| Patent application number | Description | Published |
|---|
| 20080203910 | Dual Light Emitting and Electrochromic Device - A combined electrochromic/electroluminescent device includes at least one pixel | 08-28-2008 |
| 20080287638 | Supramolecular Polymers Associative to Carbon Nanotubes - A supramolecular polymer and its composite with carbon nanotubes, CNTs, are described. The supramolecular polymer is an ensemble of precursors that independently contain “sticky feet” for non-covalent binding to carbon nanotube surfaces and associative groups. There is at least one of the associative groups covalently bound to each of the precursor and there is at least one covalently connecting moiety connecting associative groups within a precursor or connecting an associative group to a linker to a “sticky foot” in a precursor. When the associative groups are in a dissociative state, the supramolecular polymer precursors and CNTs can be combined to form a dispersion. Upon promotion, the dissociated associative groups in the dispersion can associate to yield a CNT/supramolecular polymer composite. | 11-20-2008 |
| 20080299030 | HIGHLY ACCESSIBLE, NANOTUBE ELECTRODES FOR LARGE SURFACE AREA CONTACT APPLICATIONS - An highly porous electrically conducting film that includes a plurality of carbon nanotubes, nanowires or a combination of both. The highly porous electrically conducting film exhibits an electrical resistivity of less than 0.1 O·cm at 25 C and a density of between 0.05 and 0.70 g/cm | 12-04-2008 |
| 20090149661 | N-Substituted 3,4-Alkylenedioxypyrroles, Ester Substituted Dihydroxypyrroles and Methods for Synthesis of These Pyrroles - A family of N-substituted 3,4-alkylenedioxypyrrole includes monomers for of formula (I) electropolymerization to conjugated polymers and key intermediates for the preparation of the monomers. The preparation of the //-substituted 3,4-alkylenedioxypyrroles is carried out via a synthetic intermediate, an ester substituted dihydroxypyrrole. The synthetic method to prepare the //-substituted 3,4-alkylenedioxypyrrole intermediates and ultimately the N-substituted 3,4-alkylenedioxypyrrole monomers begins with a reaction to form the ester substituted dihydroxypyrrole. | 06-11-2009 |
| 20090221763 | Chemical Defunctionalization of Polymeric Alkylenedioxyheterocyclics - A method for preparing a defunctionalized alkylenedioxyheterocycle polymer or copolymer involves providing a polycarboxylic acid derivative functionalized alkylenedioxyheterocycle polymer or copolymer and transforming the polymer or copolymer into a defunctionalized alkylenedioxyheterocycle polymer or copolymer which is a polyhydroxy, polythiol, polyamino, or polycarboxylic acid functionalized alkylenedioxyheterocycle polymer or copolymer. The monomers, homopolymers and copolymers for use in the method are new compositions of matter. The polymers containing polycarboxylic acid derivative functionalized alkylenedioxyheterocycle units are soluble polymers which are defunctionalized to yield insoluble polyhydroxy, polythiol, polyamino, or polycarboxylic acid functionalized alkylenedioxyheterocycle polymers. These polymers can be cast as films for use as: hole transport layers in organic light emitting diodes; active electrochrome in electrochromic windows, mirrors and displays; field effect transistors, supercapacitors, batteries, photovoltaic cells, and other electronic components; electronic paper; anti-stat conductors; and transparent conductors. | 09-03-2009 |
| 20100038597 | ELECTROACTIVE POLYMERS CONTAINING PENDANT PI-INTERACTING/BINDING SUBSTITUENTS, THEIR CARBON NANOTUBE COMPOSITES, AND PROCESSES TO FORM THE SAME - A composition of matter comprises a polymer with a fully conjugated backbone or a conjugated block with a plurality of binding groups connected to the backbone by a linking moiety. The binding groups permit a non-covalent binding to a graphitic surface such as a carbon nanotube. A composition of matter where an electroactive polymer with binding groups connected to a conjugated backbone through a linking moiety is bound to carbon nanotubes. Such compositions can be used for a variety of applications using electroactive materials. | 02-18-2010 |
| 20100099815 | COUPLED CHARGE TRANSFER NANOTUBE DOPANTS - Stable charge-transfer doping of carbon nanotubes is achieved using a dopant containing polymer (DCP) wherein the DCP has a multiplicity of dopant moieties that are capable of donating electrons to or accepting electrons from the nanotubes linked to a polymer. The DCP has a sufficient number of dopant moieties connected to the polymer such that when charge transfer equilibrium between a particular dopant moiety and the nanotubes is in a dissociated, or dedoped state, the dopant moiety remains tethered by a linking moiety to the polymer and remains in the vicinity of the nanotubes as the polymer remains bound to the tube by at least one bound dopant of the DCP. The linking groups are selected to permit the presentation of the dopant moieties to the nanotubes in a manner that is unencumbered by the polymer backbone and can undergo charge transfer doping. | 04-22-2010 |
| 20100207074 | HIGHLY ACCESSIBLE, NANOTUBE ELECTRODES FOR LARGE SURFACE AREA CONTACT APPLICATIONS - An highly porous electrically conducting film that includes a plurality of carbon nanotubes, nanowires or a combination of both. The highly porous electrically conducting film exhibits an electrical resistivity of less than 0.1 Ω·cm at 25 C and a density of between 0.05 and 0.70 g/cm | 08-19-2010 |
| 20100265562 | DUAL ACTIVE FILM ELECTROCHROMIC DISPLAY DEVICE - A dual active electrochromic device is a combination of at least two working electrodes that contain electrochromic materials and at least one counter electrode where the potentials between each working electrode and a counter electrode are independently supplied. No more than one electrode is reflective. The color of the device results from the additive color of the electrochromic materials and varies according to the potentials applied independently. The electrochromic materials can be electrochromic polymers that are deposited as film on substrates to form the working electrodes. The electrochromic device can be used for display or window applications. | 10-21-2010 |
| 20100298527 | GREEN TO TRANSMISSIVE SOLUBLE ELECTROCHROMIC POLYMERS - Green to transmissive soluble electrochromic polymers are conjugated polymers having a plurality of repeating units where repeating units are a plurality of substituted dioxyheterocycle based donor groups coupled to an acceptor group. The conjugated polymer absorbs radiation within a first band of the visible spectrum and a second band of the visible spectrum when in a neutral state resulting in a green color and is transmissive when in an oxidized state. The polymers are soluble allowing processing of films and coatings from solution. | 11-25-2010 |
| 20110003967 | SOLUBLE ALTERNATING DONOR-ACCEPTOR CONJUGATED POLYMER ELECTROCHROMES - Embodiments of the invention are directed to alternating donor-acceptor (DA) polymers that are soluble and display a blue or green neutral state that oxidizes to a transmissive state for use as an electrochromic polymer. The D units have 3,4-dioxythiophene, 3,6-dialkoxythieno[3,2-b]thiophene or 3,5-dialkoxy-dithieno[3,2-b:2′,3′-d]thiophene groups. Embodiments of the invention are directed to a method for preparation of the alternating DA polymeric sequences of the DA polymers by a cross-condensation of a nucleophilic acceptor monomer and an electrophilic donor monomer. | 01-06-2011 |
| 20110023934 | SOLARTURF: SOLAR ENERGY HARVESTING ARTIFICIAL TURF - A SolarTurf unit has a plurality of solar blades, each blade comprising a donor-acceptor conjugated polymer (DA-CP) disposed between and electrically contacting a working electrode and a counter electrode where at least one of electrodes is transparent and where the plurality of solar blades have like or different DA-CPs having like color or different colors, for example, green. The SolarTurf unit includes an interconnect strip having a first electrically conductive surface and a second electrically conductive surface separated by an insulator. The working electrodes are electrically connected to the first electrically conductive surface and the counter electrodes are electrically connected to the second electrically conductive surface. The SolarTurf units can be combined into a device for harvesting light energy to provide an electric output. The SolarTurf device can have the appearance of a lawn or other plant, fungi, rock, sand or animal. | 02-03-2011 |
| 20110046330 | BLACK SOLUBLE CONJUGATED POLYMERS WITH HIGHLY TRANSMISSIVE OXIDIZED STATE - A soluble donor-acceptor electrochromic polymer (DA-ECP) is prepared that absorbs light throughout at least the majority of the visible range and is essentially black to the human eye when in the neutral state, but is highly transmissive when electrochemically doped. The conjugated polymer has acceptor units separated by sequences of a plurality of donor units. The sequences can be monodispersed or polydispersed. The DA-ECP is prepared by the polycondensation of a plurality of at least one donor-acceptor oligomer (DA-oligomer) that has at least one internal acceptor repeating unit and at least one donor repeating unit on all termini of the oligomer, and optionally, a plurality of at least one donor monomer and/or donor oligomer. | 02-24-2011 |
| 20110062860 | INTERDIGITATED ELECTRODE DUAL ELECTROEMISSIVE/ELECTROCHROMIC DEVICES - A dual electrochromic/electroluminescent (EC/EL) device of at least one pixel includes an interdigitated electrode where an electroactive layer is dispersed on and between the digits of the two electrodes of the interdigitated electrode. The electroactive layer is in contact with an electrolyte layer that also contacts a third electrode. The device acts as an electroluminescence device when an electrical bias between the two electrodes of the interdigitated electrode is established. The device acts as an electrochromic device when the electrical bias is established between the combined electrodes of the interdigitated electrode and the third electrode. | 03-17-2011 |
