Abstract: The caged cell-penetrating peptide (cCPP) conjugates of this invention are ideal for intracellular delivery of a broad variety of cargoes including various nanoparticle pharmaceutical carriers (liposomes, micelles, microparticles, nanoparticles, polymer-conjugates). The conjugates comprise a detectable agent or a therapeutic agent, and the conjugates provide a novel strategy for site-specific delivery of the same to appropriate tissues in the subject. Versatile application of the conjugates in diagnostics and imaging is described.

Abstract: A partial-aperture imaging system, including one or more partial-aperture units, each including) one or more partial apertures disposed over a periphery of a circular area representing a full aperture having, each partial aperture being directed towards scenery, while the total area of the partial apertures spans only a portion of the area of the full aperture; one CPM for each of the partial apertures, the CPM receiving, one at a time, from a respective partial aperture at least one point-object image and at least one complex-object image, the CPM modulating by a same random code the phases of pixels of one or more pairs of the point-object and complex-object images, to form PORIs and CORIs; an imager for optically receiving the PORI—each PORI being defined as a PSF, respectively, and at least one CORI, and for storing; and a processor to form a final image.

Abstract: A planar Hall effect (PHE) sensor for measuring at an external magnetic field includes a plurality of elongated magnetic regions. Each magnetic region includes a ferromagnetic material that is magnetized along a longitudinal axis. The magnetic regions cross one another at an overlap region that is characterized by a plurality of easy magnetic axes. At least two pairs of electrical leads are each aligned along one of the easy magnetic axes. A current source may be connected to a first pair of the electrical leads to cause a current to flow through the overlap region along a first easy magnetic axis. A voltage measurement device may be connected to another pair of the electrical leads to measure a PHE voltage that is generated by a component of the external magnetic field that is perpendicular to the easy magnetic axis along which the overlap region is magnetized.

Abstract: A security assessment system is configured to provide a duplicated environment which duplicates an assessment target system comprising a plurality of physical components. The security assessment system includes a duplicated environment design circuitry and a duplicated environment construction circuitry. The duplicated environment design circuitry is configured to select a duplication level based on constraints specified by a user and effects associated with the physical components in order to design the duplicated environment to produce a designed result indicative of a duplicated environment design. The duplication level is indicative of any one of a simulation sub-module, an emulation sub-module, and a physical sub-module which are for reproducing the physical components of the assessment target system. The duplicated environment construction circuitry is configured to construct the duplicated environment based on the designed result.

Abstract: The present application describes embodiments of a non-tracking solar energy collector comprising: (a) at least one solar radiation concentrator for collimating and directing the incident solar radiation rays to at least one focal point along the surface of a reactive reflector; (b) the reactive reflector mounted on top of an external cavity and having at least one transparency zone instantly formed at said at least one focal point of the solar radiation rays, for letting the solar radiation rays enter said external cavity, wherein said transparency zone is constantly moving along the surface of said reactive reflector following the position of said at least one focal point of the solar radiation rays; and (c) the external cavity containing a solar cell and capable of trapping the entered solar radiation rays by inner scattering of said solar radiation rays on the walls of said external cavity, wherein said inner scattering of said solar radiation rays inside said external cavity is preventing solar radiation

Abstract: Disclosed are a method for achieving ultrahigh spectral resolution and a photonic spectral processor, which is designed to carry out the method. The disclosed photonic spectral processor overcomes the current 0.8 GHz spectral resolution limitation. The new spectral processor uses a Fabry-Perot interferometer array located before the dispersive element of the system, thus significantly improving the spectral separation resolution, which is now limited by the full width at half maximum of the Fabry-Perot interferometer rather than the spectral resolution of the dispersive element spectral as is the current situation. A proof of concept experiment utilizing two Fabry-Perot interferometers and a diffractive optical grating with spectral resolution of 6.45 GHz achieving high spectral resolution of 577 MHz is described.

Abstract: An electroless process for depositing gold (Au0) from a solution, comprising allowing gold (Au0) place from a solution of gold thiocyanate complex dissolved in a mixture of water-miscible organic solvent and water, or the deposition of gold (Au0) takes place on a deposition-directing layer comprising positively charged organic groups, said layer being provided on at least a portion of a surface of a substrate sought to be gold-coated.

Abstract: A robot device comprising a main body portion and two elongated legs, wherein: a) each of said legs is connected to said main body portion by a four-bar extension mechanism; and b) each one of said legs is rotatable around a corresponding axis positioned along the distal-proximal direction.

Abstract: The present invention discloses a novel capacitive vapor sensor comprising porous immobilized graphene oxide (pGO) on an electrode surface. Also disclosed is an in-situ process for the preparation of this sensor and various uses thereof.

Abstract: A low voltage sub-nanosecond pulsed current driver for driving current to a load, which comprises a regulated current source connected to the load, for driving controlled current to the load (which may be a laser diode for LIDAR applications); a current routing network, being connected in parallel to the load following the regulated current source and consisting of a plurality of controlled power switches; and a controller for individually timing the operation of the plurality of controlled power switches, to generate a current pulse having desired narrow pulse width and reduced rise and fall times that will be delivered to the load.

Abstract: The invention provides a process for preparing liquid fuels and chemicals, which process comprises feeding carbon monoxide and hydrogen to a hydrogenation reactor, wherein the molar ratio CO:H2 is in the range of 1:0.5 to 1:0.9, catalytically hydrogenating said carbon monoxide in said hydrogenation reactor, condensing the effluent of said hydrogenation reactor to recover one or more organic liquid(s) and an aqueous solution, feeding a non-condensable component of said effluent into an oligomerization reactor; condensing an effluent discharged from the oligomerization reactor to obtain an additional organic liquid and an additional gaseous stream, separating said additional organic liquid, and either combusting said additional gaseous stream to produce heat and electricity, or processing same to obtain recyclable gaseous streams utilizable in said process.

Abstract: The invention provides a method of analyzing a liquid sample, comprising the steps of: passing near-infrared light through the sample, wherein the light travels in metal nanoparticles-added microfiber that is immersed in the sample; obtaining spectral information across a wavelength range of about 750 nm to about 1800 nm; and qualitatively identifying, and optionally quantitatively characterizing, one or more analytes in the sample. Near-infrared spectrophotometer carry out the method is also provided by the invention.

Abstract: Nano-sized particles are provided comprising at least one multi-headed amphiphilic compound, in which at least one headgroup of said multi-headed amphiphilic compound is selectively cleavable or contains a selectively cleavable group, and at least one biologically active agent, which is both encapsulated within the nano-particle and non-covalently associated thereto.

Abstract: A plug-and-play Transient Suppression Unit (TSU) for Voltage Regulator Modules (VRMs), which comprises a bi-directional current source connected via a high voltage port and a low voltage port of the TSU in parallel to a voltage output of the VRM, adapted to immediately sink or source current supplied to a load; a detection circuit for detecting mismatches between the voltage output of the VRM to a reference steady-state voltage, which comprises a first comparator for detecting a match between the voltage output of the VRM to the reference steady-state voltage; a second comparator for detecting a mismatch between the voltage output of the VRM to a predefined threshold higher than the reference steady-state voltage; a third comparator for detecting a mismatch between the voltage output of the VRM to a predefined threshold lower than the reference steady-state voltage value; a transient response accelerator, connected via a third port of the TSU to the output compensation port of the VRM error amplifier, and ada

Abstract: The present invention relates to peptides comprising analogues of VDAC1-derived peptides having improved pharmacokinetic characteristics compared to the native parent peptides, which are effective in impairing cell energy production, in inducing apoptosis and cell death, particularly of cancerous cells, in eliminating cancer stem cells and in reducing symptoms associated with fat accumulation in liver cells particularly with nonalcoholic fatty liver disease (NAFLD) and symptoms associated thereto.

Abstract: The invention relates to a system for protecting a computerized device from a malicious activity resulting from a malicious code, which comprises: (a) a first DC supply monitoring unit which is located within a separate computerized environment, namely an environment which is totally separated and isolated both physically and in terms of connectivity from the hardware and software of the computerized environment of the device; (b) a memory database for storing one or more signatures of known malicious events, each of said signatures describes the temporal effect of a malicious event, respectively, on the power consumption from the DC supply of the device; and (c) a microprocessor within said DC supply monitoring unit for continuously monitoring the power consumption from said DC supply of the device, comparing temporal characteristics of the power consumption with said malicious events signatures in said database, and alerting upon detection of a match, wherein said DC supply monitoring unit is at most physic

Abstract: Provided are co-assembled nanoparticles including at least one polypeptide including a polyanion; and at least one amphiphilic peptide capable of forming a ?-sheet structure, a derivative or a salt thereof, the amphiphilic peptide including at least 2 pairs of alternating hydrophobic/hydrophilic amino acid residues in which the hydrophilic amino acid residue is positively charged, and methods of preparation of the nanoparticles. Further provided are pharmaceutical compositions including the co-assembled nanoparticles and a pharmaceutically active ingredient, dissolved, entrapped, encapsulated or attached to the co-assembled nanoparticles. Further provided are therapeutic uses of the pharmaceutical compositions.

Abstract: An efficiency-enhanced, three-terminal, bi-junction thermoelectric device driven by independently-adjustable parameters of temperature and voltage.

Abstract: A digital controller for controlling an average-current-mode voltage regulator with an output connected to a load.

Abstract: The invention relates to a TEE (Trusted Environment Execution) structure which comprises: (a) a main domain defining a domain of operation for a main OS; (b) a privileged trusted domain defining a domain of operation for a trusted domain OS; and (c) a low level hypervisor which is separated from both of said main OS and said trusted domain OS, said hypervisor is used for: (c. 1) receiving packets from a network; (c.2) examining an address included in each of said received packets; and (c.3) based on the determined address in each of said packets, targeting respectively the packet to either said main OS or to said trusted domain OS, while in the latter case any interaction between the received packet and said main OS is eliminated.