Abstract: A natural, red-hue colorant that is substantially free of alkaloids and polyphenoloxidase, has good stability, minimal aroma, and does not contain any organic solvent residuals is provided. The natural colorant has a red-hue equivalent to the red-hue of FD&C Red No. 40 and is more stable as compared to existing natural colorants. Methods for extracting anthocyanin pigments from red-fleshed potatoes without use of an organic solvent, while essentially eliminating alkaloids and polyphenoloxidase from the extract are also provided. Potatoes are pressed and filtered and the filtrate (i.e., potato juice containing potato anthocyanin pigments) is concentrated. The pH of the concentrate is adjusted with alkali to precipitate alkaloids therein. The concentrate is filtered and the pH of the filtrate is adjusted to a pH value of about 3.5 or lower. The pH is adjusted in such a manner to obtain a colorant having the desired red-hue color and intensity (i.e.

Abstract: Low or negative thermal expansion compounds are described having a formula of A.sub.2-x.sup.3+ A.sub.y.sup.4+ M.sub.z.sup.3+ M.sub.3-y.sup.6+ P.sub.y O.sub.12. It currently is believed that y can vary from about 0 to about 2, x equals the sum of y and z and varies from about 0.1 to about 1.9. Without limitation, novel compounds satisfying the formula A.sub.2-x.sup.3+ A.sub.y.sup.4+ M.sub.z.sup.3+ M.sub.3-y.sup.6+ P.sub.y O.sub.12 where y=0 may be selected from the group consisting of Al.sub.1.5 In.sub.0.5 W.sub.3 O.sub.12, Al.sub.1.6 In.sub.0.4 W.sub.3 O.sub.12, Al.sub.1.7 In.sub.0.3 W.sub.3 O.sub.12, Al.sub.1.8 In.sub.0.2 W.sub.3 O.sub.12, YAlW.sub.3 O.sub.12, ScAlW.sub.3 O.sub.12, ScGaW.sub.3 O.sub.12, ScInW.sub.3 O.sub.12, ScHoW.sub.3 O.sub.12, ScYbMo.sub.3 O.sub.12 and ErInW.sub.3 O.sub.12. Without limitation, novel compounds satisfying the formula A.sub.2-x.sup.3+ A.sub.y.sup.4+ M.sub.z.sup.3+ M.sub.3-y.sup.6+ P.sub.y O.sub.12 where y=2 may be selected from the group consisting of Hf.sub.2 WP.sub.2 O.

Abstract: A vaccine and method for treating fish susceptible to infection by Renibacterium salmoninarum is described. The vaccine comprises killed microorganisms that lack intact cell-surface-associated protein p57. The vaccine can be used in combination with additional materials, such as, without limitation, adjuvants, plasticizers, pharmaceutical excipients, antigens other than the cells lacking intact cell-surface-associated protein p57, diluents, carriers, binders, lubricants, glidants, aesthetic compounds, such as flavoring and coloring agents, and combinations thereof. The vaccine may be enteric-coated for oral delivery. The enteric coating generally comprises a polymer coating that is impervious to dissolution and/or degradation in the stomach, but is dissolved upon passing to the higher pH environments of the intestine. A preferred embodiment of the vaccine is made using spherical sugar microspheres.

Abstract: A method of identifying highly fecund males in which an isotonic, buffered liquid test specimen of semen is layered on top of a barrier medium that inhibits net movement (migration) of less mobile sperm into the barrier medium. Differences in mobility of populations of sperm among test subjects have been found to predict whether a male will be highly fecund or not. Sperm migration into the barrier medium is quantitated, for example by analyzing the barrier medium in a spectrophotometer or a photometer after sperm migration is allowed to occur. Alternatively, a collection member coated with a sperm binding protein may be placed below the barrier medium, and the number of sperm that bind to the collection member quantitated after incubation. The invention also includes a device for incubating the barrier medium at a physiologic temperature for a sufficient period of time to allow the highly mobile sperm to migrate into the barrier medium.

Abstract: An instrument is described for making both fluorometric and spectrophotometric images of plants. The instrument includes two sources of electromagnetic radiation, optical components to direct the radiation, excitation and emission filters, and an imaging device. The instrument can be used to produce high resolution spectrophotometric images of living plants by correcting for water path length.

Abstract: An embossing device, which can produce traditional braille cells and crisp, well-defined, raised images of graphical subjects is disclosed. Embossing of sheet material is accomplished using punches which have embossing faces shaped to mate with recessed areas on the surface of a platen.

Abstract: A resonantly coupled .alpha.-Stirling cooler has hot and cold variable-volume chambers, a regenerator, and a driver for maintaining reciprocating gas displacement between the chambers. Only the hot side of the cooler is driven; the cold side responds passively by resonant coupling. The phase difference between volume oscillations in the hot and cold variable-volume chambers are altered by adjusting the driving frequency.

Abstract: A variable speed, constant frequency (VSCF) system utilizes a doubly-fed machine (DFM) to maximize the output power of the system. The system includes a power converter that provides a frequency signal and a current signal to the DFM. The power converter is controlled by an adaptive controller. The controller signals the converter to vary its frequency signal and thereby the rotor speed of the DFM until a maximum power output is sensed. The controller also signals the converter to vary its current signal and thereby the portions of power carried by the respective windings until a maximum power output is sensed. The control can be augmented to not only maximize power and efficiency, but also provide for harmonic and reactive power compensation.

Abstract: The present invention provides compositions and methods for biological control of fungal diseases of agricultural commodities such as pome fruits, particularly saprophytic yeasts. Against a number of fungal pathogens, microbial biological control agents, such as the yeast strains of the present invention, show surprisingly effectiveness when used in combination with low levels of chemical fungicides. The present invention also provides methods for isolating microbes useful in controlling fungal diseases of agricultural commodities.

Abstract: An inexpensive, robust concrete solar cell (10) comprises a photovoltaic material embedded in and extending beyond front and rear major surfaces (18 and 16) of a matrix layer (14). The matrix layer typically comprises a high-strength, cementitious material, such as a macrodefect-free cement, reinforced with electrically nonconductive fibers (54) distributed throughout the matrix layer. The photovoltaic material comprises particles (12) of high-resistivity single crystal silicon, typically ball milled from ingot sections unsuitable for slicing into silicon wafers. An aluminum sheet (28) attached to the rear major surface provides electrical contact to one of two electrical region (22 and 24) of the semiconductor particle, and a translucent conductive layer (30) on the front major surface provides electrical contacts to the second electrical region.

Abstract: A hydrogen-selective membrane comprises a tubular porous ceramic support having a palladium metal layer deposited on an inside surface of the ceramic support. The thickness of the palladium layer is greater than about 10 .mu.m but typically less than about 20 .mu.m. The hydrogen permeation rate of the membrane is greater than about 1.0 moles/m.sup.2. s at a temperature of greater than about 500.degree. C. and a transmembrane pressure difference of about 1,500 kPa. Moreover, the hydrogen-to-nitrogen selectivity is greater than about 600 at a temperature of greater than about 500.degree. C. and a transmembrane pressure of about 700 kPa. Hydrogen can be separated from a mixture of gases using the membrane. The method may include the step of heating the mixture of gases to a temperature of greater than about 400.degree. C. and less than about 1000.degree. C. before the step of flowing the mixture of gases past the membrane. The mixture of gases may include ammonia.

Abstract: An apparatus and a non-destructive method for evaluating material strengths is described. One embodiment of the apparatus comprises a waveform generator that generates either (1) a sinusoidal waveform having a frequency that sweeps from a low frequency to a high frequency, or a high frequency to a low frequency, wherein the low frequency is from about 10 Hz to about 150 Hz, and the high frequency is from about 6,000 Hz to about 24,000 Hz, or (2) a pseudo random within the frequency range of from about 150 Hz to about 6,000 Hz. An electromechanical driver is electronically linked to the waveform generator and mechanically coupled to a test material, particularly in-service utility poles, at a drive position. Force and acceleration sensors are coupled to the test material at various positions. A microprocessor is used to collect digitized data from the force sensor and the accelerometers, perform a transfer function and determine the strength remaining in the test material using a neural network model.

Abstract: A method of suppressing virus gene expression in plants using untranslatable plus sense RNA is disclosed. The method is useful for the production of plants that are resistant to virus infection.

Abstract: Methods are disclosed for ascertaining whether molecules of a particular analyte are present in a sample. Molecules from the sample are passed into an electron monochromator in which the molecules are contacted by monochromatic electrons having a kinetic energy level within a range of greater than zero eV to less than about 6 eV. These energy levels are sufficient to form ions from at least a subpopulation of the molecules by electron capture by molecules of the subpopulation. The ions formed in the electron monochromator are then passed through a mass analyzer to obtain an ion spectrum which allows a determination to be made as to whether or not the ions profiled in the spectrum include ions produced from the analyte. Thus, the disclosed methods allow greatly enhanced detection of particular analytes of interest, such as explosives, drugs, pesticides, and other compounds of environmental, security, forensic, or other concern.

Abstract: Articles and surfaces are disclosed having antimicrobial activity. Also disclosed are methods for treating surfaces and articles to confer antimicrobial activity. Such articles and surfaces are particularly adapted for food contact use, such as food preparation or packaging. Antimicrobial activity is conferred by applying molecules of a polypeptide bacteriocin, e.g., nisin, such as by contacting the surface or article with a liquid solution of a bacteriocin or bacteriocin mixture. The bacteriocin molecules are attached to the surface or article via any means enabling the molecules to subsequently detach and lethally interact with susceptible bacteria deposited on the treated surface or article. Such detached bacteriocin molecules can also kill susceptible bacteria present on foods or other substances that contact the surface or article. Attached bacteriocins are stable to drying, water rinsing, and freezing, even for long periods.

Abstract: Compounds that satisfy the general formula A.sub.1-Y.sup.4+ A.sub.Y.sup.1+ A.sub.Y.sup.3+ V.sub.2-X E.sub.X O.sub.7 exhibit isotropic NTE behavior above a temperature of about 100.degree. C. Y is from about 0.0 to about 0.4, and more preferably is about 0.2. X is from about 0.6 to about 1.4, and is more preferably about 1. Particularly suitable NTE compounds have X about 1 and Y about 0. A.sup.4+ is selected from the group consisting of Hf, Zr, Zr.sub.a M.sub.b, Hf.sub.a M.sub.b and mixtures thereof wherein a plus b equals one and M is selected from the group consisting of Ti, Ce, Th, U, Mo, W, Pb, Sn, Ge and Si. More preferably, A.sup.4+ is selected from the group consisting of Hf and Zr. A.sup.1+ is selected from the group consisting of the alkali earth metals, A.sup.3+ is selected from the group consisting of the rare earth metals, and E is selected from the group consisting of P and As. The NTE materials may be incorporated into compositions such as epoxy and ceramic compositions.

Abstract: An absorption meter determines concentration of chlorophyll a and pheophytin in liquids. Particularly, an immersible absorption meter has a light source, a reflective flow tube, a signal detector, and means for determining the difference between the absorption coefficients at a first wavelength and a second wavelength. The light source may further include a plurality of filters and a selector that selects the filters. The concentration of substances in liquids is determined by measuring the absorption of light at a first wavelength and at a second wavelength, determining the difference between the absorption coefficients for the first and second wavelengths, and converting this data into concentrations.

Abstract: An inexpensive, robust concrete solar cell (10) comprises a photovoltaic material embedded in and extending beyond the major surfaces (16 and 18) of a matrix layer (14). The matrix layer typically comprises a high strength, cementitious material, such as a macrodefect free cement. The photovoltaic material comprises particles (12) of high-resistivity single crystal silicon, typically ball milled from ingot sections unsuitable for slicing into silicon wafers. The ingot sections include unprecipitated dissolved oxygen that is electrically activated by a low temperature annealing process to produce n-type silicon, even in silicon crystals that include a p-type dopant. An aluminum sheet (28), positioned on the backside of the matrix layer, is briefly melted together with the silicon particles to produce a p-type aluminum-doped silicon region (22) that forms a pn junction with the n-type region (24) of the particle. The aluminum sheet also provides the electrical contact to the p-type regions.

Abstract: An oversampling D/A converter system achieves high linearity and low quantization error by using dual internal D/A converters: one with high linearity but high quantization error and the other with low linearity but low quantization error. A signal path in the system includes an L-bit quantizer for quantizing a digital input signal into an L-bit signal plus a quantization error and a D/A converter for converting the L-bit signal and quantization error into an analog signal. A correction path that parallels the signal path includes an M-bit quantizer, where M is greater than L, and an M-bit D/A converter. A signal generated by the correction path cancels the shaped quantization error of the signal generated by the signal path by adding the negative of the shaped quantization error to the signal of the signal path. The resulting analog signal is filtered by a low-pass analog filter to extract the analog equivalent of the digital input signal.

Abstract: The process of the present invention is directed to the remediation of wood that has been treated with a preservative, such as pentachlorophenol or other non-ionic organic biocides, using supercritical fluids, with or without the addition of modifiers.