Fuji Dimatix Inkjet Printer


2024-12-20 to 2025-01-02: Reduced Holiday Operations

Dear Birck Research Community,

The Purdue winter recess begins effective Friday afternoon December 20th and concludes Thursday morning, January 2. The university is officially closed during this time. As we have done in past years, the Birck Nanotechnology Center will remain available for research but will be unstaffed and hazardous gasses will be unavailable. Lab work may otherwise proceed, though any fume hood work must be done with someone else present in the same laboratory or cleanroom bay (the "buddy" system). Click the link above to get more detail about equipment conditions and rules.


Refer to the Material and Process Compatibility page for information on materials compatible with this tool.
Equipment Status: Set as UP, PROBLEM, or DOWN, and report the issue date (MM/DD) and a brief description. Italicized fields will be filled in by BNC Staff in response to issues. See Problem Reporting Guide for more info.

StatusUP
Issue Date and Description


Estimated Fix Date and Comment

Responding Staff

/wiki/spaces/BNCWiki/pages/6236662


iLab Name: Fuji Inkjet
iLab Kiosk: BRK Roll to Roll Technology Core
FIC:
Miko Cakmak
Owner: Guy Telesnicki
Location:
BRK 1100A
Maximum Wafer Size: 

Overview

General Description

The DMP-2850 allows the deposition of fluidic materials on an 8"X11" substrate stilizing a disposable piezo inkjet cartridge. This printer can create and define patterns over an area of about 200 x 300 mm and handle substrates up to 25 mm thick with an adjustable Z height. The temperature of the vacuum platen, which secures the substrate in place, can be adjusted up to 60°C. The DMP-2850 offers a variety of patterns using a pattern editor program. Additionally, a waveform editor and a drop-watch camera system allows manipulation of the electronic pulses to the piezo jetting device for optimization of the drop characteristics as it is ejected from the nozzle. This system enables easy printing of structures and samples for process verification and prototype creation.

Specifications

  • Material & fluid development and evaluation
  • Prototype and sample generation
  • Fluid and substrate interactions evaluation
  • Product development
  • Optimization and evaluation of digital patterns
  • Deposition of biological fluids including cell patterning, DNA arrays, proteomics

Technology Overview 


Sample Requirements and Preparation

 

Standard Operating Procedure



Questions & Troubleshooting



 



Process Library


References