentia...
With increasing public concern for possible future terrorist attacks involving novel explosives, the...
There remains a demand for inexpensive and reliable explosive sensors to be used in a field setting ...
With the rising use of improvised explosive devices in conflicts and terrorist attacks, explosive tr...
The sensing of chemicals and biochemical molecules using several porous silicon optical microsensor...
This work explores the use of a polymer of intrinsic microporosity (PIM-1) as the active layer withi...
An electrospun nanofibrous explosive sensor was first constructed based on a newly developed fluores...
Forensic detection of non-volatile nitro explosives poses a difficult analytical challenge. A colori...
Silicon photonic microring resonators have emerged as a promising technology for the sensitive detec...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...