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Electrical Carrier Mobility Measurements of Amorphous Hydrogenated Boron Carbide Using Space-Charge-Limited Current Techniques
(2015-08-11)
Within the field of neutron detection, there has been a push to develop solid-state
direct-conversion devices. Amorphous hydrogenated boron carbide (a-BxC:Hy) is of
particular interest for this purpose because it has a ...
Uranium Oxides for Solid-State Direct-Conversion Neutron Detection
(2020)
This study is focused on studying the potential of uranium oxides as solid-state direct-conversion neutron detectors.
By modeling uranium oxides as neutron detectors, we found that thick detectors with suitable uranium ...
Plasma-Enhanced Atomic Layer Deposition of Boron Carbide for Interconnect Applications
(University of Missouri -- Kansas City, 2018)
As the semiconductor industry endeavors to scale integrated circuit dimensions—
decreasing layer thicknesses while increasing the aspect ratio of fillable features—the
need for novel interconnect materials with highly ...
Plasma-enhanced molecular layer deposition (PEMLD) of boron carbide dielectrics from carboranes for interconnect and patterning applications
(2022)
The dimensional scaling of semiconductor devices following Moore’s law has resulted in smaller, faster, and cheaper integrated circuits (IC) chips, going from ~3000 transistors in an IC chip in the early 1970s, to ~100 ...
Amorphous hydrogenated boron carbide for solid-state direct-conversion thermal neutron detection
(2021)
Amorphous hydrogenated boron carbide (a-BC:H) is one of a very limited number of neutron-sensitive materials. It has been studied over the last three decades for solid-state thermal neutron detection due to its high ...