Abstract: Vacuum-integrated photoresist-less methods and apparatuses for forming metal hardmasks can provide sub-30 nm patterning resolution. A metal-containing (e.g., metal salt or organometallic compound) film that is sensitive to a patterning agent is deposited on a semiconductor substrate. The metal-containing film is then patterned directly (i.e., without the use of a photoresist) by exposure to the patterning agent in a vacuum ambient to form the metal mask. For example, the metal-containing film is photosensitive and the patterning is conducted using sub-30 nm wavelength optical lithography, such as EUV lithography.

Abstract: The present disclosure relates to novel memristive devices, uses thereof, and processes for their preparation. In a first aspect, the disclosure provides a quantum memristor, including a first quantum dot (QD1) which is capacitively coupled to a second quantum dot (QD2), a source electrode, a drain electrode, and a bath electrode, wherein the source electrode and the drain electrode are coupled via quantum tunneling to QD1 and the bath electrode is coupled via quantum tunneling to QD2, and wherein QD2 is capacitively coupled to either the source electrode or the drain electrode.

Abstract: An apparatus for depositing film stacks in-situ (i.e., without a vacuum break or air exposure) are described. In one example, a plasma-enhanced chemical vapor deposition apparatus configured to deposit a plurality of film layers on a substrate without exposing the substrate to a vacuum break between film deposition phases, is provided. The apparatus includes a process chamber, a plasma source and a controller configured to control the plasma source to generate reactant radicals using a particular reactant gas mixture during the particular deposition phase, and sustain the plasma during a transition from the particular reactant gas mixture supplied during the particular deposition phase to a different reactant gas mixture supplied during a different deposition phase.

Abstract: In various embodiments, a method, apparatus, and computer program product are provided involving, at a first device: opening the application on the first device, performing an action utilizing an application, updating a state of the application, for being communicated with the second device; and, at a second device: utilizing the updated state of the application received from the first device, displaying an interface including: a button for opening the application utilizing the second device, and indicia that indicates that the first device has updated at least one aspect of the application, and in response to a detection of the selection of the button, accessing the application utilizing the second device such that the application is accessed so as to reflect the updated state of the application.

Abstract: A system, method, and computer program product are provided to: display, utilizing the touchscreen, a grid of a plurality of photos; receive, utilizing the touchscreen, an indication of a touch input for selection of a first photo of a subset of the plurality of photos in the grid; in response to the receipt of the indication of the touch input for selection of the first photo of the subset of the plurality of photos in the grid, cause selection of the first photo of the subset of the plurality of photos in the grid, utilizing the one or more processors; receive, utilizing the touchscreen, an indication of a continuation of the touch input for selection of a second photo of the subset of the plurality of photos in the grid; in response to the receipt of the indication of the continuation of the touch input for selection of the second photo of the subset of the plurality of photos in the grid, cause selection of the second photo of the subset of the plurality of photos in the grid, utilizing the one or more pr

Abstract: A white light interferometric metrology device operates in the image plane and objective pupil plane. The interferometric metrology device extracts the electric field with complex parameters and that is a function of azimuth angle, angle of incidence and wavelength from interferometric data obtained from the pupil plane. Characteristics of the sample are determined using the electric field based on an electric field model of the azimuth angle, the angle of incidence and the wavelength that is specific for a zero diffraction order. A center of the pupil in the pupil plane may be determined based on a Fourier transform of the interferometric data at each new measurement and used to convert each pixel from the camera imaging the objective pupil plane into a unique set of angle of incidence and azimuth angle of light incident on the sample.

Abstract: In various embodiments, different mobile phone apparatuses are provided, comprising: a touchscreen including a backlight; a near field communication interface; at least one non-transitory memory storing instructions; and one or more processors in communication with the touchscreen, the near field communication interface, and the at least one non-transitory memory, wherein the one or more processors execute the instructions to initiate various capabilities and/or functionalities in connection with a lock screen displayed on the touchscreen.

Abstract: The present invention relates to compounds which bind to Beta Trans-ducin repeat-containing protein (?TrCP), and modulate the activity of ?TrCP. In particular, the invention relates to compounds which demonstrate optimised binding to PTrCP. The invention also relates to pharmaceutical compositions comprising such compounds and the use of such compounds as medicaments, specifically for the treatment of disorders associated with aberrant protein degradation, such as cancer. The preferred binding inhibitors are peptides derived from the motive DSGXXS, e.g. DEGFWE, DDGFWD and Succinyl-EGFWE.

Abstract: In various embodiments, different mobile phone apparatuses are provided, comprising: a touchscreen a near field communication interface; at least one non-transitory memory storing instructions; and one or more processors in communication with the touchscreen, the near field communication interface, and the at least one non-transitory memory, wherein the one or more processors execute the instructions to initiate various capabilities and/or functionalities in connection with a lock screen displayed on the touchscreen.

Abstract: In various embodiments, different mobile phones are provided, comprising: a touchscreen including a backlight; a near field communication interface; at least one non-transitory memory storing instructions; and one or more processors in communication with the touchscreen, the near field communication interface, and the at least one non-transitory memory, wherein the one or more processors execute the instructions to initiate various capabilities and/or functionalities in connection with a lock screen displayed on the touchscreen.

Abstract: Vacuum-integrated photoresist-less methods and apparatuses for forming metal hardmasks can provide sub-30 nm patterning resolution. A metal-containing (e.g., metal salt or organometallic compound) film that is sensitive to a patterning agent is deposited on a semiconductor substrate. The metal-containing film is then patterned directly (i.e., without the use of a photoresist) by exposure to the patterning agent in a vacuum ambient to form the metal mask. For example, the metal-containing film is photosensitive and the patterning is conducted using sub-30 nm wavelength optical lithography, such as EUV lithography.

Abstract: The present invention provides algorithm-based molecular assays that involve measurement of expression levels of genes from a biological sample obtained from a kidney cancer patient. The present invention also provides methods of obtaining a quantitative score for a patient with kidney cancer based on measurement of expression levels of genes from a biological sample obtained from a kidney cancer patient. The genes may be grouped into functional gene subsets for calculating the quantitative score and the gene subsets may be weighted according to their contribution to cancer recurrence.

Abstract: Apparatuses and methods for cleaning a semiconductor processing chamber is provided. The semiconductor processing chamber may include a UV radiation source, a substrate holder, and a UV transmissive window. The UV transmissive window may include one or multiple panes. One or more panes of the UV transmissive window may be non-reactive with fluorine containing chemistries. In multi-pane windows a purge gas flow path may be formed in the gap between windows. A purge gas may be flowed through the purge gas flow path to prevent process gases used in the chamber interior from reaching one or more panes of the UV transmissive window.

Abstract: Various embodiments of the invention include turbine nozzles and systems employing such nozzles. Various particular embodiments include a turbine nozzle having: an airfoil having: a suction side; a pressure side opposing the suction side; a leading edge spanning between the pressure side and the suction side; and a trailing edge opposing the leading edge and spanning between the pressure side and the suction side; and at least one endwall connected with the airfoil along the suction side, pressure side, trailing edge and the leading edge, the at least one endwall including a non-axisymmetric contour proximate a junction between the endwall and the leading edge of the airfoil.

Abstract: An apparatus for depositing film stacks in-situ (i.e., without a vacuum break or air exposure) are described. In one example, a plasma-enhanced chemical vapor deposition apparatus configured to deposit a plurality of film layers on a substrate without exposing the substrate to a vacuum break between film deposition phases, is provided. The apparatus includes a process chamber, a plasma source and a controller configured to control the plasma source to generate reactant radicals using a particular reactant gas mixture during the particular deposition phase, and sustain the plasma during a transition from the particular reactant gas mixture supplied during the particular deposition phase to a different reactant gas mixture supplied during a different deposition phase.

Abstract: The present disclosure relates to novel memristive devices, uses thereof, and processes for their preparation. In a first aspect, the disclosure provides a quantum memristor, including a first quantum dot (QD1) which is capacitively coupled to a second quantum dot (QD2), a source electrode, a drain electrode, and a bath electrode, wherein the source electrode and the drain electrode are coupled via quantum tunnelling to QD1 and the bath electrode is coupled via quantum tunnelling to QD2, and wherein QD2 is capacitively coupled to either the source electrode or the drain electrode.

Abstract: Battery grid (1) comprising a grid structure (4) containing grid arms (2, 2?) and bordering arms (3), a supporting element (5) and lugs (6), as well as lead paste (7) spread on the surface of the supporting element (5).The invention also relates to a battery cell (35) comprising the battery grids (1) with separator plates (38) placed between them. The invention further relates to a storage battery (42) comprising battery cells (35) filled with acid. The supporting element (5) comprises fiberglass based material onto which the grid structure (4) is secured through chemical bond formed between the lead and the fiberglass. The lead paste (7) is secured to the supporting element (5) through chemical bond and the grid structure (4) has more than one lug (6). The battery cell (35) is composed of the battery grids (1). The lugs (41, 42) are connected to a jointing element (8). The storage battery (42) comprises the battery cells (35).

Abstract: The present invention provides algorithm-based molecular assays that involve measurement of expression levels of genes from a biological sample obtained from a kidney cancer patient. The present invention also provides methods of obtaining a quantitative score for a patient with kidney cancer based on measurement of expression levels of genes from a biological sample obtained from a kidney cancer patient. The genes may be grouped into functional gene subsets for calculating the quantitative score and the gene subsets may be weighted according to their contribution to cancer recurrence.

Abstract: Embodiments of the invention provide an architecture, system and methods for optimizing power utilization for transdermal iontophoretic drug delivery which maintain a iontophoretic driving voltage at a reduced or even minimum value to support an iontophoretic delivery current. The reduced voltage reduces the power requirements for a transdermal iontophoretic delivery system during a period of drug delivery. Embodiments of an architecture for implementing this approach can utilize a controller which compares the desired current to the actual current and adjusts the voltage to reduce the amount of power used for iontophoretic drug delivery. The controller can comprise a state machine or microprocessor. Embodiments of the invention are particularly useful for extending the battery life of transdermal iontophoretic drug delivery systems.

Abstract: A method of creating a cooling arrangement for a turbine component, and a cooling arrangement are provided. The turbine component includes an interior cooling passage formed therein. The method comprises a step of forming a slot through a sidewall of the turbine component. The method further comprises a step of forming an insert having one or more cooling features and a cavity. The method further comprises a step of positioning the insert within the slot. The method further comprises a step of securing the insert within the slot. The method further comprises a step of forming at least one passage in fluid communication with the internal cooling passage, the insert, and an exterior surface of the turbine component.