Review





Similar Products

laminar silicon probes neuronexus neuronexus a2x1610mm 100 500 177 data acquisition system neuralynx digital lynx sx  (NeuroNexus Technologies)
97
NeuroNexus Technologies laminar silicon probes neuronexus neuronexus a2x1610mm 100 500 177 data acquisition system neuralynx digital lynx sx
Laminar Silicon Probes Neuronexus Neuronexus A2x1610mm 100 500 177 Data Acquisition System Neuralynx Digital Lynx Sx, supplied by NeuroNexus Technologies, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/laminar silicon probes neuronexus neuronexus a2x1610mm 100 500 177 data acquisition system neuralynx digital lynx sx/product/NeuroNexus Technologies
Average 97 stars, based on 1 article reviews
laminar silicon probes neuronexus neuronexus a2x1610mm 100 500 177 data acquisition system neuralynx digital lynx sx - by Bioz Stars, 2026-05
97/100 stars
  Buy from Supplier
digital micromirror array device  (Texas Instruments)
86
Texas Instruments digital micromirror array device
A) Schematic of the custom top-down FLight printer: Laser (405 nm) projection patterns were modulated with a digital <t>micromirror</t> device (DMD) and relayed through a lens-aperture assembly and mirror optics to project spatially patterned structures onto the mammary resin during fabrication. B) Light-dose matrices (intensity × exposure time) projected onto Matrigel/Col-I, dECM mam /Col-I and dECM mam /Matrigel photoresins. Each dot (1 × 1 mm) represents one tested light dose for printing. Exposure time range: 4-64 sec; Light intensity range: 2-64 mW cm -2 . C) Bright-field images and confocal reconstructions of millimeter-scale cylinders printed from each formulation. Constructs contained dense and continuously aligned filament networks (dashed boxes delimit the cylinder) Scale bars: 900 μm (left) and 100 μm (right). D) Histograms of filament angle orientation (alignment), with the percentage of filaments within ±15° of the dominant axis ( left ); quantification of filament-to-filament spacing (void spaces) for each resin (n = 60 void spaces from three technical replicates). Scale bars: 50 μm ( right ). E) Diffusion kinetics (10 kDA Rhodamine) in the three mammary hydrogels crosslinked with FLight printing or with homogenous UV light (bulk) at matched light intensities.
Digital Micromirror Array Device, supplied by Texas Instruments, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/digital micromirror array device/product/Texas Instruments
Average 86 stars, based on 1 article reviews
digital micromirror array device - by Bioz Stars, 2026-05
86/100 stars
  Buy from Supplier
digital micromirror array device (dmd) chip (texas instruments)  (Texas Instruments)
90
Texas Instruments digital micromirror array device (dmd) chip (texas instruments)
A) Schematic of the custom top-down FLight printer: Laser (405 nm) projection patterns were modulated with a digital <t>micromirror</t> device (DMD) and relayed through a lens-aperture assembly and mirror optics to project spatially patterned structures onto the mammary resin during fabrication. B) Light-dose matrices (intensity × exposure time) projected onto Matrigel/Col-I, dECM mam /Col-I and dECM mam /Matrigel photoresins. Each dot (1 × 1 mm) represents one tested light dose for printing. Exposure time range: 4-64 sec; Light intensity range: 2-64 mW cm -2 . C) Bright-field images and confocal reconstructions of millimeter-scale cylinders printed from each formulation. Constructs contained dense and continuously aligned filament networks (dashed boxes delimit the cylinder) Scale bars: 900 μm (left) and 100 μm (right). D) Histograms of filament angle orientation (alignment), with the percentage of filaments within ±15° of the dominant axis ( left ); quantification of filament-to-filament spacing (void spaces) for each resin (n = 60 void spaces from three technical replicates). Scale bars: 50 μm ( right ). E) Diffusion kinetics (10 kDA Rhodamine) in the three mammary hydrogels crosslinked with FLight printing or with homogenous UV light (bulk) at matched light intensities.
Digital Micromirror Array Device (Dmd) Chip (Texas Instruments), supplied by Texas Instruments, 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/digital micromirror array device (dmd) chip (texas instruments)/product/Texas Instruments
Average 90 stars, based on 1 article reviews
digital micromirror array device (dmd) chip (texas instruments) - by Bioz Stars, 2026-05
90/100 stars
  Buy from Supplier
fluidigm digital array  (fluidigm)
93
fluidigm fluidigm digital array
A) Schematic of the custom top-down FLight printer: Laser (405 nm) projection patterns were modulated with a digital <t>micromirror</t> device (DMD) and relayed through a lens-aperture assembly and mirror optics to project spatially patterned structures onto the mammary resin during fabrication. B) Light-dose matrices (intensity × exposure time) projected onto Matrigel/Col-I, dECM mam /Col-I and dECM mam /Matrigel photoresins. Each dot (1 × 1 mm) represents one tested light dose for printing. Exposure time range: 4-64 sec; Light intensity range: 2-64 mW cm -2 . C) Bright-field images and confocal reconstructions of millimeter-scale cylinders printed from each formulation. Constructs contained dense and continuously aligned filament networks (dashed boxes delimit the cylinder) Scale bars: 900 μm (left) and 100 μm (right). D) Histograms of filament angle orientation (alignment), with the percentage of filaments within ±15° of the dominant axis ( left ); quantification of filament-to-filament spacing (void spaces) for each resin (n = 60 void spaces from three technical replicates). Scale bars: 50 μm ( right ). E) Diffusion kinetics (10 kDA Rhodamine) in the three mammary hydrogels crosslinked with FLight printing or with homogenous UV light (bulk) at matched light intensities.
Fluidigm Digital Array, supplied by fluidigm, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/fluidigm digital array/product/fluidigm
Average 93 stars, based on 1 article reviews
fluidigm digital array - by Bioz Stars, 2026-05
93/100 stars
  Buy from Supplier
digital arrays  (fluidigm)
93
fluidigm digital arrays
A) Schematic of the custom top-down FLight printer: Laser (405 nm) projection patterns were modulated with a digital <t>micromirror</t> device (DMD) and relayed through a lens-aperture assembly and mirror optics to project spatially patterned structures onto the mammary resin during fabrication. B) Light-dose matrices (intensity × exposure time) projected onto Matrigel/Col-I, dECM mam /Col-I and dECM mam /Matrigel photoresins. Each dot (1 × 1 mm) represents one tested light dose for printing. Exposure time range: 4-64 sec; Light intensity range: 2-64 mW cm -2 . C) Bright-field images and confocal reconstructions of millimeter-scale cylinders printed from each formulation. Constructs contained dense and continuously aligned filament networks (dashed boxes delimit the cylinder) Scale bars: 900 μm (left) and 100 μm (right). D) Histograms of filament angle orientation (alignment), with the percentage of filaments within ±15° of the dominant axis ( left ); quantification of filament-to-filament spacing (void spaces) for each resin (n = 60 void spaces from three technical replicates). Scale bars: 50 μm ( right ). E) Diffusion kinetics (10 kDA Rhodamine) in the three mammary hydrogels crosslinked with FLight printing or with homogenous UV light (bulk) at matched light intensities.
Digital Arrays, supplied by fluidigm, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/digital arrays/product/fluidigm
Average 93 stars, based on 1 article reviews
digital arrays - by Bioz Stars, 2026-05
93/100 stars
  Buy from Supplier
nanoflextm ifc controller  (fluidigm)
93
fluidigm nanoflextm ifc controller
A) Schematic of the custom top-down FLight printer: Laser (405 nm) projection patterns were modulated with a digital <t>micromirror</t> device (DMD) and relayed through a lens-aperture assembly and mirror optics to project spatially patterned structures onto the mammary resin during fabrication. B) Light-dose matrices (intensity × exposure time) projected onto Matrigel/Col-I, dECM mam /Col-I and dECM mam /Matrigel photoresins. Each dot (1 × 1 mm) represents one tested light dose for printing. Exposure time range: 4-64 sec; Light intensity range: 2-64 mW cm -2 . C) Bright-field images and confocal reconstructions of millimeter-scale cylinders printed from each formulation. Constructs contained dense and continuously aligned filament networks (dashed boxes delimit the cylinder) Scale bars: 900 μm (left) and 100 μm (right). D) Histograms of filament angle orientation (alignment), with the percentage of filaments within ±15° of the dominant axis ( left ); quantification of filament-to-filament spacing (void spaces) for each resin (n = 60 void spaces from three technical replicates). Scale bars: 50 μm ( right ). E) Diffusion kinetics (10 kDA Rhodamine) in the three mammary hydrogels crosslinked with FLight printing or with homogenous UV light (bulk) at matched light intensities.
Nanoflextm Ifc Controller, supplied by fluidigm, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nanoflextm ifc controller/product/fluidigm
Average 93 stars, based on 1 article reviews
nanoflextm ifc controller - by Bioz Stars, 2026-05
93/100 stars
  Buy from Supplier
digital array  (fluidigm)
93
fluidigm digital array
A) Schematic of the custom top-down FLight printer: Laser (405 nm) projection patterns were modulated with a digital <t>micromirror</t> device (DMD) and relayed through a lens-aperture assembly and mirror optics to project spatially patterned structures onto the mammary resin during fabrication. B) Light-dose matrices (intensity × exposure time) projected onto Matrigel/Col-I, dECM mam /Col-I and dECM mam /Matrigel photoresins. Each dot (1 × 1 mm) represents one tested light dose for printing. Exposure time range: 4-64 sec; Light intensity range: 2-64 mW cm -2 . C) Bright-field images and confocal reconstructions of millimeter-scale cylinders printed from each formulation. Constructs contained dense and continuously aligned filament networks (dashed boxes delimit the cylinder) Scale bars: 900 μm (left) and 100 μm (right). D) Histograms of filament angle orientation (alignment), with the percentage of filaments within ±15° of the dominant axis ( left ); quantification of filament-to-filament spacing (void spaces) for each resin (n = 60 void spaces from three technical replicates). Scale bars: 50 μm ( right ). E) Diffusion kinetics (10 kDA Rhodamine) in the three mammary hydrogels crosslinked with FLight printing or with homogenous UV light (bulk) at matched light intensities.
Digital Array, supplied by fluidigm, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/digital array/product/fluidigm
Average 93 stars, based on 1 article reviews
digital array - by Bioz Stars, 2026-05
93/100 stars
  Buy from Supplier

Image Search Results


A) Schematic of the custom top-down FLight printer: Laser (405 nm) projection patterns were modulated with a digital micromirror device (DMD) and relayed through a lens-aperture assembly and mirror optics to project spatially patterned structures onto the mammary resin during fabrication. B) Light-dose matrices (intensity × exposure time) projected onto Matrigel/Col-I, dECM mam /Col-I and dECM mam /Matrigel photoresins. Each dot (1 × 1 mm) represents one tested light dose for printing. Exposure time range: 4-64 sec; Light intensity range: 2-64 mW cm -2 . C) Bright-field images and confocal reconstructions of millimeter-scale cylinders printed from each formulation. Constructs contained dense and continuously aligned filament networks (dashed boxes delimit the cylinder) Scale bars: 900 μm (left) and 100 μm (right). D) Histograms of filament angle orientation (alignment), with the percentage of filaments within ±15° of the dominant axis ( left ); quantification of filament-to-filament spacing (void spaces) for each resin (n = 60 void spaces from three technical replicates). Scale bars: 50 μm ( right ). E) Diffusion kinetics (10 kDA Rhodamine) in the three mammary hydrogels crosslinked with FLight printing or with homogenous UV light (bulk) at matched light intensities.

Journal: bioRxiv

Article Title: A 3D printed model of human lactation

doi: 10.64898/2026.01.30.702762

Figure Lengend Snippet: A) Schematic of the custom top-down FLight printer: Laser (405 nm) projection patterns were modulated with a digital micromirror device (DMD) and relayed through a lens-aperture assembly and mirror optics to project spatially patterned structures onto the mammary resin during fabrication. B) Light-dose matrices (intensity × exposure time) projected onto Matrigel/Col-I, dECM mam /Col-I and dECM mam /Matrigel photoresins. Each dot (1 × 1 mm) represents one tested light dose for printing. Exposure time range: 4-64 sec; Light intensity range: 2-64 mW cm -2 . C) Bright-field images and confocal reconstructions of millimeter-scale cylinders printed from each formulation. Constructs contained dense and continuously aligned filament networks (dashed boxes delimit the cylinder) Scale bars: 900 μm (left) and 100 μm (right). D) Histograms of filament angle orientation (alignment), with the percentage of filaments within ±15° of the dominant axis ( left ); quantification of filament-to-filament spacing (void spaces) for each resin (n = 60 void spaces from three technical replicates). Scale bars: 50 μm ( right ). E) Diffusion kinetics (10 kDA Rhodamine) in the three mammary hydrogels crosslinked with FLight printing or with homogenous UV light (bulk) at matched light intensities.

Article Snippet: A fiber coupled laser (405 n, 1000 mW power) with a high speckle contrast ratio (for modulation instability enabling microfilament formation), was expanded with a 4 f magnification system and projected onto a digital micromirror array device (DMD; DLP6500FYE, Texas instruments) with a pixel resolution 1920 × 1080 and a pixel pitch 7.56 μ m.[ ] The DMD allowed to project the light in digitally designed images (Microsoft PowerPoint for Microsoft 365), through a plano convex lenses (1:1 magnification) with an aperture in between (for isolation of the reflected image from the DMD diffraction pattern), onto a mirror for top-down Flight printing.

Techniques: Formulation, Construct, Diffusion-based Assay