Abstract: A unit cell can be used for a metasurface, metamaterial, or beamforming antenna. The unit cell includes a metal layer attached to a substrate. The metal layer defines an iris opening for the unit cell. One or more tunable capacitance devices are positioned within or across the iris opening. Each tunable capacitance device is to tune resonance frequency of the unit cell. Mass transfer technologies or self-assembly processes may be used to position the tunable capacitance devices.

Abstract: Methods and apparatuses for performing optical inspection of varactor diodes in an antenna are disclosed. In some embodiments, the method of testing an antenna having varactor diodes comprises: selecting a plurality of varactor diodes to be placed in a light emitting state; forward biasing the selected varactor diodes to a magnitude at which the selected varactor diodes are to emit light; and detecting one or more faulty varactor diodes of the selected varactor diodes based on their emitted light intensity.

Abstract: Systems and methods for identifying options for order fulfillment using an API are provided. The system receives, via the API, an order inquiry comprising customer information and item information about an item sold via a merchant website. The order inquiry can be received in response to a customer placing the item in an electronic shopping cart. The item information includes an item identifier and a quantity. The customer information includes a customer address. Using the item information and the customer information, the system identifies warehouse nodes and carriers via which the item can be delivered to the customer. The system confirms inventory of the item in the warehouse nodes. For each warehouse node with sufficient inventory, the system identifies shipping options for the item, including levels of service, cutoff order times, and prices. The system then generates fulfillment options for the item and provides the options to the merchant website.

Abstract: The present invention is directed to a family of trimetallic nitride endohedral metalloheterofullerenes having the formula Ax X3-x N@Cn N, (x=0, 1, 2 or 3) (n=number of carbon atoms in the cage, typically between 59 and 199), wherein A and X are metal atoms encased within the cage, C is carbon and N is nitrogen. A and X are preferably selected from rare earth elements or group IIIB elements. A or X metal atoms are scandium, yttrium, lanthanum, gadolinium, lutetium, holmium, erbium, thulium, dysprosium, neodymium, cerium, praseodymium and ytterbium. Representative embodiments include Sc3N@C79N, Y3N@C79N, La3N@C79N, Tb3N@C79N, Ho3N@C79N, LaSc2N@C79N, PrSc2N@C79N, GdSc2N@C79N, La2ScN@C79N, and Gd2ScN@C79N. The present invention is also directed to a method of making the inventive endohedral metalloheterofullerenes having the formula AxX3-xN@CnN. These methods involve use of oxidizing gases (e.g.

Abstract: An exemplary optical limiter device (100) has an optically transmissive substrate (102) and a layer (104) on a first surface (106) of the substrate, the layer having a trimetallic nitride endohedral metallofullerene. The layer can be a thin film of the trimetallic nitride endohedral metallofullerene, a layer material with a cavity containing a solution with the trimetallic nitride endohedral metallofullerene, a sol-gel with a trimetallic nitride endohedral metallofullerene, and a self assembled monolayer with a trimetallic nitride endohedral metallofullerene. The layers of trimetallic nitride endohedral metallofullerenes can be vapor deposited, solution deposited and/or self assembled onto optical components. The third-order nonlinear properties of these films provide desired transmission characteristics.

Abstract: A method of making multiple carbonaceous nanomaterials is provided. Embodiments of the method can produce a reaction product that includes trimetaspheres, nanotubes, and at least one of fullerenes and metallofullerenes. A preferred embodiment of the method includes reacting at least one carbon source, nitrogen source, copper source, yttrium source, transition metal, and trimetasphere-forming metal in a reaction chamber. The reaction product can be produced by arc discharge in the presence of nitrogen gas.

Abstract: An exemplary photovoltaic device for conversion of an incident wavelength of electromagnetic radiation to electricity has an absorber of incident wavelength of electromagnetic radiation, a trimetasphere in electron transferring contact with the absorber, an anode in electrical contact with the trimetasphere, and a cathode in electrical contact with the absorber. The absorber and trimetasphere can be arranged as a heterojunction or a blended junction. An exemplary electrical circuit has an absorber of incident electromagnetic radiation, a trimetasphere-containing material in electron transferring contact with the absorber, an anode, a cathode and a current path from the anode to the cathode. An exemplary method of converting incident electromagnetic radiation to an electrical signal using a trimetasphere-containing material is also disclosed.

Abstract: An exemplary optical limiter device (100) has an optically transmissive substrate (102) and a layer (104) on a first surface (106) of the substrate, the layer having a trimetallic nitride endohedral metallofullerene. The layer can be a thin film of the trimetallic nitride endohedral metallofullerene, a layer material with a cavity containing a solution with the trimetallic nitride endohedral metallofullerene, a sol-gel with a trimetallic nitride endohedral metallofullerene, and a self assembled monolayer with a trimetallic nitride endohedral metallofullerene. The layers of trimetallic nitride endohedral metallofullerenes can be vapor deposited, solution deposited and/or self assembled onto optical components. The third-order nonlinear properties of these films provide desired transmission characteristics.

Abstract: The present invention is directed to a novel method for isolating fullerenes. In a preferred embodiment, the process purifies metallic nitride fullerenes from non-metallic nitride fullerenes by mixing a solution containing metallic nitride fullerenes with a functionalized silica gel, allowing the mixture to react for an amount of time effective to immobilize non-metallic nitride fullerenes on said gel, and filtering the silica gel to obtain a filtrate containing purified metallic nitride fullerenes separated from other more abundant fullerenes like empty cage fullerenes and classical metallofullerenes. The mixture of fullerenes is added to the silica gel and stirred and filtered, thus separating the fullerenes/silica gel (top of filter) from the filtrate (bottom solution) containing only MNFs.

Abstract: The present invention is directed toward a tunable dielectric device comprising: a substrate and an endohedral fullerene encapsulating trimetallic nitride template compound disposed on the substrate. The endohedral fullerene encapsulating trimetallic nitride template compound has a dipole moment that is oriented when a voltage of less than about 5 volts is applied thereto causing a change in the orientation of the dipole moment of the compound. The physical dimension of the compound is essentially unchanged.

Abstract: The present invention is directed toward a tunable dielectric device comprising: a substrate and an endohedral fullerene encapsulating trimetallic nitride template compound disposed on the substrate. The endohedral fullerene encapsulating trimetallic nitride template compound has a dipole moment that is oriented when a voltage of less than about 5 volts is applied thereto causing a change in the orientation of the dipole moment of the compound. The physical dimension of the compound is essentially unchanged.

Abstract: A method for imagining and treating a body employing at least one trimetallic nitride template endohedral metallofullerene compound is disclosed. The compound has at least one diagnostic and at least one treatment atom encapsulated within a fullerene cage. The two atoms are different from each other. The compound is administered into a body, traced, and allowed to react at a targeted area of the body.

Abstract: A family of trimetallic nitride endohedral metallofullerenes and their preparation are described. The trimetallic nitride endohedral metallofullerenes have the general formula A3-nXn@Cm where n ranges from 0 to 3, A and X may be trivalent metals and may be either rare earth metal or group IIIB metals, and m is between about 60 and about 200. Further, the A3-nXn@C68, A3-nXn@C78, A3-nXn@C80 families of endohedral fullerenes are described. The trimetallic nitride endohedral metallofullerenes are produced by charging a reactor with a cored graphite rod that has been filled with a metal oxide graphite mixture. The metal oxides correspond to the metals for A and X. The graphite rod is arc discharged in a helium and nitrogen atmosphere to produce the desired trimetallic nitride endohedral metallofullerenes.

Abstract: Apparatus for conveniently and safely weighing and measuring infants including a cloth bed with a foldable peripheral frame divided into a head section, central body section, and foot section which fold upon each other. A folding head panel is secured to the head portion of the frame to place the infant's head against for measuring length by means of a measuring tape running along the longitudinal axis of the top of bed surface. An extensible end section is provided for larger infants. The bed is detachably suspended by three pairs of cords removably secured to a digital scale for weighing in pounds and grams. Included is separate measuring tape for determining the circumference of the infant's head, torso and other desired measurements.