Electron emission properties of CNT arrays grown with micro-molding in capillary (MIMIC) assisted process

“…The RAP process enables us to control the diameter of the electron emitters as small as optical lithography dimensions. Lim et al [14] confirmed that the length of CNTs can be controlled by the thickness of residual resist and growing time. Also, we can reduce the pixel size by emitter area reduction to micrometer dimensions.…”

Analysis on the sharpness of optical sensitivity for amorphous selenium sensors with carbon nanotubes

“…The RAP process enables us to control the diameter of the electron emitters as small as optical lithography dimensions. Lim et al [14] confirmed that the length of CNTs can be controlled by the thickness of residual resist and growing time. Also, we can reduce the pixel size by emitter area reduction to micrometer dimensions.…”

Analysis on the sharpness of optical sensitivity for amorphous selenium sensors with carbon nanotubes

“…Recently, carbon nanotubes (CNTs) have drawn significant interest as ideal electrode materials for a variety of organic devices because CNTs display a high conductivity, high chemical and mechanical stabilities, and a transparency that approaches that of indium–tin oxide (ITO). , The use of CNTs as electrodes requires the development of versatile patterning methods for preparing electrodes with low contact resistance and favorable charge-injection properties when paired with the organic semiconductor layers. Patterning CNTs through solution processes has been realized by means of self-assembly, micromolding in a capillary, and transfer printing of CNT thin films − that were prepared by spin coating, vacuum filtration, or Langmuir–Blodgett assembly. These methods, however, have certain drawbacks.…”

“…22,23 The use of CNTs as electrodes requires the development of versatile patterning methods for preparing electrodes with low contact resistance and favorable chargeinjection properties when paired with the organic semiconductor layers. Patterning CNTs through solution processes has been realized by means of self-assembly, 24 micromolding in a capillary, 25 and transfer printing of CNT thin films 26−28 that were prepared by spin coating, vacuum filtration, or Langmuir− Blodgett assembly. These methods, however, have certain drawbacks.…”

Micropatterned Single-Walled Carbon Nanotube Electrodes for Use in High-Performance Transistors and Inverters

Effect of MWNT electroless Ag plating on field emission properties of MWNT/Ag nanocomposite cathodes