Patent application number | Description | Published |
20140166107 | Back-Contact Electron Reflectors Enhancing Thin Film Solar Cell Efficiency - Methods for improving the efficiency of solar cells are disclosed. A solar cell consistent with the present disclosure includes a back contact metal layer disposed on a substrate. The solar cell also includes an electron reflector material(s) layer formed on the back contact metal layer and an absorber material(s) layer disposed on the electron reflector material(s) layer. In addition, the solar cell includes a buffer material(s) layer formed on the absorber material(s) layer wherein the electron reflector material(s) layer, absorber material(s) layer, and buffer material(s) layer form a pn junction within the solar cell. Furthermore, a TCO material(s) layer is formed on the buffer material(s) layer. In addition, the front contact layer is formed on the TCO material(s) layer. | 06-19-2014 |
20140166958 | Controlling ReRam Forming Voltage with Doping - An internal electrical field in a resistive memory element can be formed to reduce the forming voltage. The internal electric field can be formed by incorporating one or more charged layers within the switching dielectric layer of the resistive memory element. The charged layers can include adjacent charge layers to form dipole layers. The charged layers can be formed at or near the interface of the switching dielectric layer with an electrode layer. Further, the charged layer can be oriented with lower valence substitution side towards lower work function electrode, and higher valence substitution side towards higher work function electrode. | 06-19-2014 |
20140167221 | METHODS TO IMPROVE LEAKAGE OF HIGH K MATERIALS - A method for reducing the leakage current in DRAM Metal-Insulator-Metal capacitors includes forming a capacitor stack including an oxygen donor layer inserted between the dielectric layer and at least one of the two electrode layers. In some embodiments, the dielectric layer may be doped with an oxygen donor dopant. The oxygen donor materials provide oxygen to the dielectric layer and reduce the concentration of oxygen vacancies, thus reducing the leakage current. | 06-19-2014 |
20140170833 | Methods to Improve Leakage of High K Materials - A method for reducing the leakage current in DRAM Metal-Insulator-Metal capacitors includes forming a capacitor stack including an oxygen donor dopant incorporated within the dielectric layer. The oxygen donor dopants may be incorporated within the dielectric layer during the formation of the dielectric layer. The oxygen donor materials provide oxygen to the dielectric layer and reduce the concentration of oxygen vacancies, thus reducing the leakage current. | 06-19-2014 |
20140175422 | Deposition of Rutile Films with Very High Dielectric Constant - Anisotropic materials, such as rutile TiO | 06-26-2014 |
20140175567 | Method of Depositing Films with Narrow-Band Conductive Properties - Conducting materials having narrow impurity conduction bands can reduce the number of high energy excitations, and can be prepared by a sequence of plasma treatments. For example, a dielectric layer can be exposed to a first plasma ambient to form vacancy sites, and the vacancy-formed dielectric layer can be subsequently exposed to a second plasma ambient to fill the vacancy sites with substitutional impurities. | 06-26-2014 |
20140175604 | Two Step Deposition of Molybdenum Dioxide Electrode for High Quality Dielectric Stacks - Electrodes, which contain molybdenum dioxide (MoO | 06-26-2014 |
20140183432 | MoOx-Based Resistance Switching Materials - Molybdenum oxide can be used to form switching elements in a resistive memory device. The atomic ratio of oxygen to molybdenum can be between 2 and 3. The molybdenum oxide exists in various Magneli phases, such as Mo | 07-03-2014 |
20140183664 | Fullerene-Based Capacitor Electrode - A doped fullerene-based conductive material can be used as an electrode, which can contact a dielectric such as a high k dielectric. By aligning the dielectric with the band gap of the doped fullerene-based electrode, e.g., the conduction band minimum of the dielectric falls into one of the band gaps of the doped fullerene-based material, thermionic leakage through the dielectric can be reduced, since the excited electrons or holes in the electrode would need higher thermal excitation energy to overcome the band gap before passing through the dielectric layer. | 07-03-2014 |
20140185357 | Barrier Design for Steering Elements - Steering elements suitable for memory device applications can have low leakage currents at low voltages to reduce sneak current paths for non selected devices, and high leakage currents at high voltages to minimize voltage drops during device switching. In some embodiments, the steering element can include a first electrode, a second electrode, and a graded dielectric layer sandwiched between the two electrodes. The graded dielectric layer can include a varied composition from the first electrode to the second electrode. Graded energy level at the top and/or at the bottom of the band gap, which can be a result of the graded dielectric layer composition, and/or the work function of the electrodes can be configured to suppress tunneling and thermionic current in an off-state of the steering element and/or to maximize a ratio of the tunneling and thermionic currents in an on-state and in an off-state of the steering element. | 07-03-2014 |
20140191365 | DEVICE DESIGN FOR PARTIALLY ORIENTED RUTILE DIELECTRICS - Methods include forming a dielectric layer from a first material above a substrate. The dielectric layer is formed such that a preferred crystal direction for at least one electrical property of the first material is parallel to a surface of the dielectric layer. Next, forming a first and second trench within the dielectric layer wherein the first and second trenches have at least one curved portion. Forming a second material within the first trench and a third material within the second trench wherein the first material is different from the second and third materials. The first and second trenches are separated by a distance between 3-20 nm. | 07-10-2014 |
20140264224 | Performance Enhancement of Forming-Free ReRAM Devices Using 3D Nanoparticles - Resistive random access memory (ReRAM) cells can include an embedded metal nanoparticle switching layer and electrodes. The metal nanoparticles can be formed using a micelle solution. The generation of the nanoparticles can be controlled in multiple dimensions to achieve desirable performance characteristics, such as low power consumption as well as low and consistent switching currents. | 09-18-2014 |
20140264507 | Fluorine Passivation in CMOS Image Sensors - CMOS imaging sensors having fluorine-passivated structures to reduce dark current are disclosed together with methods of making thereof. The CIS comprises an array of pixels on a substrate, each pixel comprising a pinned photodiode, an isolation trench adjacent to the pinned photodiode, and a plurality of transistors. Methods of preparing a CIS comprise providing a source of fluorine (F) atoms, and annealing in the presence of the source of F atoms. After the annealing, at least one silicon-containing surface or region in the CIS comprises Si—F bonds and is fluorine passivated. | 09-18-2014 |
20140264747 | Deposition of Anisotropic Dielectric Layers Orientationally Matched to the Physically Separated Substrate - A dielectric layer can achieve a crystallography orientation similar to a base dielectric layer with a conductive layer disposed between the two dielectric layers. By providing a conductive layer having similar crystal structure and lattice parameters with the base dielectric layer, the crystallography orientation can be carried from the base dielectric layer, across the conductive layer to affect the dielectric layer. The process can be used to form capacitor structure for anisotropic dielectric materials, along the direction of high dielectric constant. | 09-18-2014 |
20140273427 | Electrode for Low-Leakage Devices - A YBCO-based conductive material can be used as an electrode, which can contact a dielectric such as a high k dielectric. Alternatively, a material with a narrow conduction band can be used as an electrode, which can contact a dielectric such as a high k dielectric. By aligning the dielectric with the band gap of the YBCO-based electrode or with the band gap of the narrow-band conductive material electrode, e.g., the conduction band minimum of the dielectric falls into one of the band gaps of the YBCO-based or narrow-band conductive material, thermionic leakage through the dielectric can be reduced, since the excited electrons or holes in the electrode would need higher thermal excitation energy to overcome the band gap before passing through the dielectric layer. | 09-18-2014 |
20150016178 | All around electrode for novel 3D RRAM applications - A resistive switching memory device can include three or more electrodes interfacing a switching layer, including a top electrode, a bottom electrode, and a side electrode. The top and bottom electrodes can be used for forming conductive filaments and for reading the memory device. The side electrode can be used to control the resistance state of the switching layer. | 01-15-2015 |
20150064873 | Controlling ReRam Forming Voltage with Doping - An internal electrical field in a resistive memory element can be formed to reduce the forming voltage. The internal electric field can be formed by incorporating one or more charged layers within the switching dielectric layer of the resistive memory element. The charged layers can include adjacent charge layers to form dipole layers. The charged layers can be formed at or near the interface of the switching dielectric layer with an electrode layer. Further, the charged layer can be oriented with lower valence substitution side towards lower work function electrode, and higher valence substitution side towards higher work function electrode. | 03-05-2015 |