Abstract: A gravity gate latch that is sized and configured to be positioned in the gap between the free end of a gate and a stationary object when the end of the gate is adjacent the stationary object to automatically engage a strike member on the gate. The gate latch has a pair of side plates that are spaced apart to define a space that encloses a lever actuating mechanism and a hook plate. The hook plate has a hook member that engages the strike member of the gate. The lever actuating mechanism has a pair of lever arms, which can be accessed from either side of the gate, that move the hook plate upward to disengage the strike member. A lock receiving member at the bottom of the gate latch receives a padlock to lock the gate latch. The padlock can also be accessed from either side of the gate.

Abstract: A gravity gate latch that is sized and configured to be positioned in the gap between the free end of a gate and a stationary object when the end of the gate is adjacent the stationary object to automatically engage a strike member on the gate. The gate latch has a pair of side plates that are spaced apart to define a space that encloses a lever actuating mechanism and a hook plate. The hook plate has a hook member that engages the strike member of the gate. The lever actuating mechanism has a pair of lever arms, which can be accessed from either side of the gate, that move the hook plate upward to disengage the strike member. A lock receiving member at the bottom of the gate latch receives a padlock to lock the gate latch. The padlock can also be accessed from either side of the gate.

Abstract: A gravity gate latch that is positioned near the free end of a gate to automatically engage a strike member. The gate latch has a pair of side plates that are spaced apart to define to enclose a hook plate and a sliding mechanism. The hook plate has a hook member that engages the strike member of the gate and a slot that engages the sliding mechanism to allow the hook plate to move upward and downward between the two side plates. The side plates define an enlarged latch mouth that receives the strike member. The hook member has an elongated edge to be hit by the strike member to lift the hook plate to allow the strike member to pass through the latch mouth and an enlarged area that is hit by the strike member to close the hook member to trap the strike member in the gate latch.

Abstract: A neural sensor includes a substrate defining an array of vias passing therethrough, a plurality of conductive surfaces, a light source, a plurality of groups of quantum dot-based luminescence units and a charge-coupled device (CCD) array. Each via allows a neurite to grow therethrough. Each conductive surface is adjacent to a different via and is electrically coupled thereto. The light source directs light toward the substrate. Each group of quantum dot-based luminescence units extends upwardly from a different one of the conductive surfaces generates light at a different predetermined wavelength when excited with light from the light source. Each luminescence unit changes its luminescence when electrically stimulated by a neural potential generated by a neurite. The CCD detects luminescence from each of the plurality of groups of quantum dot-based luminescence units and generates a signal representative of intensity of each wavelength of light detected.

Abstract: A neural sensor includes a substrate defining an array of vias passing therethrough, a plurality of conductive surfaces, a light source, a plurality of groups of quantum dot-based luminescence units and a charge-coupled device (CCD) array. Each via allows a neurite to grow therethrough. Each conductive surface is adjacent to a different via and is electrically coupled thereto. The light source directs light toward the substrate. Each group of quantum dot-based luminescence units extends upwardly from a different one of the conductive surfaces generates light at a different predetermined wavelength when excited with light from the light source. Each luminescence unit changes its luminescence when electrically stimulated by a neural potential generated by a neurite. The CCD detects luminescence from each of the plurality of groups of quantum dot-based luminescence units and generates a signal representative of intensity of each wavelength of light detected.

Abstract: A device for interfacing neurons includes a substrate that defines at least one via passing therethrough. The via is configured to allow at least one neurite to grow therethrough. A light generating unit is disposed adjacent to the substrate and is configured to generate light of a predetermined frequency when an action potential from the neurite is sensed. A light sensor that is spaced apart from the substrate is configured to assert a neural signal corresponding to the action potential when the light generating unit generates light of the predetermined frequency.