摘要:
The present invention is a method for localized chemical vapor deposition (CVD) for localized growing for example for carbon nanotubes (CNT), nanowires, and oxidation using a heated tip or an array of heated tips to locally heat the area of interest. As the tips moved, material such as CNTs grows in the direction of movement. The Scanning Probe Growth (SPG) or nanoCVD technique has similarities to the CVD growth; however it allows for controlled synthesis and direction and eliminates the need for masks.
摘要:
The present invention is a method for localized chemical vapor deposition (CVD) for localized growing for example for carbon nanotubes (CNT), nanowires, and oxidation using a heated tip or an array of heated tips to locally heat the area of interest. As the tips moved, material such as CNTs grows in the direction of movement. The Scanning Probe Growth (SPG) or nanoCVD technique has similarities to the CVD growth; however it allows for controlled synthesis and direction and eliminates the need for masks.
摘要:
This invention generally relates to an integrated ‘Lab-on-a-Pipette™’ which will provide sample-to-answer single cell genetic diagnosis for preimplantation genetic diagnosis (PGD) and other forms of single cell analysis (SCA). SCA is a quickly growing field with substantial impact in prenatal testing, cancer biopsies, diabetes, stem cell research, and our overall understanding of heterogeneity in biology. However, single cell genetic analysis is challenging, inaccurate, and in many cases impossible, due to the small amount of sample (5 pg), and difficulties in handling small sample volumes (50-100 pL). The ‘lab-on-a-pipette’ device integrates a microaspiration tip with microfluidic analysis components to conduct in-situ, real-time single cell genetic diagnosis in a single device. The microaspiration tip extracts and encapsulate a cell into an ultra-low volume plug (˜300 pL).
摘要:
This invention generally relates to an integrated ‘lab-on-a-Pipette’™ which will provide sample-to-answer single cell genetic diagnosis for preimplantation genetic diagnosis (PGD) and other forms of single cell analysis (SCA). SCA is a quickly growing field with substantial impact in prenatal testing, cancer biopsies, diabetes, stem cell research, and our overall understanding of heterogeneity in biology. However, single cell genetic analysis is challenging, inaccurate, and in many cases impossible, due to the small amount of sample (5 pg), and difficulties in handling small sample volumes (50-100 pL). The ‘lab-on-a-pipette’ device integrates a microaspiration tip with microfluidic analysis components to conduct in-situ, real-time single cell genetic diagnosis in a single device. The microaspiration tip extracts and encapsulate a cell into an ultra-low volume plug (˜300 pL).
摘要:
The present invention relates generally to the treatment of atherosclerosis and thrombosis. Specifically, the invention relates to a method for removing vascular deposits by locally heating plaque sites with micron size particles that are administered intravenously and are heated inductively.
摘要:
This invention generally relates to sensors made of granular thin films in the discontinuous phase. More particularly, the invention relates to microbolometers and displacement sensors fabricated from thin films that are close to the metal insulator transition (MIT) or metal semiconductor transition (MST) regime. Sensors of various designs have been fabricated according to the invention and may be used for deflection measurements, nano-indentation, visco-elastic measurements, topographical scanning, explosive detection, low abundance biomolecular detection, electromagnetic radiation detection and other similar detection and measurement systems.
摘要:
A polymeric micro-arm apparatus and method to use the same. The apparatus comprises of an elongated hollow polymeric structure with a distal end and a proximal end, an opening near the distal end, a main body attached to the polymeric structure means to move the polymeric structure, means to generate fluid flow through the opening, means to measure a flowrate of the fluid flow through the opening; and an element embedded in the polymeric structure, wherein the element is configured to detect when the polymeric structure contacts an object and measures the force that the object exerts upon the polymeric structure.
摘要:
The present invention relates generally to the treatment of atherosclerosis and thrombosis. Specifically, the invention relates to a method for removing vascular deposits by locally heating plaque sites with micron size particles that are administered intravenously and are heated inductively.
摘要:
The present invention relates generally to the treatment of atherosclerosis and thrombosis. Specifically, the invention relates to a method for removing vascular deposits by locally heating plaque sites with micron size particles that are administered intravenously and are heated inductively.
摘要:
A polymeric micro-arm apparatus and method to use the same. The apparatus comprises of an elongated hollow polymeric structure with a distal end and a proximal end, an opening near the distal end, a main body attached to the polymeric structure means to move the polymeric structure, means to generate fluid flow through the opening, means to measure a flowrate of the fluid flow through the opening; and an element embedded in the polymeric structure, wherein the element is configured to detect when the polymeric structure contacts an object and measures the force that the object exerts upon the polymeric structure.