Methods, systems, and devices are disclosed for performing mechanosynthesis, including those that involve bulk chemical preparation of tips, multiple tips for supplying feedstock, and use of sequential tips such as in a thermodynamic cascade; such features may simplify starting requirements, increase versatility, and/or reduce complexity in the mechanosynthesis equipment and/or process.

Methods, systems, and devices are disclosed for performing mechanosynthesis, including those that involve bulk chemical preparation of tips, multiple tips for supplying feedstock, and use of sequential tips such as in a thermodynamic cascade; such features may simplify starting requirements, increase versatility, and/or reduce complexity in the mechanosynthesis equipment and/or process.

A quantum-dot-based measuring system is disclosed. The quantum-dot-based measuring system includes a laser to emit excitation light, an optical fiber probe including a tail end and a tapered tip, and the tapered tip of the optical fiber probe is attached with one or more quantum dots, and the excitation light is injected from the tail end of the optical fiber probe and emitted from the tapered tip to a sample to be detected, an objective lens to collect optical signal reflected by the sample and a spectrometer to receive the optical signal.

The present invention refers to a method for modifying a scanning probe microscope (SPM) tip, a modified SPM tip obtainable by the method, a modified SPM tip, to the use of the modified SPM tip, to a scanning probe comprising the modified SPM tip and to the use of the scanning probe.

The present invention refers to a method for modifying a scanning probe microscope (SPM) tip, a modified SPM tip obtainable by the method, a modified SPM tip, to the use of the modified SPM tip, to a scanning probe comprising the modified SPM tip and to the use of the scanning probe.

This probe production method is a method of producing a probe (101) having a coating layer (104) on a surface thereof, in which the coating layer (104) is formed on a surface of a base material (103) having a sharp tip end portion (103a) using a gas phase method.

This probe production method is a method of producing a probe (101) having a coating layer (104) on a surface thereof, in which the coating layer (104) is formed on a surface of a base material (103) having a sharp tip end portion (103a) using a gas phase method.

Systems and methods are disclosed that describe a MEMS device and a method of sensing based on a consensus algorithm. The MEMS device is a sensor comprising multiple piezoelectric layers attached to a microcantilever. It can be used to sense deflections or variations in corresponding parameters of systems in micro- and nano-scales. Multiple piezoelectric elements on a microcantilever can provide a more accurate measurement of the microcantilever's deflection. The device can eliminate bulky laser sensors in SPMs and provide additional use as a biosensor, or chemical sensor at the micro- and nano-scale. The consensus sensing algorithm can provide added robustness into the system. If one of the sensing elements or electrodes fails during a sensing process, other elements can compensate and allow for near zero-error measurement.

Systems and methods are disclosed that describe a MEMS device and a method of sensing based on a consensus algorithm. The MEMS device is a sensor comprising multiple piezoelectric layers attached to a microcantilever. It can be used to sense deflections or variations in corresponding parameters of systems in micro- and nano-scales. Multiple piezoelectric elements on a microcantilever can provide a more accurate measurement of the microcantilever's deflection. The device can eliminate bulky laser sensors in SPMs and provide additional use as a biosensor, or chemical sensor at the micro- and nano-scale. The consensus sensing algorithm can provide added robustness into the system. If one of the sensing elements or electrodes fails during a sensing process, other elements can compensate and allow for near zero-error measurement.

Methods, systems, and devices are disclosed for performing mechanosynthesis, including those that involve bulk chemical preparation of tips, multiple tips for supplying feedstock, and use of sequential tips such as in a thermodynamic cascade; such features may simplify starting requirements, increase versatility, and/or reduce complexity in the mechanosynthesis equipment and/or process.