colloidal solution of au nanoparticles with diameter Search Results


au colloidal solution  (BB International)
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BB International au colloidal solution
Au Colloidal Solution, supplied by BB International, 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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colloidal au nanoparticles  (BBI Solutions)
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BBI Solutions colloidal au nanoparticles
Colloidal Au Nanoparticles, supplied by BBI Solutions, 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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diameter unconjugated au nanoparticle aqueous colloid  (BBI Solutions)
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BBI Solutions diameter unconjugated au nanoparticle aqueous colloid
Diameter Unconjugated Au Nanoparticle Aqueous Colloid, supplied by BBI Solutions, 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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colloidal solution of polystyrene nanoparticles (500 nm in diameter)  (microParticles GmbH)
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microParticles GmbH colloidal solution of polystyrene nanoparticles (500 nm in diameter)
( a ) Illustration showing colloidal solution of polystyrene spheres sandwiched between two thin microscope glass slides with an ultrafast laser beam focused to ∼10 μm. ( b ) Image displaying velocity field simulation of Marangoni-type microfluidic flow, where red and dark blue areas denote highest and lowest flow speeds, respectively. Simulated area is a 1 cm by 1 cm cell and a bubble of 50 μm diameter is located at the centre of this cell. Magnified image shows that the laser is introduced as a boundary heat source at the lower right quarter of the bubble, depicted by a red line. ( c ) Image showing numerical simulation of the Brownian <t>nanoparticles</t> that are released from a location close to the bubble and aggregate at its boundary. ( d ) Images showing velocity field simulations of the flow before and after an aggregate forms, where the black lines are streamlines. The dark area on the right, magnified image denotes the self-assembled aggregate. ( e ) Schematic description of the nonlinear feedback mechanisms. ( f ) Plot of as a function of φ (filling ratio), showing stable and unstable fixed points for F =0.001 and 〈 ξ ( t )〉 rms =0.1. ( g ) Plot comparing toy model and three measurements with the sigmoid function, confirming the autocatalysis characteristics. Experimental data are extracted from the temporal evolution of number of particles in a selected region while forming an aggregate. Toy model data are the evolution of φ over time (blue line) for F =0.001 and 〈 ξ ( t )〉 rms =0.1 with the initial condition of φ (0)=0.21, fitted with a sigmoid function (red line) of the general form 1/(1+ e − t ).
Colloidal Solution Of Polystyrene Nanoparticles (500 Nm In Diameter), supplied by microParticles 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/colloidal solution of polystyrene nanoparticles (500 nm in diameter)/product/microParticles GmbH
Average 90 stars, based on 1 article reviews
colloidal solution of polystyrene nanoparticles (500 nm in diameter) - by Bioz Stars, 2026-06
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100 nm and 60 nm diameter colloidal gold nanoparticle (aunp) solutions  (BB International)
90
BB International 100 nm and 60 nm diameter colloidal gold nanoparticle (aunp) solutions
( a ) Illustration showing colloidal solution of polystyrene spheres sandwiched between two thin microscope glass slides with an ultrafast laser beam focused to ∼10 μm. ( b ) Image displaying velocity field simulation of Marangoni-type microfluidic flow, where red and dark blue areas denote highest and lowest flow speeds, respectively. Simulated area is a 1 cm by 1 cm cell and a bubble of 50 μm diameter is located at the centre of this cell. Magnified image shows that the laser is introduced as a boundary heat source at the lower right quarter of the bubble, depicted by a red line. ( c ) Image showing numerical simulation of the Brownian <t>nanoparticles</t> that are released from a location close to the bubble and aggregate at its boundary. ( d ) Images showing velocity field simulations of the flow before and after an aggregate forms, where the black lines are streamlines. The dark area on the right, magnified image denotes the self-assembled aggregate. ( e ) Schematic description of the nonlinear feedback mechanisms. ( f ) Plot of as a function of φ (filling ratio), showing stable and unstable fixed points for F =0.001 and 〈 ξ ( t )〉 rms =0.1. ( g ) Plot comparing toy model and three measurements with the sigmoid function, confirming the autocatalysis characteristics. Experimental data are extracted from the temporal evolution of number of particles in a selected region while forming an aggregate. Toy model data are the evolution of φ over time (blue line) for F =0.001 and 〈 ξ ( t )〉 rms =0.1 with the initial condition of φ (0)=0.21, fitted with a sigmoid function (red line) of the general form 1/(1+ e − t ).
100 Nm And 60 Nm Diameter Colloidal Gold Nanoparticle (Aunp) Solutions, supplied by BB International, 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/100 nm and 60 nm diameter colloidal gold nanoparticle (aunp) solutions/product/BB International
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colloidal au nanoparticles b40 in diameter  (BB International)
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BB International colloidal au nanoparticles b40 in diameter
( a ) Illustration showing colloidal solution of polystyrene spheres sandwiched between two thin microscope glass slides with an ultrafast laser beam focused to ∼10 μm. ( b ) Image displaying velocity field simulation of Marangoni-type microfluidic flow, where red and dark blue areas denote highest and lowest flow speeds, respectively. Simulated area is a 1 cm by 1 cm cell and a bubble of 50 μm diameter is located at the centre of this cell. Magnified image shows that the laser is introduced as a boundary heat source at the lower right quarter of the bubble, depicted by a red line. ( c ) Image showing numerical simulation of the Brownian <t>nanoparticles</t> that are released from a location close to the bubble and aggregate at its boundary. ( d ) Images showing velocity field simulations of the flow before and after an aggregate forms, where the black lines are streamlines. The dark area on the right, magnified image denotes the self-assembled aggregate. ( e ) Schematic description of the nonlinear feedback mechanisms. ( f ) Plot of as a function of φ (filling ratio), showing stable and unstable fixed points for F =0.001 and 〈 ξ ( t )〉 rms =0.1. ( g ) Plot comparing toy model and three measurements with the sigmoid function, confirming the autocatalysis characteristics. Experimental data are extracted from the temporal evolution of number of particles in a selected region while forming an aggregate. Toy model data are the evolution of φ over time (blue line) for F =0.001 and 〈 ξ ( t )〉 rms =0.1 with the initial condition of φ (0)=0.21, fitted with a sigmoid function (red line) of the general form 1/(1+ e − t ).
Colloidal Au Nanoparticles B40 In Diameter, supplied by BB International, 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/colloidal au nanoparticles b40 in diameter/product/BB International
Average 90 stars, based on 1 article reviews
colloidal au nanoparticles b40 in diameter - by Bioz Stars, 2026-06
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30 and 60 nm diameter au colloid nanoparticles  (BBI Solutions)
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BBI Solutions 30 and 60 nm diameter au colloid nanoparticles
( a ) Illustration showing colloidal solution of polystyrene spheres sandwiched between two thin microscope glass slides with an ultrafast laser beam focused to ∼10 μm. ( b ) Image displaying velocity field simulation of Marangoni-type microfluidic flow, where red and dark blue areas denote highest and lowest flow speeds, respectively. Simulated area is a 1 cm by 1 cm cell and a bubble of 50 μm diameter is located at the centre of this cell. Magnified image shows that the laser is introduced as a boundary heat source at the lower right quarter of the bubble, depicted by a red line. ( c ) Image showing numerical simulation of the Brownian <t>nanoparticles</t> that are released from a location close to the bubble and aggregate at its boundary. ( d ) Images showing velocity field simulations of the flow before and after an aggregate forms, where the black lines are streamlines. The dark area on the right, magnified image denotes the self-assembled aggregate. ( e ) Schematic description of the nonlinear feedback mechanisms. ( f ) Plot of as a function of φ (filling ratio), showing stable and unstable fixed points for F =0.001 and 〈 ξ ( t )〉 rms =0.1. ( g ) Plot comparing toy model and three measurements with the sigmoid function, confirming the autocatalysis characteristics. Experimental data are extracted from the temporal evolution of number of particles in a selected region while forming an aggregate. Toy model data are the evolution of φ over time (blue line) for F =0.001 and 〈 ξ ( t )〉 rms =0.1 with the initial condition of φ (0)=0.21, fitted with a sigmoid function (red line) of the general form 1/(1+ e − t ).
30 And 60 Nm Diameter Au Colloid Nanoparticles, supplied by BBI Solutions, 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/30 and 60 nm diameter au colloid nanoparticles/product/BBI Solutions
Average 90 stars, based on 1 article reviews
30 and 60 nm diameter au colloid nanoparticles - by Bioz Stars, 2026-06
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au colloid nanoparticles  (BBI Solutions)
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BBI Solutions au colloid nanoparticles
( a ) Illustration showing colloidal solution of polystyrene spheres sandwiched between two thin microscope glass slides with an ultrafast laser beam focused to ∼10 μm. ( b ) Image displaying velocity field simulation of Marangoni-type microfluidic flow, where red and dark blue areas denote highest and lowest flow speeds, respectively. Simulated area is a 1 cm by 1 cm cell and a bubble of 50 μm diameter is located at the centre of this cell. Magnified image shows that the laser is introduced as a boundary heat source at the lower right quarter of the bubble, depicted by a red line. ( c ) Image showing numerical simulation of the Brownian <t>nanoparticles</t> that are released from a location close to the bubble and aggregate at its boundary. ( d ) Images showing velocity field simulations of the flow before and after an aggregate forms, where the black lines are streamlines. The dark area on the right, magnified image denotes the self-assembled aggregate. ( e ) Schematic description of the nonlinear feedback mechanisms. ( f ) Plot of as a function of φ (filling ratio), showing stable and unstable fixed points for F =0.001 and 〈 ξ ( t )〉 rms =0.1. ( g ) Plot comparing toy model and three measurements with the sigmoid function, confirming the autocatalysis characteristics. Experimental data are extracted from the temporal evolution of number of particles in a selected region while forming an aggregate. Toy model data are the evolution of φ over time (blue line) for F =0.001 and 〈 ξ ( t )〉 rms =0.1 with the initial condition of φ (0)=0.21, fitted with a sigmoid function (red line) of the general form 1/(1+ e − t ).
Au Colloid Nanoparticles, supplied by BBI Solutions, 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/au colloid nanoparticles/product/BBI Solutions
Average 90 stars, based on 1 article reviews
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90/100 stars
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colloidal solution of spherical gold nanoparticles (diameter)  (BB International)
90
BB International colloidal solution of spherical gold nanoparticles (diameter)
( a ) Illustration showing colloidal solution of polystyrene spheres sandwiched between two thin microscope glass slides with an ultrafast laser beam focused to ∼10 μm. ( b ) Image displaying velocity field simulation of Marangoni-type microfluidic flow, where red and dark blue areas denote highest and lowest flow speeds, respectively. Simulated area is a 1 cm by 1 cm cell and a bubble of 50 μm diameter is located at the centre of this cell. Magnified image shows that the laser is introduced as a boundary heat source at the lower right quarter of the bubble, depicted by a red line. ( c ) Image showing numerical simulation of the Brownian <t>nanoparticles</t> that are released from a location close to the bubble and aggregate at its boundary. ( d ) Images showing velocity field simulations of the flow before and after an aggregate forms, where the black lines are streamlines. The dark area on the right, magnified image denotes the self-assembled aggregate. ( e ) Schematic description of the nonlinear feedback mechanisms. ( f ) Plot of as a function of φ (filling ratio), showing stable and unstable fixed points for F =0.001 and 〈 ξ ( t )〉 rms =0.1. ( g ) Plot comparing toy model and three measurements with the sigmoid function, confirming the autocatalysis characteristics. Experimental data are extracted from the temporal evolution of number of particles in a selected region while forming an aggregate. Toy model data are the evolution of φ over time (blue line) for F =0.001 and 〈 ξ ( t )〉 rms =0.1 with the initial condition of φ (0)=0.21, fitted with a sigmoid function (red line) of the general form 1/(1+ e − t ).
Colloidal Solution Of Spherical Gold Nanoparticles (Diameter), supplied by BB International, 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/colloidal solution of spherical gold nanoparticles (diameter)/product/BB International
Average 90 stars, based on 1 article reviews
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Image Search Results


( a ) Illustration showing colloidal solution of polystyrene spheres sandwiched between two thin microscope glass slides with an ultrafast laser beam focused to ∼10 μm. ( b ) Image displaying velocity field simulation of Marangoni-type microfluidic flow, where red and dark blue areas denote highest and lowest flow speeds, respectively. Simulated area is a 1 cm by 1 cm cell and a bubble of 50 μm diameter is located at the centre of this cell. Magnified image shows that the laser is introduced as a boundary heat source at the lower right quarter of the bubble, depicted by a red line. ( c ) Image showing numerical simulation of the Brownian nanoparticles that are released from a location close to the bubble and aggregate at its boundary. ( d ) Images showing velocity field simulations of the flow before and after an aggregate forms, where the black lines are streamlines. The dark area on the right, magnified image denotes the self-assembled aggregate. ( e ) Schematic description of the nonlinear feedback mechanisms. ( f ) Plot of as a function of φ (filling ratio), showing stable and unstable fixed points for F =0.001 and 〈 ξ ( t )〉 rms =0.1. ( g ) Plot comparing toy model and three measurements with the sigmoid function, confirming the autocatalysis characteristics. Experimental data are extracted from the temporal evolution of number of particles in a selected region while forming an aggregate. Toy model data are the evolution of φ over time (blue line) for F =0.001 and 〈 ξ ( t )〉 rms =0.1 with the initial condition of φ (0)=0.21, fitted with a sigmoid function (red line) of the general form 1/(1+ e − t ).

Journal: Nature Communications

Article Title: Rich complex behaviour of self-assembled nanoparticles far from equilibrium

doi: 10.1038/ncomms14942

Figure Lengend Snippet: ( a ) Illustration showing colloidal solution of polystyrene spheres sandwiched between two thin microscope glass slides with an ultrafast laser beam focused to ∼10 μm. ( b ) Image displaying velocity field simulation of Marangoni-type microfluidic flow, where red and dark blue areas denote highest and lowest flow speeds, respectively. Simulated area is a 1 cm by 1 cm cell and a bubble of 50 μm diameter is located at the centre of this cell. Magnified image shows that the laser is introduced as a boundary heat source at the lower right quarter of the bubble, depicted by a red line. ( c ) Image showing numerical simulation of the Brownian nanoparticles that are released from a location close to the bubble and aggregate at its boundary. ( d ) Images showing velocity field simulations of the flow before and after an aggregate forms, where the black lines are streamlines. The dark area on the right, magnified image denotes the self-assembled aggregate. ( e ) Schematic description of the nonlinear feedback mechanisms. ( f ) Plot of as a function of φ (filling ratio), showing stable and unstable fixed points for F =0.001 and 〈 ξ ( t )〉 rms =0.1. ( g ) Plot comparing toy model and three measurements with the sigmoid function, confirming the autocatalysis characteristics. Experimental data are extracted from the temporal evolution of number of particles in a selected region while forming an aggregate. Toy model data are the evolution of φ over time (blue line) for F =0.001 and 〈 ξ ( t )〉 rms =0.1 with the initial condition of φ (0)=0.21, fitted with a sigmoid function (red line) of the general form 1/(1+ e − t ).

Article Snippet: Colloidal solution of polystyrene nanoparticles (500 nm in diameter) was purchased from Microparticles GmbH.

Techniques: Microscopy