Erratum: Fabrication of Zero Mode Waveguides for High Concentration Single Molecule Microscopy

August 10th, 2021

In This Article

Summary

Loading...
$$\rightleftharpoonup{xx}$$ $$\longleftharp{xx}$$, $$\longrightharp{xx}$$,

An erratum was issued for: Fabrication of Zero Mode Waveguides for High Concentration Single Molecule Microscopy. A figure was updated.

Abstract

Loading...
$$\rightleftharpoonup{xx}$$ $$\longleftharp{xx}$$, $$\longrightharp{xx}$$,

An erratum was issued for: Fabrication of Zero Mode Waveguides for High Concentration Single Molecule Microscopy. A figure was updated.

Figure 3 was updated from:

Colloidal crystal patterns, optical micrographs, grain structure, diffraction patterns, scale bars.
Figure 3: Representative results from evaporative deposition of colloids. (A) Example of optimal colloid deposition. (B) Example of an acceptable colloid deposition in which conditions were more humid (80% RH) than ideal. Holes in the crystal monolayer are apparent. (C) Example of an acceptable colloid deposition in which conditions were drier (65% RH) than optimal. The monolayer regions are slightly translucent while multilayered areas are white and opaque (perimeter and streaks inward). (D) A colloidal crystal illuminated with white light to highlight the rainbow diffraction from the crystals. (E) AFM image (tapping probe AFM in air) of a monolayer of hexagonally packed polystyrene beads from a successful colloid deposition (scale bar = 10 µm). (F) Expanded AFM image of packed beads (scale bar = 2 µm). Please click here to view a larger version of this figure.

to:

Colloidal crystal diffraction patterns and SEM images; microscopy analysis of photonic structures.
Figure 3: Representative results from evaporative deposition of colloids. (A) Example of optimal colloid deposition. (B) Example of an acceptable colloid deposition in which conditions were more humid (80% RH) than ideal. Holes in the crystal monolayer are apparent. (C) Example of an acceptable colloid deposition in which conditions were drier (65% RH) than optimal. The monolayer regions are slightly translucent while multilayered areas are white and opaque (perimeter and streaks inward). (D) A colloidal crystal illuminated with white light to highlight the rainbow diffraction from the crystals. (E) AFM image (tapping probe AFM in air) of a monolayer of hexagonally packed polystyrene beads from a successful colloid deposition (scale bar = 10 µm). (F) Expanded AFM image of packed beads (scale bar = 2 µm). Please click here to view a larger version of this figure.

Protocol

Loading...
$$\rightleftharpoonup{xx}$$ $$\longleftharp{xx}$$, $$\longrightharp{xx}$$,

An erratum was issued for: Fabrication of Zero Mode Waveguides for High Concentration Single Molecule Microscopy. A figure was updated.

Figure 3 was updated from:

Colloidal crystal patterns, optical micrographs, grain structure, diffraction patterns, scale bars.
Figure 3: Representative results from evaporative deposition of colloids. (A) Example of optimal colloid deposition. (B) Example of an acceptable colloid deposition in which conditions were more humid (80% RH) than ideal. Holes in the crystal monolayer are apparent. (C) Example of an acceptable colloid deposition in which conditions were drier (65% RH) than optimal. The monolayer regions are slightly translucent while multilayered areas are white and opaque (perimeter and streaks inward). (D) A colloidal crystal illuminated with white light to highlight the rainbow diffraction from the crystals. (E) AFM image (tapping probe AFM in air) of a monolayer of hexagonally packed polystyrene beads from a successful colloid deposition (scale bar = 10 µm). (F) Expanded AFM image of packed beads (scale bar = 2 µm). Please click here to view a larger version of this figure.

to:

Colloidal crystal diffraction patterns and SEM images; microscopy analysis of photonic structures.
Figure 3: Representative results from evaporative deposition of colloids. (A) Example of optimal colloid deposition. (B) Example of an acceptable colloid deposition in which conditions were more humid (80% RH) than ideal. Holes in the crystal monolayer are apparent. (C) Example of an acceptable colloid deposition in which conditions were drier (65% RH) than optimal. The monolayer regions are slightly translucent while multilayered areas are white and opaque (perimeter and streaks inward). (D) A colloidal crystal illuminated with white light to highlight the rainbow diffraction from the crystals. (E) AFM image (tapping probe AFM in air) of a monolayer of hexagonally packed polystyrene beads from a successful colloid deposition (scale bar = 10 µm). (F) Expanded AFM image of packed beads (scale bar = 2 µm). Please click here to view a larger version of this figure.

Disclosures

Loading...
$$\rightleftharpoonup{xx}$$ $$\longleftharp{xx}$$, $$\longrightharp{xx}$$,
No conflicts of interest declared.

Reprints and Permissions

Request permission to reuse the text or figures of this JoVE article

Request Permission

Tags

Zero Mode WaveguidesSingle Molecule MicroscopyColloidal CrystalEvaporative DepositionOptical MicrographsDiffraction PatternsAtomic Force MicroscopyPolystyrene BeadsPhotonic StructuresSEM Imaging