摘要:
A semiconductor device according to example embodiments may include a channel including a nanowire and a charge storage layer including nanoparticles. A twin gate structure including a first gate and a second gate may be formed on the charge storage layer. The semiconductor device may be a memory device or a diode.
摘要:
A semiconductor device according to example embodiments may include a channel including a nanowire and a charge storage layer including nanoparticles. A twin gate structure including a first gate and a second gate may be formed on the charge storage layer. The semiconductor device may be a memory device or a diode.
摘要:
A method for fabricating a circuit board includes providing a first substrate, forming a circuit on the first substrate, the circuit having a first electrode, a second electrode and at least one nanostructure, and transferring the circuit from the first substrate to a surface of a second substrate made of a polymer.
摘要:
Circuit boards having a polymer substrate, a first electrode and a second electrode disposed on a surface of the polymer substrate, and at least one nanostructure electrically connected to the first and second electrodes are generally disclosed.
摘要:
There is provided a method for selectively adsorbing nano-structures on the end of the probe of a scanning probe microscope. The method includes the steps of: forming the adsorbing prevention coating layer on the probe surface of the scanning probe microscope; removing the adsorbing prevention coating layer formed on the end of the probe; and adsorbing nano-structures on the end of the probe at which the adsorbing prevention coating layer is removed, in the solution or the gas containing nano-structures.
摘要:
A method for fabricating a circuit board includes providing a first substrate, forming a circuit on the first substrate, the circuit having a first electrode, a second electrode and at least one nanostructure, and transferring the circuit from the first substrate to a surface of a second substrate made of a polymer.
摘要:
A field effect transistor (FET) with a source electrode and a drain electrode distanced apart from each other on a semi-conductor substrate, and a gate electrode consisting of a uniform layer of reduced graphene oxide encapsulated semiconductor nanoparticles (rGO-NPs), wherein the gate electrode is disposed between and contacts both the source and drain electrodes. Methods of making and assay methods using the FETs are also disclosed, including methods in which the rGO-NPs are functionalized with binding partners for biomarkers.
摘要:
A semiconductor device and methods of manufacturing and operating the semiconductor device may be disclosed. The semiconductor device may comprise different nanostructures. The semiconductor device may have a first element formed of nanowires and a second element formed of nanoparticles. The nanowires may be ambipolar carbon nanotubes (CNTs). The first element may be a channel layer. The second element may be a charge trap layer. In this regard, the semiconductor device may be a transistor or a memory device.
摘要:
A semiconductor device and methods of manufacturing and operating the semiconductor device may be disclosed. The semiconductor device may comprise different nanostructures. The semiconductor device may have a first element formed of nanowires and a second element formed of nanoparticles. The nanowires may be ambipolar carbon nanotubes (CNTs). The first element may be a channel layer. The second element may be a charge trap layer. In this regard, the semiconductor device may be a transistor or a memory device.
摘要:
A reconfigurable semiconductor device is disclosed. The semiconductor device includes a substrate, a first insulating material formed on the substrate, two channels having different polarities, a plurality of terminal electrodes formed on the insulating material and coupled in common with the channels at their opposite ends, a second insulating material formed on the terminal electrodes, and a control gate formed on the second insulating material. The channels have different polarity and a charge storage layer is formed inside the second insulating material. The control gate is applied with a forward bias or a reverse bias and then the bias is cut off. The voltage-current characteristics of the semiconductor device are changed according to an electrical charge created in the charge storage layer.