Published Manufacturing & Production Flexible Electronic Devices Entire process is at low cost and low temperature with minimal environmental footprint By Binghamton University
Published Sciences Nanoparticle Structured Sensor Can detect a molecule of interest in a fluid (i.e. liquid or gas) accurately, rapidly, and with-out false positives.Chemiresistor sensors that are more selective and stable. By Binghamton University
Published Sciences Mussel-Inspired Nano-Material Emerging flexible electronic devices have exhibited significant potential for a wide range of applications, such as sensors, solar cells, batteries, antennas, and displays. By Binghamton University
Published Fitness & Lifestyle Differential Microphone The diaphragm is more flexible and sensitive than conventional designs due both to physical design and the use of silicon in fabrication By Binghamton University
Published Sciences Biobatteries The fabrication and performance of a flexible and stretchable bacteria-powered biobattery (or Microbial Fuel Cells) By Binghamton University
Published Medical Optical Microphone The optical design permits the use of much more flexible and smaller diaphragms, which can be made using silicon micro-fabrication techniques. By Binghamton University
Published Engineering Optical Sensing The optical design permits the use of much more flexible and smaller diaphragms, which can be made using silicon micro-fabrication techniques. By Binghamton University
Published Sciences Nanocomposite Scaffold Functionalized gold nanoparticles and nanofibrous membranes scaffold for fabrication of flexible sensors. By Binghamton University
Published Engineering Novel Nanowire Ink Forumlation New Nanoink Formulation of Copper-based Nanowires for Room-Temperature Sintering to Produce Conductive Traces on Flexible Polymeric Substrates By Binghamton University
Published Electronics SAM Coating This BU technology offers a multi-purpose protective coating. The bio-inspired approach exploits the synergies of using a flexible SAM as a template for a rigid ceramic overlay. By Binghamton University
Published Electronics Copper-Based Nanowires This new technology features an air-stable and low-cost copper-based nanowire ink formulation for manufacturing wearable electronics and sensors on flexible polymer. By Binghamton University
Published Telecommunications Real-Time Eye-Tracking The potential for intuitive human-computer interfaces, allowing for greater interactivity, more intelligent behavior, and increased design flexibility. By Binghamton University