Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Radiative decay engineering 6: fluorescence on one-dimensional photonic crystals.

Literature DB >> 23896462

Radiative decay engineering 6: fluorescence on one-dimensional photonic crystals.

Ramachandram Badugu¹, Kazimierz Nowaczyk, Emiliano Descrovi, Joseph R Lakowicz.

Abstract

During the past decade the interactions of fluorophores with metallic particles and surfaces has become an active area of research. These near-field interactions of fluorophores with surface plasmons have resulted in increased brightness and directional emission. However, using metals has some disadvantages such as quenching at short fluorophore-metal distances and increased rates of energy dissipation due to lossy metals. These unfavorable effects are not expected in dielectrics. In this article, we describe the interactions of fluorophores with one-dimensional (1D) photonic crystals (PCs), which have alternating layers of dielectrics with dimensions that create a photonic band gap (PBG). Freely propagating light at the PBG wavelength will be reflected. However, similar to metals, we show that fluorophores within near-field distances of the 1DPC interacts with the structure. Our results demonstrate that these fluorophores can interact with both internal modes and Bloch surface waves (BSWs) of the 1DPC. For fluorophores on the surface of the 1DPC, the emission dominantly occurs through the 1DPC and into the substrate. We refer to these two phenomena together as Bragg grating-coupled emission (BGCE). Here we describe our preliminary results on BGCE. 1DPCs are simple to fabricate and can be handled and reused without damage. We believe that BGCE provides opportunities for new formats for fluorescence detection and sensing.

Entities: Chemical Disease Gene

Keywords: Bragg grating-coupled emission; Near-field interactions; One-dimensional photonic crystals; Photonic band gap; Radiative decay engineering; Surface plasmon-coupled emission

Mesh：

Substances：

Year: 2013 PMID： 23896462 PMCID： PMC4127491 DOI： 10.1016/j.ab.2013.07.021

Source DB: PubMed Journal: Anal Biochem ISSN： 0003-2697 Impact factor: 3.365

51 in total

Review 1. Surface plasmon-coupled emission: what can directional fluorescence bring to the analytical sciences?

Authors: Shuo-Hui Cao; Wei-Peng Cai; Qian Liu; Yao-Qun Li
Journal: Annu Rev Anal Chem (Palo Alto Calif) Date: 2012-04-09 Impact factor: 10.745

2. Control of metal-enhanced fluorescence with pH- and thermoresponsive hybrid microgels.

Authors: Fu Tang; Ning Ma; Lingyun Tong; Fang He; Lidong Li
Journal: Langmuir Date: 2011-11-30 Impact factor: 3.882

3. Spontaneous emission in the near field of two-dimensional photonic crystals.

Authors: A Femius Koenderink; Maria Kafesaki; Costas M Soukoulis; Vahid Sandoghdar
Journal: Opt Lett Date: 2005-12-01 Impact factor: 3.776

Review 4. Localized surface plasmon resonance biosensors.

Authors: Jing Zhao; Xiaoyu Zhang; Chanda Ranjit Yonzon; Amanda J Haes; Richard P Van Duyne
Journal: Nanomedicine (Lond) Date: 2006-08 Impact factor: 5.307

5. Optical surface edge Bloch modes: low-loss subwavelength-scale two-dimensional light localization.

Authors: Shu-Yu Su; Tomoyuki Yoshie
Journal: Opt Lett Date: 2012-11-01 Impact factor: 3.776

6. Tuning Fluorescence Direction with Plasmonic Metal-Dielectric- Metal Substrates.

Authors: Sharmistha Dutta Choudhury; Ramachandram Badugu; Kazimierz Nowaczyk; Krishanu Ray; Joseph R Lakowicz
Journal: J Phys Chem Lett Date: 2013 Impact factor: 6.475

7. Radiative decay engineering 5: metal-enhanced fluorescence and plasmon emission.

Authors: Joseph R Lakowicz
Journal: Anal Biochem Date: 2005-02-15 Impact factor: 3.365

8. Enhanced flow cytometry-based bead immunoassays using metal nanostructures.

Authors: Wei Deng; Krystyna Drozdowicz-Tomsia; Dayong Jin; Ewa M Goldys
Journal: Anal Chem Date: 2009-09-01 Impact factor: 6.986

9. A detection instrument for enhanced-fluorescence and label-free imaging on photonic crystal surfaces.

Authors: Ian D Block; Patrick C Mathias; Nikhil Ganesh; Sarah I Jones; Brian R Dorvel; Vikram Chaudhery; Lila O Vodkin; Rashid Bashir; Brian T Cunningham
Journal: Opt Express Date: 2009-07-20 Impact factor: 3.894

10. A fluorescent one-dimensional photonic crystal for label-free biosensing based on BLOCH surface waves.

Authors: Francesca Frascella; Serena Ricciardi; Paola Rivolo; Valeria Moi; Fabrizio Giorgis; Emiliano Descrovi; Francesco Michelotti; Peter Munzert; Norbert Danz; Lucia Napione; Maria Alvaro; Federico Bussolino
Journal: Sensors (Basel) Date: 2013-02-05 Impact factor: 3.576

22 in total

1. Fluorescence Coupling to Internal Modes of 1D Photonic Crystals Characterized by Back Focal Plane Imaging.

Authors: Sharmistha Dutta Choudhury; Yifeng Xiang; Douguo Zhang; Emilano Descrovi; Ramachandram Badugu; Joseph R Lakowicz
Journal: J Opt Date: 2021-02-18 Impact factor: 2.516

2. Polymer-loaded propagating modes on a one-dimensional photonic crystal.

Authors: Lu Han; Douguo Zhang; Yikai Chen; Ruxue Wang; Liangfu Zhu; Pei Wang; Hai Ming; Ramachandram Badugu; Joseph R Lakowicz
Journal: Appl Phys Lett Date: 2014-02-12 Impact factor: 3.791

3. Imaging optical fields below metal films and metal-dielectric waveguides by a scanning microscope.

Authors: Liangfu Zhu; Yong Wang; Douguo Zhang; Ruxue Wang; Dong Qiu; Pei Wang; Hai Ming; Ramachandram Badugu; Mary Rosenfeld; Joseph R Lakowicz
Journal: J Appl Phys Date: 2017-09-15 Impact factor: 2.546

4. Diffraction-Free Bloch Surface Waves.

Authors: Ruxue Wang; Yong Wang; Douguo Zhang; Guangyuan Si; Liangfu Zhu; Luping Du; Shanshan Kou; Ramachandram Badugu; Mary Rosenfeld; Jiao Lin; Pei Wang; Hai Ming; Xiaocong Yuan; Joseph R Lakowicz
Journal: ACS Nano Date: 2017-05-17 Impact factor: 15.881