Abstract: A surface enhanced Raman spectroscopy calibration curve generating system includes a SERS sensor, which includes a substrate and a plurality of sensing members formed on the substrate. Each of the sensing members includes a plurality of SERS signal amplifying structures. An inkjet dispensing device is to dispense different concentrations of a solution including a known analyte of interest onto the respective sensing members to form a concentration dependent array. A Raman spectrometer is to interrogate the concentration dependent array. A processor is operatively connected to each of the inkjet dispensing device and the Raman spectrometer. Computer-readable instructions are embedded on a non-transitory, tangible computer-readable medium and are executable by the processor. The computer-readable instructions are to automatically generate an intensity profile as a function of concentration for the concentration dependent array.

Abstract: A method of balancing a microelectromechanical system comprises determining if a microelectromechanical system is balanced in a plurality of orthogonal dimensions, and if the microelectromechanical system is not balanced, selectively depositing a first volume of jettable material on a portion of the microelectromechanical system to balance the microelectromechanical system in the plurality of orthogonal dimensions. A jettable material for balancing a microelectromechanical system comprises a vehicle, and a dispersion of nano-particles within the vehicle, in which the total mass of jettable material deposited on the microelectromechanical system is equal to the weight percentage of nano-particles dispersed within the vehicle multiplied by the mass of jettable material deposited on the microelectromechanical system.

Abstract: Embodiments of a printed security mark and a process are disclosed.

Abstract: Embodiments of a printed security mark and a process are disclosed.

Abstract: A method of forming electrical devices can include electrophotographically printing a particulate material on a device substrate, and the particulate material can form at least a portion of the electrical device. An optional intermediate transfer member can also be used to improve reliability and performance of the process. Dry or liquid electrophotographic methods can be effectively used to form electronic devices on a wide variety of substrates not conventionally available in device fabrication.

Abstract: Embodiments of a printed security mark and a process are disclosed.