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This Sliding Bar can be switched on or off in theme options, and can take any widget you throw at it or even fill it with your custom HTML Code. Its perfect for grabbing the attention of your viewers. Choose between 1, 2, 3 or 4 columns, set the background color, widget divider color, activate transparency, a top border or fully disable it on desktop and mobile.

Super Inkjet printer SIJ-S030

/Super Inkjet printer SIJ-S030
Super Inkjet printer SIJ-S030 2016-05-25T15:35:06+00:00

 

[vc_row][vc_column][vc_column_text]SIJ-S030 The super-fine inkjet printer technology developed by the Nanotechnology Research Institute of AIST allows the ejection of super-fine droplets much smaller than the conventional droplets ejected by a conventional inkjet printer-less than 1/10 the size and less than 1/1000 the volume of conventional droplets.   Droplet volume:0.1fl (femtoliter)~10pl (picoliter), Line width 0.5μm ~ several dozen μm. Viscosity range :0.5~10,000cps (non-heated). Large variety of usable fluids:Conductive ink, Insulating ink, Resist ink, UV ink, Solvent ink, Protein material, etc. Software:Easily programmable for printing. Nozzle:Disposable, Low cost, easily-exchangeable. Camera:Real-time observation, You can see what is being produced on the substrate. With three convenient printer area sizes.

SIJ-S030 30x30mm
SIJ-S050 50x50mm
SIJ-S150 150x150mm
replacement printer heads are very affordable and come 20 in a case.

examples
Example Application Advanced technology ・Printable electronics  ・Solar-cells  ・Touch panels  ・LED Alternative technology  ・Partial platings ・Resists coating ・Bumps forming ・Dispenser devices Optics technology  ・Photomasks  ・Microlenses  ・Microfilters Biotechnology>  ・Pipetting device of protein material ・Cell scaffolds  ・Microarrays

silver ink

silver ink L/S=1um

Circut board 2

 

 

Silver ink  Line:3μm  Distance:15μm      Gold ink line:5μm Pitch:50μm                 Circuit pattern line:under10μm
Microlens resin inkProtein Albumin
Microlens(resin ink) Diameter:10μm          Protein material (albumin)[/vc_column_text][/vc_column][/vc_row]

 

micro bumps

qr code
Product information

SIJ-S030 Features and specifications

SIJ-S050

Super Inkjet printer technology & properties

SIJTechnology Example Application

 

Application PDF

Fabrication of Terahertz Planar Metamaterials Using a Super-Fine Ink-Jet Printer

Inkjet printing for fabrication of lab-on-paper on cellulose membrane

Low-voltage organic transistor with subfemtoliter inkjet source drain contacts

Inkjet fab lab on paper on cellulose 2010

SIJ Osaka Mun Tech Research Ins 20111011

Inkjet printing for flexible electronics:

 

 

Front end tool for printed electronics

DFM Inkjet achieves a great efficiency improvement in the data generation and editing of inkjet equipment.

 

Printable electronics

 

 

Data generation system
『DFM inkjet』

-Precise and accurate data conversion-
CAD data(vector) ⇔ BMP data(raster)

-Useful features for inkjet printing-
Reinforcement Function.
Thinning out.
Easy process evaluation with any adherence shape.

On- demand modeling using super-fine inkjet technology
Single-micron level microfabrication and femto-liter level super-fine inkjet application

Features of super-fine inkjet technology

The super-fine inkjet technology developed by the Nanotechnology Research Institute of AIST allows the ejection of super-fine droplets much smaller than the conventional droplets ejected by a conventional inkjet printer-less than 1/10 the size and less than 1/1000 the volume of conventional droplets.

fig3 fig4

Precision placement of nano-materials

Critical to the implementation of nanotechnology is a deposition methodology that allows novel materials to be precisely added to conventional CMOS components in a scalable manner. Out super-fine inkjet technology enables the precise arrangement of various nanomaterials on a any type substrate.
– Functional ceramics

Photo credits
Dr. Takashi Iijima
Research Institute of Instrumentation Frontier
The National Institute of Advanced Industrial Science and Technology

– Electro-conductive polymer

nano2

Photo credits
Dr. Wataru Mizutani
Nanotechnology Research Institute
The National Institute of Advanced Industrial Science and Technology

– Carbon nanotube

nano3

Photo credits
Associate Prof. Hiroki Ago
Institute for Materials Chemistry and Engineering
Kyushu University

Maskless precision patterning

maskless

With traditional patterning method satisfactory liquid placements is a challenge as bulges may develop due to the surface tension of the liquid. The effect is exacerbated as feature sizes approach 10 microns and lower. Our super-fine inkjet technology effectively avoids this problem by accelerating the drying of a line, thus minimizing the disruption in a pattern formed in a liquid state.

Using nanopaste to draw a super-fine wiring pattern

nano_paste

An interesting aspect to metals is that for particles smaller than 20 nm in diameter, the effective melting point decreases dramatically. For example, the melting point of a super-fine silver particle may be as low as room temperature, whereas a micron sized particle of silver melts at 961ºC! Using a solution with these nano-size particles as ink, with out novel printer, enables maskless patterning with a line width of several microns, which is comparable to the photolithographic methods, but at room temperature and normal atmospheric pressure!

Forming a three-dimensional structure

rittai_kouzou_detale

Because super-fine liquid droplets dry very quickly, the droplets can be accumulated to form a three-dimensional structure by shooting them at a fixed target.