Equipment and processes of the Nanolithography Area

The Nanolithography Area is devoted to the definition of features at the submicron resolution level, and the characterization of materials, processes and devices fabricated at the institute at the nanoscale.

Techniques

  • Electron beam lithography (EBL)
  • AFM based nanofabrication
  • Nanoimprint lithography
  • Focused Ion Beam (FIB)
  • Scanning Electron Microscopy (SEM)
  • Resist Processing 
  • Optical Microcope (OM)

Equipment

AFM microscope

Bruker Icon AFM

  • Close-loop scanner
  • Sample size up to a 150 mm wafer

 

Electron beam lithography

RAITH 150 (TWO) dedicated electron beam lithography system

  • From samples up to 150 mm wafers
  • 0,1 to 30kV acceleration voltage
  • Height Sensor
  • Interferometric Stage

 

Nanoimprint lithography (NIL)

Obducat thermal nanoimprint system

  • Sample size up to 150 mm wafers
  • Maximum pressure: 80 bars and temperature up to 350 ºC

 

Focused Ion Beam

Zeiss Crossbeam 550L

  • Sample size up to a 150 mm wafer
  • Circuit editing capability
  • Nanomachining capabilities

 

Scanning Electron Microscopy

Zeiss 1560 and Zeiss AURIGA 40 Field Emission SEMs

  • 4” full acces (6 and 8 inch possible)
  • EDS Oxford Detector

 

Resist Processing

Fume Hood with Laurell Spinner and Hot-Plate

  • Small pieces to 6” wafers
  • Hot-Plate up to 200ºC


 

Optical Microscopy

Zeiss AxioM1

  • Manual Plate
  • Bright Field and Dark Field

Available Capabilities

EBL nanolithography

  • Lithography on positive and negative resists
  • Resolution below 20 nm
  • Up to 6 inch wafers in stich fields, stitch resolution below 20nm
  • Mix & Match with Optical Lithography

 

Nanoimprint lithography

  • Imprinting of polymer resists on different surfaces.
  • Imprinting of polymers foils (hot-embossing)
  • Resolution below 100 nm
  • Imprinting area up to 4"
  • "In house" technology for mould fabrication and conditioning

 

Focused Ion Beam (FIB)

  • Nanofabrication (Ga ions): Resolution below 20 nm depending on the material.
  • Gas Injection System (GIS): Pt, C, W, TEOS deposition & O2, F etching
  • Omniprobe for lamella preparation.
  • SmartFIB patterning software

Characterization Capabilities

Topographical characterization by AFM

  • Maximum sample size: 6'' wafer
  • Maximum range of images: 30 μm (X) x 30 μm (Y) x 4 μm (Z)
  • Lateral resolution (depending on surface features): 1 nm
  • Vertical resolution: 0.1 nm AFM
  • Other SPM techniques available on request

 

SEM characterization

  • SEM characterisation of whole wafers up to 6''
  • In-Lens, SE, EBS, STEM and BSE detectors
  • Oxford EDS detectors
  • Metrology (automatic large area imaging) and measuring

 

FIB characterization

  • FIB cross-sectioning
  • TEM lamela preparation
  • Circuit Editing.
  • SEM & FIB 3DMapping (topographic and/or EDS)

 

Optical MicroscopyLocal electrical characterization

  • Camera and computer attached
  • Multiple Objectives (x5,x10,x20,x50,x100 plus condensers)
  • Bright Field and Dark Field

Download the techniques and capabilities of the Nanolithography Area

Clean Room Nanolithography Area

Check the Nanolithography Area

Nanolithography Team

  • Xavier Borrisé (ext. 435564) 
  • Llibertad Solé (ext. 435557)
  • Albert Guerrero (ext. 435562)
Equipo del área de Nanolitografía