Add to ORKGThermionic emission is the process in which materials at sufficiently high temperature spontaneously emit electrons. This process occurs when electrons in a material gain sufficient thermal energy from heating to overcome the material's potential barrier, referred to as the work function. For most bulk materials very high temperatures (greater than 1500 K) are needed to produce appreciable emission. Carbonbased nanomaterials have shown significant promise as emission materials because of their low work functions, nanoscale geometry, and negative electron affinity. One method of producing these materials is through the process known as microhollow cathode PECVD. In a microhollow cathode plasma, high energy electrons oscillate at very high en...
Influence of fabrication technology on field electron emission properties of nanoporous carbon (NPC)...
AbstractThe influence of fabrication technology on field electron emission properties of nanoporous ...
Carbon nanotubes (CNT) have recently emerged as a promising class of electron field emitters. They h...
Crystalline carbon nanomaterials such as nanotubes, nanofibers, and graphite have been studied widel...
This thesis develops a field electron emission model to simulate the emission of electrons by quantu...
Researchers at the NASA Glenn Research Center, in collaboration with the Rochester Institute of Tech...
Efficient electron emission requires a low work function and a stable emitter material. Carbon nanom...
Abstract:Field assisted electron emission from nanostructured carbon materials is becoming increasin...
Materials with low work functions hold great potential for improving the performance of thermionic e...
We have developed a thermionic cathode capable of high emission currents. The structure of this cath...
The work function determinations of candidate materials for low temperature (1400 K) thermionics thr...
A dispenser cathode’s ability to thermionically emit electrons is highly dependent on its material p...
Efficient electron emission for energy conversion requires a low work function and a stable emitter ...
Thesis (M.Sc.)-University of KwaZulu-Natal, Durban, 2010.A simple, low cost microwave plasma enhance...
Vacuum electron emission has been proposed as a means of achieving direct refrigeration and also for...
Influence of fabrication technology on field electron emission properties of nanoporous carbon (NPC)...
AbstractThe influence of fabrication technology on field electron emission properties of nanoporous ...
Carbon nanotubes (CNT) have recently emerged as a promising class of electron field emitters. They h...
Crystalline carbon nanomaterials such as nanotubes, nanofibers, and graphite have been studied widel...
This thesis develops a field electron emission model to simulate the emission of electrons by quantu...
Researchers at the NASA Glenn Research Center, in collaboration with the Rochester Institute of Tech...
Efficient electron emission requires a low work function and a stable emitter material. Carbon nanom...
Abstract:Field assisted electron emission from nanostructured carbon materials is becoming increasin...
Materials with low work functions hold great potential for improving the performance of thermionic e...
We have developed a thermionic cathode capable of high emission currents. The structure of this cath...
The work function determinations of candidate materials for low temperature (1400 K) thermionics thr...
A dispenser cathode’s ability to thermionically emit electrons is highly dependent on its material p...
Efficient electron emission for energy conversion requires a low work function and a stable emitter ...
Thesis (M.Sc.)-University of KwaZulu-Natal, Durban, 2010.A simple, low cost microwave plasma enhance...
Vacuum electron emission has been proposed as a means of achieving direct refrigeration and also for...
Influence of fabrication technology on field electron emission properties of nanoporous carbon (NPC)...
AbstractThe influence of fabrication technology on field electron emission properties of nanoporous ...
Carbon nanotubes (CNT) have recently emerged as a promising class of electron field emitters. They h...