Abstract: A MEMS-based particle manipulation system which uses a particle manipulation stage and optical confirmation of the manipulation. The optical confirmation may be camera-based, and may be used to assess the effectiveness or accuracy of the particle manipulation stage. In one exemplary embodiment, the particle manipulation stage is a microfabricated, fluid valve, which sorts a target particle from non-target particles in a fluid stream. The optical confirmation stage is disposed in the microfabricated fluid channels at the input and output of the microfabricated sorting valve. Deep learning techniques are brought to bear on the camera output to increase speed, accuracy and reliability.

Abstract: A network connector and method for making a network connector. The connector includes a core body, and first and second sets of contacts supported by the core body. Each of the of contacts having an exposed portion extending outside of the core body. Wires are coupled to the first and second sets of contacts. An internal printed circuit board is supported on the core body. The internal printed circuit board is coupled to the exposed portions of the first set of contact. A magnetic isolation component supported on the core body configured to filter electrical signals of the plurality of wires. The exposed portions of the second set of contacts are configured to engage an external printed circuit board.

Abstract: A microfabricated particle manipulation system, wherein a target particle is pierced by a microfabricated actuator or by a microfabricated knife edge. In either case, the particle membrane is altered, so as to allow material to traverse the membrane. The device may be used to extract cellular material from inside a cell, or to transfect a cell with foreign material.

Abstract: A MEMS-based particle manipulation system which uses a particle manipulation stage and optical confirmation of the manipulation. The optical confirmation may be camera-based, and may be used to assess the effectiveness or accuracy of the particle manipulation stage. In one exemplary embodiment, the particle manipulation stage is a microfabricated, fluid valve, which sorts a target particle from non-target particles in a fluid stream. The optical confirmation stage is disposed in the microfabricated fluid channels at the input and output of the microfabricated sorting valve. Deep learning techniques are brought to bear on the camera output to increase speed, accuracy and reliability.

Abstract: A chelating agent having the general formula (I) is provided (I) Metal chelates and constructs for carrying out targeted radionuclide therapy incorporating such chelating agents are provided. Methods of making and using the chelating agent, metal chelates and constructs for carrying out targeted radionuclide therapy, as well as diagnostic and therapeutic methods using such constructs, are provided.

Abstract: The invention relates to a crosslinkable acrylate polymer composition comprising a first polymer having Tg of 50 to 100° C. and a second polymer having Tg of ?10 to 25° C., wherein the composition has an acid number of 1-30 mg KOH/g, or the composition has an acid number of 1-39 mg KOH/g and at least one of the first polymer and the second polymer comprises 0.1-5 wt % of monomer units having a crosslinkable functional group based on the weight of the composition, and a primer prepared thereof. The invention also relates to use of said primer for preparing beer bottle label paper.

Abstract: A MEMS-based particle manipulation system which uses a particle manipulation stage and optical confirmation of the manipulation. The optical confirmation may be camera-based, and may be used to assess the effectiveness or accuracy of the particle manipulation stage. In one exemplary embodiment, the particle manipulation stage is a microfabricated, fluid valve, which sorts a target particle from non-target particles in a fluid stream. The optical confirmation stage is disposed in the microfabricated fluid channels at the input and output of the microfabricated sorting valve. Deep learning techniques are brought to bear on the camera output to increase speed, accuracy and reliability.

Abstract: A microfabricated particle manipulation system, wherein a target particle is pierced by a microfabricated actuator or by a microfabricated knife edge. In either case, the particle membrane is altered, so as to allow material to traverse the membrane. The device may be used to extract cellular material from inside a cell, or to transfect a cell with foreign material.

Abstract: The invention relates to a crosslinkable acrylate polymer composition comprising a first polymer having Tg of 50 to 100° C. and a second polymer having Tg of ?10 to 25° C., wherein the composition has an acid number of 1-30 mg KOH/g, or the composition has an acid number of 1-39 mg KOH/g and at least one of the first polymer and the second polymer comprises 0.1-5 wt % of monomer units having a crosslinkable functional group based on the weight of the composition, and a primer prepared thereof. The invention also relates to use of said primer for preparing beer bottle label paper.

Abstract: Delivering and consuming interactive video gaming content is described. An operation for such may include transmitting, over a network to a video content decoding appliance, one or more video frames of a video content item associated with a session related to an interactive video game; receiving, over the network, a game control input from a client computing device associated with the session; and modifying, in view of the game control input, a state of the session.

Abstract: A discharge lamp operating circuit is connected to a source of alternating current (AC) voltage, and has a discharge lamp and a semi-resonant circuit connected to the source of alternating current voltage and in series with the lamp. A starting circuit for initiating operation of said discharge lamp is also connected in the circuit. The lamp switching maintains the series semi-resonant circuit in oscillation and the series semi-resonant circuit maintains the lamp in operation after operation has been initiated by the starting circuit. Highly efficient energy transfer between inductive and capacitive components of the system result in low loss and high power factor. A variable capacitance circuit is provided to allow use of the discharge lamp operating circuit with different line voltages, and to allow dimming.

Abstract: A discharge lamp operating circuit is connected to a source of alternating current (AC) voltage, and has a discharge lamp and a semi-resonant circuit connected to the source of alternating current voltage and in series with the lamp. A starting circuit for initiating operation of said discharge lamp is also connected in the circuit. The lamp switching maintains the series semi-resonant circuit in oscillation and the series semi-resonant circuit maintains the lamp in operation after operation has been initiated by the starting circuit. Highly efficient energy transfer between inductive and capacitive components of the system result in low loss and high power factor.