摘要:
A patterned layer is formed by removing nanoscale passivating particle from a first plurality of nanoscale structural particles or by adding nanoscale passivating particles to the first plurality of nanoscale structural particles. Each of a second plurality of nanoscale structural particles is deposited on each of corresponding ones of the first plurality of nanoscale structural particles that is not passivated by one of the plurality of nanoscale passivating particles.
摘要:
A patterned layer is formed by removing nanoscale passivating particle from a first plurality of nanoscale structural particles or by adding nanoscale passivating particles to the first plurality of nanoscale structural particles. Each of a second plurality of nanoscale structural particles is deposited on each of corresponding ones of the first plurality of nanoscale structural particles that is not passivated by one of the plurality of nanoscale passivating particles.
摘要:
An apparatus including a positioner control device, a measuring device and a control routine. The positioner control device is communicatively coupled to a chamber of a charged particle beam device (CPBD) and is configured to individually manipulate each of a plurality of probes within the CPBD chamber to establish contact between ones of the plurality of probes and corresponding ones of a plurality of contact points of a sample positioned in the CPBD chamber. The measuring device is communicatively coupled to the CPBD and the positioner control device and is configured to perform one of a measurement and a detection of a characteristic associated with one of the plurality of contact points. The control routine is configured to at least partially automate control of at least one of the CPBD, the positioner control device and the measuring device.
摘要:
An apparatus including a positioner control device, a measuring device and a control routine. The positioner control device is communicatively coupled to a chamber of a charged particle beam device (CPBD) and is configured to individually manipulate each of a plurality of probes within the CPBD chamber to establish contact between ones of the plurality of probes and corresponding ones of a plurality of contact points of a sample positioned in the CPBD chamber. The measuring device is communicatively coupled to the CPBD and the positioner control device and is configured to perform one of a measurement and a detection of a characteristic associated with one of the plurality of contact points. The control routine is configured to at least partially automate control of at least one of the CPBD, the positioner control device and the measuring device.
摘要:
A patterned layer is formed by removing nanoscale passivating particle from a first plurality of nanoscale structural particles or by adding nanoscale passivating particles to the first plurality of nanoscale structural particles. Each of a second plurality of nanoscale structural particles is deposited on each of corresponding ones of the first plurality of nanoscale structural particles that is not passivated by one of the plurality of nanoscale passivating particles.
摘要:
A patterned layer is formed by removing nanoscale passivating particle from a first plurality of nanoscale structural particles or by adding nanoscale passivating particles to the first plurality of nanoscale structural particles. Each of a second plurality of nanoscale structural particles is deposited on each of corresponding ones of the first plurality of nanoscale structural particles that is not passivated by one of the plurality of nanoscale passivating particles.
摘要:
A method including directing a first electrical signal to at least one of a plurality of probes each positioned within a chamber of a charged particle beam device. At least one of the plurality of probes is exposed to a charged particle beam of the charged particle beam device, and a second electrical signal is compared to the first electrical signal to determine a characteristic associated with the at least one of the plurality of probes.
摘要:
A method for manipulating a nanoscale object deposited on a substrate. The surface of the substrate is passive. A target position is formed on the passive surface by the action of the tip of a scanning probe microscope. The nanoscale object is picked from its initial position by the tip of the scanning probe microscope, then placed and released at the target position.
摘要:
A method of nano-manipulation, including providing a nano-scale object movably positioned over a substrate and positioning a probe of a scanning probe microscope proximate the nano-scale object. The probe is then moved across the substrate along a gyrating path proximate the nano-scale object to reposition the nano-scale object.
摘要:
A method for manipulating a nanoscale object deposited on a substrate. The surface of the substrate is passive. A target position is formed on the passive surface by the action of the tip of a scanning probe microscope. The nanoscale object is picked from its initial position by the tip of the scanning probe microscope, then placed and released at the target position.