Abstract: A microchannel for processing cells by compression of the cells including an inlet, ridges and an outlet. Each ridge including a compressive surface and a cell adhesion entity. The outlet configured to remove at least one of a first portion of the cells and a second portion of the cells from the microchannel. Each ridge oriented at an angle of from 25 degrees to 70 degrees relative to a center axis of the microchannel. The cell adhesion entity configured such that the first portion of the cells has a first adhesion property relative to the cell adhesion entity to follow a first trajectory through the microchannel. The cell adhesion entity further configured such that the second portion of the cells has a second adhesion property relative to the cell adhesion entity to follow a second trajectory through the microchannel. The first trajectory is different from the second trajectory.

Abstract: An apparatus including a first member including a first electrode, a second member coupled to the first member about an axis, including a second electrode, and a surface layer between the first electrode and the second electrode, the second member is rotatable with respect to the axis by an energy flow to change triboelectric charges on the electrodes, and to affect a flow of electrons between the electrodes. A self-powered sensor for detecting a chemical including a generator having an electrode, and a superhydrophobic surface layer for receiving an energy flow carrying triboelectric charges, the surface layer includes a TiO2 layer with nanostructures, and a power indicator indicative of whether the chemical is present based on power output of the triboelectric generator, the energy flow is a solution flow, the solution comprising the chemical and water, and the chemical removes at least one triboelectric charge from the water.

Abstract: Example systems and methods for defending against powerful, automated attacks on facial authentication systems are disclosed. A first verification is performed based at least in part on determining a response time for a response to a CAPTCHA or other challenge. In response to determining that the response time is within a threshold, a second verification is performed based at least in part on extracting a face feature or a voice feature from a plurality of samples associated with the response.

Abstract: Disclosed herein are carbon molecular sieves and methods of making the same through the pyrolysis of a polymer precursor in the presence of a reactive gas stream including a hydrogen source.

Abstract: Apparatus, including an insertion tube, configured to be inserted into a body cavity and having a first lumen having a first lumen diameter and a distal opening, and a tubular channel, having a second lumen and an outer channel diameter smaller than the first lumen diameter, inserted into the first lumen. The apparatus includes a support structure, configured to be passed through a space between an inner wall of the insertion tube and an outer wall of the tubular channel to the distal opening in a folded state and to unfold, upon exit of the support structure through the distal opening, in a direction transverse to the first lumen to reach a support dimension that is greater than the first lumen diameter. A plurality of planar two-dimensional arrays of ultrasonic transducers are supported by the support structure, the arrays having transverse dimensions less than the first lumen diameter.

Abstract: Compositions and methods for inhibiting histone lysine demethylases are provided. Several new DFP-based KDM inhibitors which alter the velocity of HP1-mediated heterochromatin gene repression are provided.

Abstract: A method or apparatus for three-dimensionally printing. The method may comprise causing a phase change in a region of the first material by applying focused energy to the region using a focused energy source, and displacing the first material with a second material. The apparatus may comprise a container configured to hold a first material, a focused energy source configured to cause a phase change in a region of the first material by applying focused energy to the region, and an injector configured to displace the first material with a second material. The first material may comprise a yield stress material, which is a material exhibiting Herschel-Bulkley behavior. The yield stress material may comprise a soft granular gel. The second material may comprise one or more cells.

Abstract: Lithium-ion batteries are provided that variously comprise anode and cathode electrodes, an electrolyte, a separator, and, in some designs, a protective layer. In some designs, at least one of the electrodes may comprise a composite of (i) Li2S and (ii) conductive carbon that is embedded in the core of the composite. In some designs, the protective layer may be disposed on at least one of the electrodes via electrolyte decomposition. Various methods of fabrication for lithium-ion battery electrodes and particles are also provided.

Abstract: Disclosed herein are systems and methods for imaging cells. Quantitative phase imaging uses variations in the index of refraction of a sample as a source of endogenous contrast, providing label-free information of sub-cellular structures and allowing for the reconstruction of valuable biophysical parameters, such as cell dry-mass at femtogram scales, mass transport, and sample thickness and fluctuations at nanometer scales. As a result, QPI has become a valuable tool in biology and medicine. However, QPI has suffered from the need for trans-illumination through relatively thin objects in order to gain access to the forward-scattered field, which carries crucial low spatial frequency information of a sample and avoid contributions from multiple scattered light or out-of-focus planes. The disclosed methods and systems can provide for reconstruction of QPI and corresponding analysis for imaging samples of cells in thick samples using an epi-illumination configuration.

Abstract: Methods of designing zeolite materials for adsorption of CO2. Zeolite materials and processes for CO2 adsorption using zeolite materials.

Abstract: A vibration transducer for sensing vibrations includes a first flexible triboelectric member, a second flexible triboelectric member, a plurality of attachment points, a first electrode and a second electrode. The first flexible triboelectric member includes a first triboelectric layer and a material being on a first position on a triboelectric series. A conductive layer is deposited on the second side thereof. The second flexible triboelectric member includes a second triboelectric layer and a material being on a second position on the triboelectric series that is different from the first position on the triboelectric series. The second triboelectric member is adjacent to the first flexible triboelectric member. When the first triboelectric member comes into and out of contact with the second triboelectric member as a result of the vibrations, a triboelectric potential difference having a variable intensity corresponding to the vibrations can be sensed between the first and second triboelectric members.

Abstract: A process for forming an extruded composition using a wet-spin dry-jet technique including forming a dispersion dope by mixing phase change material with a first portion of solvent, and sonicating the mixture, forming a prime dope by combining a first portion of polymer and a second portion of solvent, forming an extrusion composition by combining the dispersion dope, the prime dope and a second portion of the polymer, rolling the extrusion composition, degassing the extrusion composition, extruding the extrusion composition through a spinneret, drying the extruded composition, and quenching the extruded composition. The weight fraction of the phase change material in the extruded composition can be greater than approximately 60%, and preferably greater than approximately 75%.

Abstract: A microelectromechanical resonator includes a resonator member suspended over a surface of a substrate by at least one anchor that is connected to the substrate. The resonator member includes outer and inner frames that are concentrically arranged and mechanically coupled by support structures extending therebetween. Related apparatus and gyroscopes are also discussed.

Abstract: Disclosed is a compound of formula (I) in which R1, R2, R3, X1, X2, X2?, X3, X4, ring A, m, n, and o are as described herein. The compound of formula (I) is useful for treating a disorder associated with androgen receptor malfunction, such as a hyperproliferative disorder, in a subject in need thereof.

Abstract: Exemplary embodiments of the present invention can include a method for isolating a contaminate from water comprising: introducing a plurality of aluminum-doped nanoparticles to water, the water comprising the contaminate; contacting the plurality of aluminum-doped nanoparticles with the contaminate to form contaminate-adsorbed nanoparticles; and isolating the contaminate-adsorbed nanoparticles by applying a magnetic field to the water.

Abstract: A parametric resonator can be driven by varying a parameter of a modulated capacitor or other externally powered type device to achieve transduction. Conventionally, externally powered type devices generally require an external power source or a static charge to achieve transduction. By pumping the parameter of the device at a frequency that is about twice the resonance frequency, and an amplitude that is above a threshold, however parametric resonance can be generated and sustained without requiring an external power source or charge to be applied to the device.

Abstract: Disclosed herein are novel variants of clotting factors VII, VIII, and IX and their use, for example, in methods of treating a subject with a clotting disorder, such as hemophilia A or hemophilia B.

Abstract: A method for task mobilization is disclosed. The method may include a server receiving a plurality of user inputs from a desktop application. Each user input may correspond to a respective function performed by a user on the desktop application. The processor may identify the respective functions of the plurality of user inputs. Further, the method may include translating the respective functions into respective mobile view functions. Based on the respective mobile view functions, the processor may generate a mobile application and provide the mobile application to a mobile user device.

Abstract: Embodiments of the present disclosure relate generally to systems and methods of measuring speed and, more particularly, to systems and methods of measuring gait speed using a plurality of sensors. The systems described herein may include sensing units comprising one or more motion sensors for detecting a patient walking along a testing distance. In some embodiments, a controller may calculate a gait speed based at least in part on the testing distance and on signals received from the sensors. In some embodiments, an initiation input may be provided to activate the systems. In some embodiments, the initiation input may also provide a target to which a patient can walk.

Abstract: Disclosed herein are systems and methods for quantifying analytes in a desired complex solution with minimal inter-sample variability. The invention includes methods and diagnostic tools for quantifying analytes in aqueous solutions or biological fluid samples with sample-specific calibration and colorimetric or detectable output.