Search Results - semiconductor

7 Results Sort By:

3D Printed Active Electronic Materials and Devices

Researchers in the Department of Mechanical and Aerospace Engineering at Princeton University have patented the 3D printing of active (semiconductor) electronic materials and devices, based on an extrusion process. The technique allows for printing of devices on flexible sheets, over large areas, in horizontal and vertical configurations, in three-...
Published: 3/29/2018   |   Inventor(s): Michael Mcalpine, Yong Lin Kong
Keywords(s): 3D Printing, semiconductor
Category(s): Ceramics/Material Sciences

Uses and Synthesis of high quality WTe2, a Titanic Magneto Resistive Material

Princeton Docket # 15-3071-1Researchers at Princeton University, Department of Chemistry, have developed a material with a very high magneto resistive (MR) effect, WTe2, which can be used in devices based on the MR effect. Magnetoresistance is the change of a material’s electrical resistance in response to an applied magnetic field. Materials...
Published: 7/20/2015   |   Inventor(s): Mazhar Ali, Zaheer Ali, Robert Cava
Keywords(s): semiconductor, sensors
Category(s): Ceramics/Material Sciences

A Method for Controlling Growth Instability in Template-Assisted Electrodeposition of Nanowires

A Method for Controlling Growth Instability in Template-Assisted Electrodeposition of Nanowires Princeton Docket # 14-3021 The synthesis of nanowires for future electronics and energy applications requires scalability, density, reproducibility, and cost effectiveness. In this regard, template-assisted electrodeposition methods offer distinct advan...
Published: 12/12/2014   |   Inventor(s): Howard Stone, Sangwoo Shin, Talal Al-Housseiny, Hyung Hee Cho, Beom Seok Kim
Keywords(s): battery, Opto-Electronics/ELE ENG, semiconductor
Category(s): Mechanical/Electrical Engineering

Integrated CMOS On-Chip Fluorescence Bio-Sensor and Microscopy System

Integrated CMOS-based Single–chip Fluorescence Bio‐Sensor SystemDocket # 14-2990Integrated, low‐cost and portable point‐of‐care diagnostic technology has the potential to bring transformative changes in healthcare by enabling early detection of diseases in a remote field setting, allowing timely and rapid treatment to the patient and facilita...
Published: 10/30/2014   |   Inventor(s): Lingyu Hong, Kaushik Sengupta
Keywords(s): biomarker/diagnostic, computers/software, medical device, semiconductor
Category(s): Computers and Software, Medical Devices/Diagnostics

Quantum Dot Micromaser

Quantum Dot Micromaser Docket # 14-3032 Solid-state superconducting circuits are versatile systems in which quantum states can be engineered and controlled. Recent progress in this area has opened up exciting possibilities for exploring fundamental physics as well as applications in quantum information technology. In a series of experiments it was ...
Published: 10/8/2014   |   Inventor(s): Jason Petta, Yinyu Liu
Keywords(s): Chemistry, semiconductor
Category(s): Mechanical/Electrical Engineering

Measuring Thin Film Flows Using FRAP

Measuring Thin Film Flows Using FRAP (Fluorescence Recovery After Photobleaching) Princeton Docket #14-2963 Industrial coating, painting, and printing processes all involve a thin liquid film flowing over a solid surface. To properly design an industrial system containing these processes, it is necessary to understand the characteristics of the f...
Published: 4/17/2014   |   Inventor(s): Jason Wexler, Ian Jacobi, Howard Stone
Keywords(s): semiconductor
Category(s): Computers and Software

Method for Controlling of Spatial and Temporal Variations of Plasma Properties in Plasma Devices With Crossed Electric and Magnetic Fields

Method for Controlling the Spatial and Temporal Variations of Plasma Properties in Plasma Devices with Crossed Electric and Magnetic Fields Princeton Docket # 14-2954 Researchers in the Princeton Plasma Physics Laboratory at Princeton University have proposed a new method of crafting spatial variations of the electron cross-field transport to cont...
Published: 3/14/2014   |   Inventor(s): Yevgeny Raitses, Alexsandr Merzhevskiy
Keywords(s): aerospace, plasma physics, semiconductor
Category(s): Ceramics/Material Sciences