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The method of claim 1 , wherein the granular absorbent material is a ceramic mineral or zeolite.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 2)

test

The method of claim 1 , wherein the cleaning composition comprises 25-30% (w/w) of the granular absorbent material, 0.5 to 3.5 wt % of the biocide, 0.1 to 10 wt % of the sanitation agent, and 0.1 to 5 wt % of the modifying agent, and

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 3)

test

The method of claim 1 , wherein the cleaning composition is formulated to be capable of absorbing liquid at a liquid loading of 25-30% by volume or 200-300% by mass addition.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 4)

test

A method of formulating a cleaning composition, comprising the steps of:\n (a) grinding an absorbent material to produce a granular absorbent material, wherein the granular absorbent material comprises ceramic minerals or zeolite; (b) coating the granular absorbent material with a biocide to produce a coated absorbent material, wherein the coating agent forms a surface bonded film on the granular absorbent material; and (c) mixing the coated absorbent material with a sanitation agent so that the coated absorbent material absorbs the sanitation agent to form the cleaning composition.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

open

(16135568, 5)

test

A method of formulating a cleaning composition, comprising the steps of:\n (a) grinding an absorbent material to produce a granular absorbent material; (b) coating the granular absorbent material with a biocide to produce a coated absorbent material; (c) mixing the coated absorbent material with a sanitation agent so that the coated absorbent material absorbs the sanitation agent to form the cleaning composition; and (d) adding to the cleaning composition a modifying agent selected from the group consisting of a tackifier, a thickening agent, a gum, an absorbent polymer, a carboxymethyl cellulose (CMC)-derived polymer, a hierarchically porous carbons (HPC)-derived polymer, or combinations thereof.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

open

(16135568, 6)

test

The method of claim 6 , wherein the biocide is selected from the group consisting of silanes, siloxanes, aminopropyltrimethoxysilane, quaternary amines, fumed metal hydroxides, solutions of silver, solutions of copper and combinations thereof.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

closed

(16135568, 7)

test

The method of claim 6 , wherein the modifying agent comprises a carboxymethyl cellulose (CMC)-derived polymer and/or a hierarchically porous carbons (HPC)-derived polymer.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 22)

test

The method of claim 6 , wherein the modifying agent is a tackifier.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 23)

test

The method of claim 6 , wherein the modifying agent constitutes 0.1 to 5% (w/w) of the final product.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 24)

test

The method of claim 6 , wherein the cleaning composition is formulated to absorb liquid at a liquid loading of 25-30% by volume or 200-300% by mass addition.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 25)

test

The loudspeaker arrangement of claim 3 , wherein at least some of the multiplicity of array loudspeakers are midrange or broadband loudspeakers.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 7)

test

The loudspeaker arrangement of claim 5 , wherein each of the four array loudspeakers close to the plane surface has a main direction that points to a corresponding seat within the vehicle interior.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 6)

test

The loudspeaker arrangement of claim 4 , wherein the multiplicity of array loudspeakers comprise five array loudspeakers, four of which are arranged close to the plane surface and one of which is arranged most distant to the plane surface.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 5)

test

The loudspeaker arrangement of claim 3 , wherein one part of the rigid hemisphere has a dome-shaped surface and another part has a plane surface, and the multiplicity of array loudspeakers is mounted in the dome-shaped surface.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 4)

test

The loudspeaker arrangement of claim 1 , further comprising a multiplicity of array loudspeakers, wherein:\n the multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that is disposed in the vehicle interior and encloses an acoustic volume; and the array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

open

(16133849, 3)

test

The loudspeaker arrangement of claim 1 , wherein at least one of the first additional loudspeakers is disposed in a door in the vehicle interior.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 2)

test

A loudspeaker arrangement comprising a vehicle interior and a multiplicity of loudspeakers disposed in the vehicle interior, wherein:\n the multiplicity of loudspeakers is distributed throughout the vehicle interior in at least one of a dashboard, rear shelf, door, and pillar in the vehicle interior; a distance between a floor and a ceiling of the vehicle interior comprises three equal sections, in which a first section close to the floor comprises lower level positions, a second section close to the ceiling comprises higher level positions and a third section between the first and second sections comprises medium level positions; the loudspeaker arrangement further comprises a multiplicity of first additional loudspeakers, the first additional loudspeakers are midrange or broadband loudspeakers; and the first additional loudspeakers are disposed at lower or medium level positions and in or on side portions of the vehicle interior at positions lateral to one or more passenger positions.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

open

(16133849, 1)

test

A method of obtaining improvement in neurologic function as assessed by observing a statistically significant improvement in at least one ranking level in a patient using the BRIEF test, comprising:\n administering a BRIEF test to a patient and obtaining a set of BRIEF scores; treating the patient with fenfluramine, or a pharmaceutically acceptable salt thereof over a period of days; and continuing treatment with the fenfluramine, or the pharmaceutically acceptable salt thereof, until a re-administration of the BRIEF test to the patient shows improvement in the patient's neurological function.

Utility

["514", "654000"]

2018-09

2019-03

Disclosed herein are methods of improving cognitive function in a patient as measured by, for example, improvement in score on a validated scale that measures cognitive function, such as the Behavior Rating Inventory of Executive Function (BRIEF), by administering the test to a patient and obtaining a pre-treatment test score, treating the patient with fenfluramine or its pharmaceutically acceptable salt, and after treatment, re-administering the test of cognitive function to the patient and obtaining a post-treatment score, to allow observation of an improvement in the test score. In some embodiments, the patient is also being treated for the symptoms of epilepsy.

['15429646', '13887014', '14447253', '16140120', '15003161']

open

(16140312, 1)

test

The method of claim 1 , wherein the patient has been diagnosed with a disease or condition selected from an epilepsy or epileptic encephalopathy (e.g., Dravet syndrome, Doose syndrome, infantile spasms, Lennox-Gastaut syndrome); attentional disorders (e.g., attention deficit disorder (ADD) or attention deficit/hyperactivity disorder (ADHD)); developmental disorders, such as autism spectrum disorders (ASDs), including autism, Asperger syndrome, pervasive developmental disorder (PDD) and pervasive developmental disorder not otherwise specified (PDD-NOS); oppositional defiant disorder (ODD); learning disabilities (e.g. dyslexia, dyscalculia); Tourette syndrome; traumatic brain injury; lead exposure; anxiety and/or depression; and low birth weight, or any combination thereof.

Utility

["514", "654000"]

2018-09

2019-03

Disclosed herein are methods of improving cognitive function in a patient as measured by, for example, improvement in score on a validated scale that measures cognitive function, such as the Behavior Rating Inventory of Executive Function (BRIEF), by administering the test to a patient and obtaining a pre-treatment test score, treating the patient with fenfluramine or its pharmaceutically acceptable salt, and after treatment, re-administering the test of cognitive function to the patient and obtaining a post-treatment score, to allow observation of an improvement in the test score. In some embodiments, the patient is also being treated for the symptoms of epilepsy.

['15429646', '13887014', '14447253', '16140120', '15003161']

none

(16140312, 2)

test

The method of claim 1 , wherein the patient has been diagnosed with Dravet syndrome.

Utility

["514", "654000"]

2018-09

2019-03

Disclosed herein are methods of improving cognitive function in a patient as measured by, for example, improvement in score on a validated scale that measures cognitive function, such as the Behavior Rating Inventory of Executive Function (BRIEF), by administering the test to a patient and obtaining a pre-treatment test score, treating the patient with fenfluramine or its pharmaceutically acceptable salt, and after treatment, re-administering the test of cognitive function to the patient and obtaining a post-treatment score, to allow observation of an improvement in the test score. In some embodiments, the patient is also being treated for the symptoms of epilepsy.

['15429646', '13887014', '14447253', '16140120', '15003161']

none

(16140312, 3)

test

The method of claim 17 , further comprising:\n removing remaining materials above the memorization layer after completing etch transfers based on etching through the mandrels, the fill structures, and the sidewall spacers, the memorization layer being a relief pattern having an array of parallel line segments; and transferring the relief pattern having the array of parallel line segments into an underlying layer such that an array of fins is created in the underlying layer.

Utility

["438", "702000"]

2018-09

2019-01

Techniques disclosed herein, provide a method and fabrication structure for accurately increasing feature density for creating high-resolution features and also for cutting on pitch of sub-resolution features. Techniques include using multiple materials having different etch characteristics to selectively etch features and create cuts or blocks where specified. A multiline layer is formed of three or more different materials that provide differing etch characteristics. Etch masks, including interwoven etch masks, are used to selectively etch cuts within selected, exposed materials. Structures can then be cut and formed. Forming structures and cuts can be recorded in a memorization layer, which can also be used as an etch mask.

['15416916', '15270841', '15271876', '15488117', '15581708']

open

(16137111, 18)

test

A method for patterning a substrate, the method comprising:\n forming a multi-line layer above a memorization layer on a substrate, the multi-line layer including a region having a pattern of alternating lines of materials that differ chemically from each other by having different etch resistivities relative to each other, alternating lines includes mandrels, sidewall spacers, and fill structures, the pattern of alternating lines includes alternating lines of the mandrels and lines of the fill structures with the sidewall spacers positioned between lines of the mandrels and lines of the fill structures; forming a first etch mask above the multi-line layer; etching through uncovered portions of mandrels and portions of the memorization layer directly underneath the uncovered portions of mandrels using the first etch mask; forming a second etch mask above the multi-line layer; etching through uncovered portions of the fill structures and portions of the memorization layer directly underneath the uncovered portions of the fill structures using the second etch mask; and etching through the sidewall spacers and portions of the memorization layer directly underneath the sidewall spacers with the multi-line layer uncovered.

Utility

["438", "702000"]

2018-09

2019-01

Techniques disclosed herein, provide a method and fabrication structure for accurately increasing feature density for creating high-resolution features and also for cutting on pitch of sub-resolution features. Techniques include using multiple materials having different etch characteristics to selectively etch features and create cuts or blocks where specified. A multiline layer is formed of three or more different materials that provide differing etch characteristics. Etch masks, including interwoven etch masks, are used to selectively etch cuts within selected, exposed materials. Structures can then be cut and formed. Forming structures and cuts can be recorded in a memorization layer, which can also be used as an etch mask.

['15416916', '15270841', '15271876', '15488117', '15581708']

open

(16137111, 17)

test

The method of claim 15 , wherein a first pitch between lines of material B is less than 40 nanometers, and wherein a second pitch between the mandrels and the fill structures is less than 40 nanometers.

Utility

["438", "702000"]

2018-09

2019-01

Techniques disclosed herein, provide a method and fabrication structure for accurately increasing feature density for creating high-resolution features and also for cutting on pitch of sub-resolution features. Techniques include using multiple materials having different etch characteristics to selectively etch features and create cuts or blocks where specified. A multiline layer is formed of three or more different materials that provide differing etch characteristics. Etch masks, including interwoven etch masks, are used to selectively etch cuts within selected, exposed materials. Structures can then be cut and formed. Forming structures and cuts can be recorded in a memorization layer, which can also be used as an etch mask.

['15416916', '15270841', '15271876', '15488117', '15581708']

none

(16137111, 16)

test

The method of claim 1 , wherein forming the multi-line layer above the memorization layer includes:\n forming mandrels using material A; forming sidewall spacers on sidewalls of mandrels using material B; and forming fill structures using material C, the fill structures filling trenches between adjacent spacers.

Utility

["438", "702000"]

2018-09

2019-01

Techniques disclosed herein, provide a method and fabrication structure for accurately increasing feature density for creating high-resolution features and also for cutting on pitch of sub-resolution features. Techniques include using multiple materials having different etch characteristics to selectively etch features and create cuts or blocks where specified. A multiline layer is formed of three or more different materials that provide differing etch characteristics. Etch masks, including interwoven etch masks, are used to selectively etch cuts within selected, exposed materials. Structures can then be cut and formed. Forming structures and cuts can be recorded in a memorization layer, which can also be used as an etch mask.

['15416916', '15270841', '15271876', '15488117', '15581708']

none

(16137111, 15)

test

The method of claim 13 , wherein forming the second etch mask includes:\n filling the defined trenches between the adjacent sidewall spacers of the first etch mask; removing the upper material of the bilayer mandrels such that the lower material is uncovered; and removing the lower material of the bilayer mandrels.

Utility

["438", "702000"]

2018-09

2019-01

Techniques disclosed herein, provide a method and fabrication structure for accurately increasing feature density for creating high-resolution features and also for cutting on pitch of sub-resolution features. Techniques include using multiple materials having different etch characteristics to selectively etch features and create cuts or blocks where specified. A multiline layer is formed of three or more different materials that provide differing etch characteristics. Etch masks, including interwoven etch masks, are used to selectively etch cuts within selected, exposed materials. Structures can then be cut and formed. Forming structures and cuts can be recorded in a memorization layer, which can also be used as an etch mask.

['15416916', '15270841', '15271876', '15488117', '15581708']

none

(16137111, 14)

test

The method of claim 1 , wherein forming the first etch mask includes:\n forming bilayer mandrels that have an upper material and a lower material, the upper material having a different etch resistivity as compared to the lower material; forming sidewall spacers on the bilayer mandrels, an array of the bilayer mandrels and the sidewall spacers defining trenches between exposed sidewalls of adjacent sidewall spacers.

Utility

["438", "702000"]

2018-09

2019-01

Techniques disclosed herein, provide a method and fabrication structure for accurately increasing feature density for creating high-resolution features and also for cutting on pitch of sub-resolution features. Techniques include using multiple materials having different etch characteristics to selectively etch features and create cuts or blocks where specified. A multiline layer is formed of three or more different materials that provide differing etch characteristics. Etch masks, including interwoven etch masks, are used to selectively etch cuts within selected, exposed materials. Structures can then be cut and formed. Forming structures and cuts can be recorded in a memorization layer, which can also be used as an etch mask.

['15416916', '15270841', '15271876', '15488117', '15581708']

none

(16137111, 13)

test

The method of claim 11 , further comprising, prior to etching through material B and portions of the memorization layer directly underneath material B, filling openings in the memorization layer and in the multi-line layer.

Utility

["438", "702000"]

2018-09

2019-01

Techniques disclosed herein, provide a method and fabrication structure for accurately increasing feature density for creating high-resolution features and also for cutting on pitch of sub-resolution features. Techniques include using multiple materials having different etch characteristics to selectively etch features and create cuts or blocks where specified. A multiline layer is formed of three or more different materials that provide differing etch characteristics. Etch masks, including interwoven etch masks, are used to selectively etch cuts within selected, exposed materials. Structures can then be cut and formed. Forming structures and cuts can be recorded in a memorization layer, which can also be used as an etch mask.

['15416916', '15270841', '15271876', '15488117', '15581708']

open

(16137111, 12)

test

The loudspeaker arrangement of claim 1 , wherein:\n the loudspeaker arrangement further comprises a multiplicity of second additional loudspeakers; the second additional loudspeakers being midrange or broadband loudspeakers; and the second additional loudspeakers being disposed in medium or higher-level positions and in at least one of a side portion of the vehicle interior, a ceiling of the vehicle interior and headrests of seats in the vehicle interior.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 8)

test

The battery module according to claim 1 , wherein:\n the elastic body is disposed at one arrangement end and the other arrangement end of the array for the battery cells; and the plurality of harnesses are led from a middle portion of the array in the arranging direction toward the elastic body disposed at the one arrangement end and toward the elastic body disposed at the other arrangement end.

Utility

["429", "099000"]

2018-09

2019-03

Provided is a battery module, which includes an array for battery cells; an elastic body disposed with respect to the array, a restraining member that restrains the array via the elastic body in an arranging direction of the battery cells, a plurality of harnesses that extend in the arranging direction and have connecting terminals of tips thereof connected to electrode terminals of the predetermined battery cells, and a binding member that binds the plurality of harnesses into a harness bundle. A binding position of the harnesses which is caused by the binding member is located at a side opposite to the elastic body relative to a connecting position between the electrode terminal and the connecting terminal, and the harness that branches off from the binding member has a flexure between the binding position and the connecting position.

['15511539', '15525191', '15505843', '15506808', '15542842']

none

(16083154, 5)

test

The loudspeaker arrangement of claim 8 , further comprising a multiplicity of third additional loudspeakers, wherein:\n the third additional loudspeakers being midrange or broadband loudspeakers; and the third additional loudspeakers being disposed in at least one of the ceiling and a headliner of the vehicle interior.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

open

(16133849, 9)

test

The loudspeaker arrangement of claim 1 , further comprising a loudspeaker array disposed in or in a vicinity of a center of the vehicle interior.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

open

(16133849, 11)

test

A method of using a cleaning composition, comprising:\n applying an effective amount of the cleaning composition of claim 1 to a surface in need of cleaning so as to form a treated surface; and removing the cleaning composition.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

open

(16135568, 26)

test

The method of claim 26 , further comprising the step of washing the treated surface with a liquid or wiping the surface with a wiping material after the removal of the cleaning composition.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

open

(16135568, 27)

test

The method of claim 26 , wherein the cleaning composition is removed after treating the surface for a period of time between 30 seconds to 30 minutes.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 28)

test

The method of claim 26 , wherein the surface in need of cleaning is in a public area.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 29)

test

The method of claim 26 , the surface in need of cleaning comprises a biohazard spill.

Utility

["424", "417000"]

2018-09

2019-01

A method for formulating a cleaning composition contains the step of coating a granular absorbent material with a coating agent to produce a coated absorbent material and mixing the coated absorbent material with a sanitation agent, wherein the coated absorbent material absorbs the sanitation agent to form the cleaning composition. The resulting cleaning composition may be used for cleaning up pathogens or hazardous materials. The cleaning composition may also functions as a liquefiable dry cleaning powder for public areas in response to bodily fluid incidents. A coating method of a non-toxic bio static film on a high surface area solid is disclosed.

['15984910', '15696480', '11001335', '15108589', '11697086']

none

(16135568, 30)

test

The configurable light fixture of claim 1 , wherein the angled brace body is configured as a quadrant of the inside surface of a cylindrical tube.

Utility

["362", "011000"]

2018-09

2019-03

A configurable light fixture for photography is presented. The light fixture includes a rail with a clamp section and threaded section. A fixed jaw is removably coupled to an end of the rail in the clamp section. One or more optional sliding intermediate jaws may be slidably coupled to the rail in the clamp section below the fixed jaw to create more clamping surfaces when desired to hold more than one lighting tube. A sliding end jaw is slidably coupled to the rail in the clamp section below the sliding intermediate jaw. A wing nut is coupled to the threaded section of the rail for applying linear pressure on the sliding end jaw thereby secure a lighting tube on each of the clamping surfaces.

['11305432', '15953926', '15267505', '14626998', '13933835']

none

(16125599, 2)

test

A configurable light fixture comprising:\n a rail comprising a clamp section and threaded section; a fixed jaw removably coupled to an end of the rail in the clamp section, wherein the fixed jaw comprises a downward facing angled brace body on the front side; a sliding end jaw slidably coupled to the rail in the clamp section below the fixed jaw, wherein the sliding end jaw comprises an upward facing angled brace body on the front side, wherein the clamp section of the rail is configured to keep the sliding end jaw aligned with the fixed jaw; and a wing nut coupled to the threaded section of the rail, wherein the wing nut is configured to apply linear pressure on said sliding end jaw to secure a lighting tube.

Utility

["362", "011000"]

2018-09

2019-03

A configurable light fixture for photography is presented. The light fixture includes a rail with a clamp section and threaded section. A fixed jaw is removably coupled to an end of the rail in the clamp section. One or more optional sliding intermediate jaws may be slidably coupled to the rail in the clamp section below the fixed jaw to create more clamping surfaces when desired to hold more than one lighting tube. A sliding end jaw is slidably coupled to the rail in the clamp section below the sliding intermediate jaw. A wing nut is coupled to the threaded section of the rail for applying linear pressure on the sliding end jaw thereby secure a lighting tube on each of the clamping surfaces.

['11305432', '15953926', '15267505', '14626998', '13933835']

open

(16125599, 1)

test

A method of patterning a substrate, the method comprising:\n creating a fin array pattern in a memorization layer by: forming a first composite etch mask that includes a first etch mask positioned on a multi-line layer, and selectively etching through a first material of the multi-line layer and into a memorization layer underlying the multi-line layer using the first composite etch mask; subsequent to etching the first material, forming a second composite etch mask that includes a second etch mask positioned on the multi-line layer, and selectively etching through a second material of the multi-line layer and into the memorization layer using the second composite etch mask; and subsequent to etching the second material, selectively etching through a third material of the multi-line layer and into the memorization layer without the multi-line layer being covered.

Utility

["438", "702000"]

2018-09

2019-01

Techniques disclosed herein, provide a method and fabrication structure for accurately increasing feature density for creating high-resolution features and also for cutting on pitch of sub-resolution features. Techniques include using multiple materials having different etch characteristics to selectively etch features and create cuts or blocks where specified. A multiline layer is formed of three or more different materials that provide differing etch characteristics. Etch masks, including interwoven etch masks, are used to selectively etch cuts within selected, exposed materials. Structures can then be cut and formed. Forming structures and cuts can be recorded in a memorization layer, which can also be used as an etch mask.

['15416916', '15270841', '15271876', '15488117', '15581708']

open

(16137111, 19)

test

The vehicle of claim 13 , wherein the loudspeaker arrangement includes a loudspeaker array disposed in or in a vicinity of a center of the vehicle interior.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 20)

test

The vehicle of claim 13 , wherein:\n the loudspeaker arrangement further comprises at least one fourth additional loudspeaker; and the at least one fourth additional loudspeaker is a woofer or subwoofer.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 19)

test

The vehicle of claim 17 , wherein:\n the loudspeaker arrangement further comprises a multiplicity of third additional loudspeakers; the third additional loudspeakers are midrange or broadband loudspeakers; and the third additional loudspeakers are disposed in at least one of the ceiling and a headliner of the vehicle interior.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 18)

test

The vehicle of claim 13 , wherein:\n the loudspeaker arrangement further comprises a multiplicity of second additional loudspeakers; the second additional loudspeakers are midrange or broadband loudspeakers; and the second additional loudspeakers are disposed in medium or higher-level positions and in at least one of a side portion of the vehicle interior, a ceiling of the vehicle interior and headrests of seats in the vehicle interior.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 17)

test

The vehicle of claim 15 , wherein one part of the rigid hemisphere has a dome-shaped surface and another part has a plane surface, wherein the multiplicity of array loudspeakers is mounted in the dome-shaped surface.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 16)

test

The vehicle of claim 13 , wherein the loudspeaker arrangement further comprises a multiplicity of array loudspeakers, wherein the multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that is disposed in the vehicle interior and encloses an acoustic volume, and the array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 15)

test

The vehicle of claim 13 , wherein at least one of the first additional loudspeakers is disposed in a door of the vehicle.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']

none

(16133849, 14)

test

A vehicle comprising a vehicle interior and a loudspeaker arrangement disposed in the vehicle interior, the loudspeaker arrangement comprising a multiplicity of loudspeakers, wherein:\n the multiplicity of loudspeakers is distributed throughout the vehicle interior in at least one of a dashboard, rear shelf, door, and pillar in the vehicle interior; a distance between a floor and a ceiling of the vehicle interior comprises three equal sections, in which a first section close to the floor comprises lower level positions, a second section close to the ceiling comprises higher level positions and a third section between the first and second sections comprises medium level positions; the loudspeaker arrangement further comprises a multiplicity of first additional loudspeakers, the first additional loudspeakers are midrange or broadband loudspeakers; and the first additional loudspeakers are disposed at lower or medium level positions and in or on side portions of the vehicle interior at positions lateral to one or more passenger positions.

Utility

["381", "302000"]

2018-09

2019-01

Disclosed is a loudspeaker array with a multiplicity of array loudspeakers. The multiplicity of array loudspeakers is mounted in a surface of a rigid hemisphere that encloses an acoustic volume. The array loudspeakers are regularly or quasi-regularly distributed over the surface of the rigid hemisphere, and a loudspeaker arrangement includes such an array.

['15389566', '14679456', '11780468', '15366573', '11133846']