3-d plots Search Results


3d-ecl plots  (OriginLab corp)
90
OriginLab corp 3d-ecl plots
3d Ecl Plots, supplied by OriginLab corp, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3d fluorescence plots  (BioSurfaces Inc)
90
BioSurfaces Inc 3d fluorescence plots
Laser <t>fluorescence</t> microscopy of individual small cyanobacteria aggregates: (a) red-green LUT; (b) fire LUT applied; (c) zoomed fire LUT image; and (d) <t>3D</t> fluorescent surfaces of bacterial tetramers. Laser excitation at 488.0 nm.
3d Fluorescence Plots, supplied by BioSurfaces Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3d plots plotly chart studiotm  (Plotly Technologies Inc)
90
Plotly Technologies Inc 3d plots plotly chart studiotm
Laser <t>fluorescence</t> microscopy of individual small cyanobacteria aggregates: (a) red-green LUT; (b) fire LUT applied; (c) zoomed fire LUT image; and (d) <t>3D</t> fluorescent surfaces of bacterial tetramers. Laser excitation at 488.0 nm.
3d Plots Plotly Chart Studiotm, supplied by Plotly Technologies Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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scatter3d  (Plotly Technologies Inc)
90
Plotly Technologies Inc scatter3d
Laser <t>fluorescence</t> microscopy of individual small cyanobacteria aggregates: (a) red-green LUT; (b) fire LUT applied; (c) zoomed fire LUT image; and (d) <t>3D</t> fluorescent surfaces of bacterial tetramers. Laser excitation at 488.0 nm.
Scatter3d, supplied by Plotly Technologies Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3-d plots  (Plotly Technologies Inc)
90
Plotly Technologies Inc 3-d plots
Laser <t>fluorescence</t> microscopy of individual small cyanobacteria aggregates: (a) red-green LUT; (b) fire LUT applied; (c) zoomed fire LUT image; and (d) <t>3D</t> fluorescent surfaces of bacterial tetramers. Laser excitation at 488.0 nm.
3 D Plots, supplied by Plotly Technologies Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3-d plots - by Bioz Stars, 2026-03
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3d plots  (OVITO GmbH)
90
OVITO GmbH 3d plots
Laser <t>fluorescence</t> microscopy of individual small cyanobacteria aggregates: (a) red-green LUT; (b) fire LUT applied; (c) zoomed fire LUT image; and (d) <t>3D</t> fluorescent surfaces of bacterial tetramers. Laser excitation at 488.0 nm.
3d Plots, supplied by OVITO GmbH, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/3d plots/product/OVITO GmbH
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3d plots - by Bioz Stars, 2026-03
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3d directionality plots  (SYSTAT)
90
SYSTAT 3d directionality plots
<t>3D</t> <t>Directionality</t> analysis of the stromal collagen organization with development. Collagen alignment in the developing corneal stroma was quantified by the Directionality plugin in Image J. The percentage of signal/collagen aligned at each angle from −90° to +90° within the image was evaluated and plotted against corneal stromal depth. At E9, the peaks show a preferred alignment of collagen at −90°, 0° and +90°, indicating an orthogonal/non-rotational collagen organization with respect to the choroid fissure (0°). At E10 onwards, the peaks display a shift from 0° illustrating the rotation of collagen at the anterior stroma. In the posterior stroma no shift in the peaks of the preferred collagen alignment is observed, illustrating that there is no rotation in the posterior stroma. Representative data from three samples for each embryonic stage.
3d Directionality Plots, supplied by SYSTAT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3d response surface plots  (KYLEBANK SOFTWARE LTD)
90
KYLEBANK SOFTWARE LTD 3d response surface plots
<t>3D</t> <t>Directionality</t> analysis of the stromal collagen organization with development. Collagen alignment in the developing corneal stroma was quantified by the Directionality plugin in Image J. The percentage of signal/collagen aligned at each angle from −90° to +90° within the image was evaluated and plotted against corneal stromal depth. At E9, the peaks show a preferred alignment of collagen at −90°, 0° and +90°, indicating an orthogonal/non-rotational collagen organization with respect to the choroid fissure (0°). At E10 onwards, the peaks display a shift from 0° illustrating the rotation of collagen at the anterior stroma. In the posterior stroma no shift in the peaks of the preferred collagen alignment is observed, illustrating that there is no rotation in the posterior stroma. Representative data from three samples for each embryonic stage.
3d Response Surface Plots, supplied by KYLEBANK SOFTWARE LTD, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3d and 2d response surface plots  (OriginLab corp)
90
OriginLab corp 3d and 2d response surface plots
<t>3D</t> <t>Directionality</t> analysis of the stromal collagen organization with development. Collagen alignment in the developing corneal stroma was quantified by the Directionality plugin in Image J. The percentage of signal/collagen aligned at each angle from −90° to +90° within the image was evaluated and plotted against corneal stromal depth. At E9, the peaks show a preferred alignment of collagen at −90°, 0° and +90°, indicating an orthogonal/non-rotational collagen organization with respect to the choroid fissure (0°). At E10 onwards, the peaks display a shift from 0° illustrating the rotation of collagen at the anterior stroma. In the posterior stroma no shift in the peaks of the preferred collagen alignment is observed, illustrating that there is no rotation in the posterior stroma. Representative data from three samples for each embryonic stage.
3d And 2d Response Surface Plots, supplied by OriginLab corp, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3d distribution plots  (COMSOL Inc)
90
COMSOL Inc 3d distribution plots
<t>3D</t> <t>Directionality</t> analysis of the stromal collagen organization with development. Collagen alignment in the developing corneal stroma was quantified by the Directionality plugin in Image J. The percentage of signal/collagen aligned at each angle from −90° to +90° within the image was evaluated and plotted against corneal stromal depth. At E9, the peaks show a preferred alignment of collagen at −90°, 0° and +90°, indicating an orthogonal/non-rotational collagen organization with respect to the choroid fissure (0°). At E10 onwards, the peaks display a shift from 0° illustrating the rotation of collagen at the anterior stroma. In the posterior stroma no shift in the peaks of the preferred collagen alignment is observed, illustrating that there is no rotation in the posterior stroma. Representative data from three samples for each embryonic stage.
3d Distribution Plots, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3-d lissajous plots  (Sandia National Laboratories)
90
Sandia National Laboratories 3-d lissajous plots
<t>3D</t> <t>Directionality</t> analysis of the stromal collagen organization with development. Collagen alignment in the developing corneal stroma was quantified by the Directionality plugin in Image J. The percentage of signal/collagen aligned at each angle from −90° to +90° within the image was evaluated and plotted against corneal stromal depth. At E9, the peaks show a preferred alignment of collagen at −90°, 0° and +90°, indicating an orthogonal/non-rotational collagen organization with respect to the choroid fissure (0°). At E10 onwards, the peaks display a shift from 0° illustrating the rotation of collagen at the anterior stroma. In the posterior stroma no shift in the peaks of the preferred collagen alignment is observed, illustrating that there is no rotation in the posterior stroma. Representative data from three samples for each embryonic stage.
3 D Lissajous Plots, supplied by Sandia National Laboratories, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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3d plots of u, pb, co, and th nanoparticles  (COMSOL Inc)
90
COMSOL Inc 3d plots of u, pb, co, and th nanoparticles
Model geometry of uranium <t>nanoparticle</t> of 40 nm size.
3d Plots Of U, Pb, Co, And Th Nanoparticles, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Laser fluorescence microscopy of individual small cyanobacteria aggregates: (a) red-green LUT; (b) fire LUT applied; (c) zoomed fire LUT image; and (d) 3D fluorescent surfaces of bacterial tetramers. Laser excitation at 488.0 nm.

Journal: RSC Advances

Article Title: Synthetic non-classical luminescence generation by enhanced silica nanophotonics based on nano-bio-FRET

doi: 10.1039/d0ra02939d

Figure Lengend Snippet: Laser fluorescence microscopy of individual small cyanobacteria aggregates: (a) red-green LUT; (b) fire LUT applied; (c) zoomed fire LUT image; and (d) 3D fluorescent surfaces of bacterial tetramers. Laser excitation at 488.0 nm.

Article Snippet: From these nano-biosurfaces, strong luminescent intensities were generated that permitted faster detection and counting with 3D fluorescence plots ( ).

Techniques: Fluorescence, Microscopy

3D Directionality analysis of the stromal collagen organization with development. Collagen alignment in the developing corneal stroma was quantified by the Directionality plugin in Image J. The percentage of signal/collagen aligned at each angle from −90° to +90° within the image was evaluated and plotted against corneal stromal depth. At E9, the peaks show a preferred alignment of collagen at −90°, 0° and +90°, indicating an orthogonal/non-rotational collagen organization with respect to the choroid fissure (0°). At E10 onwards, the peaks display a shift from 0° illustrating the rotation of collagen at the anterior stroma. In the posterior stroma no shift in the peaks of the preferred collagen alignment is observed, illustrating that there is no rotation in the posterior stroma. Representative data from three samples for each embryonic stage.

Journal: Acta biomaterialia

Article Title: Cell regulation of collagen fibril macrostructure during corneal morphogenesis

doi: 10.1016/j.actbio.2018.08.017

Figure Lengend Snippet: 3D Directionality analysis of the stromal collagen organization with development. Collagen alignment in the developing corneal stroma was quantified by the Directionality plugin in Image J. The percentage of signal/collagen aligned at each angle from −90° to +90° within the image was evaluated and plotted against corneal stromal depth. At E9, the peaks show a preferred alignment of collagen at −90°, 0° and +90°, indicating an orthogonal/non-rotational collagen organization with respect to the choroid fissure (0°). At E10 onwards, the peaks display a shift from 0° illustrating the rotation of collagen at the anterior stroma. In the posterior stroma no shift in the peaks of the preferred collagen alignment is observed, illustrating that there is no rotation in the posterior stroma. Representative data from three samples for each embryonic stage.

Article Snippet: 3D directionality plots were then generated using SigmaPlot13 (Systat Software, San Jose, CA) to show the collagen/keratocyte alignment across the corneal stromal depth with development.

Techniques:

3D Directionality analysis of the keratocyte organization in the corneal stroma with development. Directionality analysis, representing the percentage of keratocytes aligned along a particular direction (from −90° to +90°) against corneal stromal depth. At E8, keratocytes are predominantly orientated randomly along the choroid fissure axis (0°), as shown by the appearance of various peaks. At E9, peaks appear at −90°, 0° and +90°, indicating that the cells take up a more orthogonal orientation. Also, there is a shift in the peaks from 0° in the anterior stroma illustrating rotation of the keratocytes in the anterior stroma. There is an increase in the shift of the peaks with development, indicating an increase in the keratocyte angular displacement through the anterior corneal stromal depth as the cornea develops. In the posterior stroma the keratocytes are orthogonally organized but no rotation is evident. Representative data from three samples for each embryonic day.”

Journal: Acta biomaterialia

Article Title: Cell regulation of collagen fibril macrostructure during corneal morphogenesis

doi: 10.1016/j.actbio.2018.08.017

Figure Lengend Snippet: 3D Directionality analysis of the keratocyte organization in the corneal stroma with development. Directionality analysis, representing the percentage of keratocytes aligned along a particular direction (from −90° to +90°) against corneal stromal depth. At E8, keratocytes are predominantly orientated randomly along the choroid fissure axis (0°), as shown by the appearance of various peaks. At E9, peaks appear at −90°, 0° and +90°, indicating that the cells take up a more orthogonal orientation. Also, there is a shift in the peaks from 0° in the anterior stroma illustrating rotation of the keratocytes in the anterior stroma. There is an increase in the shift of the peaks with development, indicating an increase in the keratocyte angular displacement through the anterior corneal stromal depth as the cornea develops. In the posterior stroma the keratocytes are orthogonally organized but no rotation is evident. Representative data from three samples for each embryonic day.”

Article Snippet: 3D directionality plots were then generated using SigmaPlot13 (Systat Software, San Jose, CA) to show the collagen/keratocyte alignment across the corneal stromal depth with development.

Techniques:

Model geometry of uranium nanoparticle of 40 nm size.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: Model geometry of uranium nanoparticle of 40 nm size.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques:

Schematic diagram illustrating the construction of the model for U, Pb, Co, and Th nanoparticle (layers are the thickness of PML, thickness of the air, and sphere radius).

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: Schematic diagram illustrating the construction of the model for U, Pb, Co, and Th nanoparticle (layers are the thickness of PML, thickness of the air, and sphere radius).

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques:

Screenshot of 3D meshing creation of uranium nanoparticle of 40 nm size from COMSOL.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: Screenshot of 3D meshing creation of uranium nanoparticle of 40 nm size from COMSOL.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques:

3D plots of U, Pb, Co, and Th nanoparticles from diverse sizes produced via COMSOL, where the color scale illustrates the amplitude of H-field or E-field.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: 3D plots of U, Pb, Co, and Th nanoparticles from diverse sizes produced via COMSOL, where the color scale illustrates the amplitude of H-field or E-field.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques: Produced

COMSOL-simulated absorption spectra of U, Pb, Co, and Th nanoparticles.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: COMSOL-simulated absorption spectra of U, Pb, Co, and Th nanoparticles.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques:

The COMSOL-simulated maximum absorption peak of U, Pb, Co, and Th nanoparticles for different particle sizes.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: The COMSOL-simulated maximum absorption peak of U, Pb, Co, and Th nanoparticles for different particle sizes.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques:

The far-field radiation patterns of U, Pb, Co, and Th nanoparticles of diverse sizes in the E-plane (blue) and H-plane (green) when the wavelength is 800 nm.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: The far-field radiation patterns of U, Pb, Co, and Th nanoparticles of diverse sizes in the E-plane (blue) and H-plane (green) when the wavelength is 800 nm.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques:

( A ) COMSOL-simulated plots of d l n α h ν / d h ν versus h ν for the U and Th nanoparticles, displaying a discontinuity on the computed band gap energy value. ( B ) COMSOL-simulated plots of d l n α h ν / d h ν versus h ν for the Pb and Co nanoparticles, displaying a discontinuity on the computed band gap energy value.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: ( A ) COMSOL-simulated plots of d l n α h ν / d h ν versus h ν for the U and Th nanoparticles, displaying a discontinuity on the computed band gap energy value. ( B ) COMSOL-simulated plots of d l n α h ν / d h ν versus h ν for the Pb and Co nanoparticles, displaying a discontinuity on the computed band gap energy value.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques:

COMSOL-simulated band gap values of d(ln(αhν))/d(hν) versus hν for the U, Pb, Co, and Th nanoparticles.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: COMSOL-simulated band gap values of d(ln(αhν))/d(hν) versus hν for the U, Pb, Co, and Th nanoparticles.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques:

Comparison of the band gap of U, Pb, Co, and Th nanoparticles at different particle sizes.

Journal: Nanomaterials

Article Title: Simulation and Modeling of Optical Properties of U, Th, Pb, and Co Nanoparticles of Interest to Nuclear Security Using Finite Element Analysis

doi: 10.3390/nano12101710

Figure Lengend Snippet: Comparison of the band gap of U, Pb, Co, and Th nanoparticles at different particle sizes.

Article Snippet: The 3D plots of U, Pb, Co, and Th nanoparticles of diverse sizes acquired from COMSOL are depicted in .

Techniques: Comparison