Abstract: Some embodiments include a dipolar antenna system to electrically power an implantable miniature device and/or to stimulate bioelectrically excitable tissue. Other related systems and methods are also disclosed.

Abstract: A system and method for securing access to sensitive content on the web is disclosed. The approach automates compartmentalization practices for accessing different kinds of content with different browser instances. The automation is transparent to the user and does not require any modification of how non-sensitive content is accessed. For sensitive content, a Fresh Browser Instance (FBI) is automatically created to access the content. In addition, the automatic FBI system may provide support for novice users with predefined sensitive content sites as well as for more experienced users who can define conflict of interest (COI) classes which allows content from sites in the same user-defined class to coexist in a browser instance.

Abstract: A method and system for enabling the determination of kinetic rates of reaction within a fluid of interest including directing fluid flow exiting a test bed to a multi-port switching valve. The multi-port switching valve switches the fluid to a number of channels connected to a number of interchangeable in-flow extraction cartridges. Analytes of interest from the fluid flow are captured on an extraction medium to accumulate over time. Rates are determined by (i) sequentially channeling the fluid through each of the plurality of flow paths for a preselected time duration, (ii) analyzing the extraction cartridges, and computing the kinetic rate of reaction.

Abstract: A system and a method for hybrid brain computer interface for controlling a robotic swarm are disclosed. The system comprises: a control interface for defining a plurality of electrodes configured for accessing a plurality of brain signals associated with a plurality of channels located over a sensorimotor cortex; a processor, in operative communication with the control interface, configured to: train a machine learning model to associate a brain state with data defining a brain signal, decode a control signal of the plurality of brain signals to generate control data, apply the control data to the machine learning model to identify the brain state, and transmit instructions to a plurality of robotic devices to modify a density of the plurality of robotic devices based on the brain state; and an input device, in operable communication with the processor, for generating input data, the input data utilized by the processor to modify a position of the plurality of robotic devices.

Abstract: Platinum (II) and palladium (II) complexes of Formulas A and B and iridium (III) complexes of Formula C having azepine functional groups and their analogues as emitters for full color displays and lighting applications.

Abstract: The present invention provides methods for mineral precipitation and/or cementation of permeable or fractured non-porous materials using isolated urease.

Abstract: Methods and apparatus for growing photosynthetic organisms lacking Photosystem II (PSII) function using externally supplied electrons shuttled into the organism using redox mediators to improve photosynthetic output and to produce and recover chemicals of interest. By removing PSII, all PAR photons are funneled toward Photosystem I, thereby significantly increasing the theoretical photon utilization efficiency for CO2 fixation, energy storage and the capacity to synthesize valuable chemicals. Additional genetic modification can be performed to insert or enhance specific metabolic pathways to generate products of commercial interest.

Abstract: Platinum compounds of Formulas I and II useful in a variety of devices, such as, for example organic-light emitting diodes (OLEDs).

Abstract: A microfluidic device includes a first substrate including at least one microfluidic channel and a plurality of microwells, as well as a cooperating second substrate defining multiple split-walled cell trap structures that are registered with and disposed within the plurality of microwells. A method for performing an assay includes flowing cells and a first aqueous medium into a plurality of microwells of a microfluidic device, wherein each microwell includes a cell trap structure configured to trap at least one cell. The method further comprises flowing a nonpolar fluid with low permeability for analytes of interest through a microfluidic channel to flush a portion of the first aqueous medium from the microfluidic channel while retaining another portion of the first aqueous medium and at least one cell within each microwell. Surface tension at a non-polar/polar medium interface prevents molecule exchange between interior and exterior portions of microwells.

Abstract: A device for providing cutaneous sensations to a fingertip includes a lower base, an upper platform positioned over and mechanically connected to the lower base, and a shear plate positioned between the lower base and the upper platform and mechanically connected to the lower base. When a fingertip is positioned between the upper platform and the lower base, the upper platform is selectively vertically translatable relative to the lower base to provide a compressive force, and the shear plate is selectively laterally translatable relative to the lower base to provide a shear force. Accordingly, a wearable fingertip device having two degrees-of-freedom (DoF) to provide consecutive and/or concurrent compressive force and/or shear force to a fingertip is provided. The wearable fingertip device can be used in various scenarios; is portable, easily wearable, and easily manufacturable; and has low overall operating power requirements.

Abstract: The present invention comprises methods and devices for modulating the activity or activities of living cells, such as cells found in or derived from humans, animals, plants, insects, microorganisms and other organisms. Methods of the present invention comprise use of the application of ultrasound, such as low intensity, low frequency ultrasound, to living cells to affect the cells and modulate the cells' activities. Devices of the present invention comprise one or more components for generating ultrasound waves, such as ultrasonic emitters, transducers or piezoelectric transducers, composite transducers, CMUTs, and which may be provided as single or multiple transducers or in an array configurations. The ultrasound waves may be of any shape, and may be focused or unfocused.

Abstract: Systems and methods are presented for a timing device. The timing device includes a first electrode, a second electrode, and an electrolyte. The electrolyte includes a material selected such that an electrodeposit forms on the first electrode when a current is applied between the first electrode and the second electrode. A measurable electrical characteristic of the timing device is indicative of a time-dependent degree of growth of the electrodeposit between the first electrode and the second electrode.

Abstract: A series of double-component, bis O2-aryl diazeniumdiolate derivatives are provided, of which each molecule can release up to four nitric oxide molecules. These compounds show cytotoxic activities to cancer cells, such as human leukemia, breast cancer and lung cancer. Among them, the compound 3 showed the highest specific activity against human leukemia cells.

Abstract: A 3D printed hybrid nozzle device combining a microfluidic mixer with a liquid jet injector that addresses the bottleneck of investigating substrate-initiated biological reaction paths employing serial crystallography with XFELs. The hybrid nozzle provides for injecting aqueous protein crystal jets after fast mixing (<5 ms), reaching reaction time points (e.g., about 10 ms to about 150 ms) suitable to resolve enzyme kinetics.

Abstract: Some embodiments include an imaging system.

Abstract: Embodiments for systems and methods for optical pricing under diffusion-choice models, i.e., models combining consumer choice with diffusion, are disclosed.

Abstract: Various embodiments of a systems and methods for a triplet network having speaker diarization are disclosed.

Abstract: Embodiments of a system and method for an enterprise product line design and pricing solution are disclosed.

Abstract: Provided herein is a RNA-based riboregulator that detects protein translation and uses this stimulus to regulate expression of an unrelated protein. In one embodiment, provided herein is a synthetic nucleic acid molecule configured as a translation-sensing riboregulator, where the synthetic nucleic acid molecule comprises a first nucleotide sequence encoding a polypeptide, a translation-sensing riboswitch (TSR), and a second nucleotide sequence encoding a polypeptide, wherein the translation-sensing riboswitch comprises a stop codon of the first nucleotide sequence, a fully or partially double-stranded stem-forming domain, and translation initiation elements of the second nucleotide sequence.

Abstract: This disclosure relates generally to digital synchronous circuits that introduce clock skew without requiring clock buffers in a clock network. In one embodiment, the digital synchronous circuit includes a first flip flop and a second flip flop. The first flip flop is synchronized to be transparent and to be opaque in accordance with a first clock signal while the second flip flop is configured such that the second flip flop is synchronized to be transparent and to be opaque in accordance with a second clock signal. However, the second flip flop is configured to generate the first clock signal such that the second flip flop provides the first clock signal in a first clock state in response the second flip flop becoming transparent and provides the first clock signal in a second clock state in response the second flip flop becoming opaque thereby providing a clock skew without clock buffers.