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polymerase chain reaction

Solid-state distributed node-based rapid thermal cycler for extremely fast nucleic acid amplification (LLNL Internal Case # IL-12275, US Patent 8,720,209)

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PCR

Laser heating of aqueous samples on a micro-optical-electro-mechanical system (LLNL Internal Case # IL-11719, US Patents 8,367,976;

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E-coli

LLNL researchers have designed a synthetic, concatemeric bacterial expression vector that expresses a protein sequence that can be digested into a single peptide. The synthetic protein is designed to be secreted outside E. coli cells, and therefore can be purified using a His-tag from the cell supernatant (thereby reducing the need to lyse the cells for purification).

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Cancer Research

LLNL scientists have created a technology that utilizes electrical means, instead of optical methods, to (1) provide label-free detection of droplet morphology; (2) manipulate droplet position through trapping and actuation; (3) track individual droplets in a heterogeneous droplet population; and (4) generate droplets with target characteristics automatically without optical intercession. The…

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LLMDA Microbial detection array

This device allows for observation of single cells encapsulated in droplets and provide the ability to recover droplets containing a cell of interest. This system provides the unique capability to monitor droplet contents from a few minutes to hours and overcome the limitations of the fluorescence activated cell sorting (FACS) in the purification of cell populations. The ability of this…

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3D nanometer-thin membrane for ultra-fast selective mass transport

This invention consists of a functionalized membrane (e.g. polyethylene glycol (PEG)) and osmosis or electric potential as a driving force. The PEG membrane provides high biological particles separation and prevents sample for clogging due to the strong hydration of functional polymers layer and their resistance to protein adsorption.

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liquid chromatography-triple quadrupole mass spectrometer

This invention is an improved chromatography device that utilizes the concept of a functionally graded material (FGM) for separation of components. The technology consists of a device that contains a FGM that is patterned to have a gradient in material properties (e.g. chemical affinity, surface chemistry, chirality, pore size, etc.) normal to the direction of flow of the mobile phase. The…

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Biochemical assay

The art described here incorporates a planar integrated optical system that allows for multiple biochemical assays to be run at the same time or nearly the same time. Briefly, each assay can include one or more tags (e.g. dyes, other chemicals, reagents) whose optical characteristics change based on chemical characteristics of the biological sample being tested.

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Cancer Research

This technology describes a method for partitioning fluid into “packets” between polymeric sheets. The fluid to be partitioned is introduced between two polymeric layers or within a polymeric channel and the layers are sealed together to form an array or sequence of individual milliliter to picoliter samples as shown in figure below. This approach allows a continuous flow of samples through…

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Center for Accelerator Mass Spectrometry (CAMS)

LLNL researchers have developed a variation of AMS technology that improves sample preparation, analysis, and cost for AMS. The device involves depositing liquid samples on an indented moving wire and passing the moving wire through a combustion oven to convert the carbon content of samples to carbon dioxide gas in a helium stream. The gas is then directed via a capillary to a high efficiency…

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Microfluidics

LLNL has invented a new high-throughput assay for sample separation that uses the vibrations of a piezoelectric transducer to produce acoustic radiation forces within microfluidic channels. The system includes a separation channel for conveying a sample fluid containing the different size particles, an acoustic transducer and a recovery fluid stream. The polymeric films containing the fluid…

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Sun

LLNL researchers have developed an apparatus capable of measuring and recording ultraviolet radiation that uses the Schottky diode/ZnSe/metal type UV sensor. This device can detect both UV-A (320-400nm) and UV-B(280-320nm) radiation. The present invention can also measure and accumulate doses with good sensitivity, and it can also store and make available the readings to be downloaded for a…

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Microbial detection array generic

The invention developed by LLNL researchers proposes to use staged isotachophoresis to improve sample separation. One of the problems with isotachophoresis is that there is a tradeoff between the diameter of the separation column and the ability to isolate a species into a detectable band. For example, wider diameter channels run faster, but narrower channels provide better ability to isolate…

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Chlamydomonas Reinhardti alga cells

LLNL researchers have devolved a technique to separate or purify samples using electrophoretic separation. This invention corrects the problem associated with pH changes by using the electrode, which contacts the sample, itself a high-conductivity electrolyte made of liquid or gel materials. This will keep the metal surface electrochemistry physically remote from the sample, while applying the…

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Breast Cancer Cells

Researchers at LLNL have developed a more efficient and cost-effective method and system for synthesizing a critical D-aminoluciferin precursor and related compounds. D-aminoluciferin is as active as luciferin and provides a free -NH2 group for functionalization to attach peptide sequences corresponding to the cleavage site of a protease. This allows for the synthesis of bioluminescent probes…

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Microfluidics

LLNL's technology employs improved sorting strategies related to chip-based droplet sorting. This technology uses electromagnetic fields and non-contact methods to sort and identify monodispersed water-in-oil emulsion droplets in a microfluidic chip-based device. The system selects individual droplets from a continuous stream based on optical or non-optical detection methods as well as the…

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Microfluidics

Researchers at LLNL have developed a method to passively sort individual microdroplet samples of uniform size based on stiffness and viscosity. Unlike electrical or optical methods for droplet sorting, this apparatus does not require a measurement step. Instead, particle separation occurs through changes in shearing forces determined by the stiffness of the particles in the microdroplet sample…

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Chlamydomonas Reinhardti alga cells

LLNL researchers have created a method that uses isotachophoresis for the exclusion and or purification of nucleic acids. Isotachopheresis (ITP) is an electrophoretic separation technique that leverages a heterogeneous buffer system of disparate electrophoretic mobilities. The researchers created a transverse ITP system that offers high-throughput sample preparation as the amount of sample…

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PI looking into a microscope

The steady-state phenomenon generates thousands of microdroplets per second which is a problem when the stream of droplets needs to be slowed down or stopped. LLNL technology provides a method for generating and trapping microdroplets at a desired location and subsequently stopping the stream of microdroplets without droplet coalescence. These microdroplets can then be chemically reacted,…

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DNA

The present invention uses magnetic fields to hold particles in place for faster DNA amplification and sequencing. This invention provides a method for faster DNA sequencing by amplification of the genetic material within microreactors, denaturing and de-emulsifying and then sequencing the material while retaining it in the PCR/sequencing zone by a magnetic field. Briefly, nucleic acid…

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DNA 2

This invention is designed to sort and identify complex samples using parallel nucleic acid characterization. By isolating single or double stranded nucleic acids derived from complex samples, researchers can sequence previously unknown genetic material to identify novel viruses and organisms. The chip-based microfluidic system achieves this through microdroplet PCR amplification,…

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biosecurity petri dish

This technology is a photonic detection system developed by researchers at LLNL for the detection of biological or chemical threats with the intention of combining the collection, concentration and detection process onto a single platform. The present invention consists of a porous membrane containing flow-through photonic silicon crystals (see figure).

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Microfluidics

The described invention is a miniature fluidic device for separating particles suspended within a liquid sample that is introduced into the interior volume of the device. The device uses laminar flow and a combination of gravity and acoustic, electrophoretic, dielectrophoretic, and diffusion-based processes in concert to separate the different particle types and allow them to be collected…

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Lipid nanotube or nanowire

Researchers at LLNL have developed a nanotube sensor (single-walled or multi-walled carbon nanotubes) enclosed within a highly selective lipid bilayer that can detect variations in ion transport using signal amplification generated from the disruption of protein pores across the lipid layer. Changes in the device’s transistor current are recorded by an external circuit with high efficiency as…

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Microfluidics

Researchers at LLNL have created a new technology for performing pumping and valving operations in microfabricated fluidic systems. Traditional microfabricated devices have some disadvantages that defeat the advantages of miniaturization. For example, they require high power and voltage, and they need specific fluids to work properly and to be broadly applicable. The technology described here…

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proteins on computer screen
Researchers at LLNL have developed a new method to utilize highly selective molecular recognition events to attach proteins to any solid support through the C-terminus. The approach is based on the use of protein trans-splicing, which is a naturally occurring process similar to protein splicing with the difference that the intein (e.g., DnaE intein from Synechocystis sp. PCC6803) self-processing…
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Autonomous detection, Bio watch, airborne detection

LLNL has a successful history of developing instruments for detecting and characterizing airborne pathogens. Often, aerosol characterizing instruments require highly focused particle beams with little or no transmission losses. In addition, they need to interface to the sampling environment with a very high sampling rate so that more aerosol particles can be collected and sensitivity can be…

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PCR

LLNL scientists have designed a rapid PCR technology that incorporates the use of microfluidic thermal heat exchanger systems and is comprised of a porous internal medium, with two outlet channels, two tanks, and one or more exchanger wells for sample receiving. The wells and their corresponding inlet channels are coupled to two tanks that contain fluid with cold and hot temperatures. A…

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Microfluidics

LLNL has developed a new technology that provides a method for near-instantaneous heating of aqueous samples in microfluidic devices. The technology relates to a heating method that employs microwave energy absorption from a coincident low power Co-planar waveguide or microwave microstrip transmission line embedded in a microfluidic channel to instantaneously heat samples. The method heat…

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Instantaneous heating

Researchers at LLNL have developed an instantaneous sample heating method to efficiently deposit thermal energy into a continuous stream or segmented microdroplets on a MOEMS device using an optimally low energy, commercially available CO2 laser. The device uses an ideal wavelength (absorption in the far infra-red (FIR) region (λ=10.6 μm)) to instantaneously heat fluidic partitions. The…

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polymerase chain reaction

Researchers at LLNL have designed a new technology that allows the integration of a large bench-top thermal cycling instrument onto a miniaturized instrument. This instrument is powered and controlled by portable thumb-drive systems such as an USB. USB thumb-drives are commonly used to transfer data from the instrument onto a PC, however, in this new technology the thumb drive becomes the…

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polymerase chain reaction

This technology describes a method for performing immediate in-line sample heating to promote the required chemical reactions for amplification, activation, or detection, depending on the thermodynamics of the particular assay involved. The basis of this technology is a method that employ microwave energy absorption to instantaneously heat fluidic partitions without heating the device itself…

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polymerase chain reaction

LLNL researchers have developed a new method for faster, more accurate, and precise thermal control for DNA amplification. This technology uses sensor-controlled nodes to monitor and cycle materials through a microfluidic heat exchanging system. Thermal energy travels from a power module through thermal electric elements to sample wells. Sensors coupled to each sample well monitor and respond…

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Microfluidics

The biotech industry aims to move towards an on-chip system for sample generation, amplification and detection of both DNA and RNA based organisms. LLNL has invented a new way of isolating samples in a system.

This invention enables creation of partitioned fluid "packets" between polymeric sheets for chemical separation, DNA amplification or PCR-based DNA detection. The polymeric…

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ccms-water-splitting

Dubbed the "LLNL Chemical Prism", the LLNL system has use wherever there is a need to separate components of a fluid. A few examples include:

  • Chemical detection for known and previously unknown chemicals or substances
  • Separation of biomolecules from a cellular extract
  • Fractionation of a complex mixture of hydrocarbons
  • Forensic analysis of…
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Brain on a chip

Lawrence Livermore National Laboratory scientists have developed a signal enhancing microchip apparatus and method that enhances a microfluidic detector's limits by magnetically focusing the target analytes in a zone of optical convergence. In summary, samples are associated with magnetic nanoparticles or magnetic polystyrene coated beads and moved down the flow channels until they are trapped…

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Transparent Scintillators

Transparent ceramic fabrication allows the production of gadolinium- , lutetium-, and terbium-based garnets which are difficult to grow by melt techniques due to phase instabilities. Phase stabilization of the garnets is accomplished by the addition of the intersubstitutional ions, Gallium and/or Scandium.

Scientists have developed many versatile and scaleable fabrication methods.…

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Times Square

LLNL’s BioBriefcase is a compact and portable instrument capable of autonomously detecting the full spectrum of bioagents, including bacteria, viruses and toxins in the air. It uses the state of art technologies to collect, process, and analyze samples to detect, and identify genetic and protein signatures of bioagents.

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Natalia Zaitseva examines a single crystal growing in a solution-growth crystallizer developed for production of stilbene crystals for fast neutron detection

LLNL researchers have grown and characterized scintillator crystals of Strontium Iodide (SrI2). Scintillator energy resolution and light yield proportionality surpass NaI and are similar to LaBr3. The SrI2 scintillators doped with europium (Eu) exhibit very high light yields (> 100,000 photons/MeV), extremely good energy resolution (<3% at 662 keV) and excellent light yield…

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Medical Doc with lab coat

This technology uses either of two X-ray wave-front sensor techniques, Hartmann sensing and two-dimensional shear interferometry, both of which are capable of measuring the entire two-dimensional electric field, both the amplitude and the phase, with a single measurement. Capturing both the absorption and phase coefficients of the index of refraction can help to reconstruct the image.…

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Next generation pillar detector

LLNL's neutron "Pillar Detector" fabrication technology uses semiconductor-based micro-structured elements as an electrical signal generation medium for the detection of neutrons. These materials in the form of semiconductor "pillars" embedded in matrix of high cross-section neutron converter materials (such as Boron) that emit charged particles upon interaction with neutrons. These charged…

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Microbial Detection Array 2

LLNL has developed a technology that provides near-instantaneous heating of aqueous samples in microfluidic devices. The method heats samples in a focused area within a microfluidic channel on miniaturized chips. The microwave heating device is composed of a waveguide or microstrip transmission line embedded in a microfluidic channel. Aqueous solution microwave heating allows extremely fast…