Abstract: Disclosed herein is a solid-state image pickup element, including: a semiconductor layer in which a photodiode for carrying out photoelectric conversion is formed; a first film containing negative fixed charges and formed on the semiconductor layer in a region in which at least the photodiode is formed by utilizing either an atomic layer deposition method or a metal organic chemical vapor deposition method; a second film containing the negative fixed charges and formed on the first film containing therein the negative fixed charges by utilizing a physical vapor deposition method; and a third film containing the negative fixed charges and formed on the second film containing therein the negative fixed charges by utilizing either the atomic layer deposition method or the metal organic chemical vapor deposition method.

Abstract: Disclosed herein is a solid-state image pickup element, including: a semiconductor layer in which a photodiode for carrying out photoelectric conversion is formed; a first film containing negative fixed charges and formed on the semiconductor layer in a region in which at least the photodiode is formed by utilizing either an atomic layer deposition method or a metal organic chemical vapor deposition method; a second film containing the negative fixed charges and formed on the first film containing therein the negative fixed charges by utilizing a physical vapor deposition method; and a third film containing the negative fixed charges and formed on the second film containing therein the negative fixed charges by utilizing either the atomic layer deposition method or the metal organic chemical vapor deposition method.

Abstract: A ceramic femur head is nearly spherical and has a planar end surface. The femur head has a diametric, tapered hole which extends from the planar surface in a way as to taper toward an inner end thereof and in which a correspondingly tapered stem portion of a metallic stem is fitted. The inner peripheral surface of the tapered hole of the ceramic femur head is ground so as to have the same degree of surface finish as that of an outer peripheral surface of the tapered stem portion. For example, in case the outer peripheral surface of the tapered stem portion of the metallic stem is finished to have a surface roughness in the range from 0.1 to 0.6 &mgr;m Ra, the surface roughness of the inner peripheral surface of the tapered hole of the ceramic femur head is set to be in the range from 0.1 to 0.6 &mgr;m Ra.

Abstract: An electric probing-test machine comprises a probe card having a plurality of probes contacted with chips of a semiconductor wafer and serving to apply test signal to a tester which judges whether circuits on the chips of the wafer are correct or deficient, a main chuck for holding the wafer at a test temperature, a system for cooling the main chuck, and a controller for controlling the cooling system. The main chuck includes a chuck top contacted directly with the wafer, a jacket arranged to conduct heat exchange relative to the chuck top, and a temperature sensor for detecting the temperature of the chuck top. The cooling system has a pump for supplying a coolant from a reservoir to the jacket. Responsive to temperature information detected by the temperature sensor, the amount of the coolant supplied from the reservoir to the jacket is controlled by the controller to thereby control the temperature of the chuck top.

Abstract: A composite separating agent which comprises a hydrophilic polymer separating agent showing a degree of swelling in water of 10 to 100 ml/g-dry and having a giant network structure incorporated within pores of an organic polymer substrate showing a degree of swelling in water of 20 ml/g-dry or below and a degree of crosslinking of 4% to 100% by mol and having a porous structure as well as a process for producing the same are disclosed.When packed within a column, this composite separating agent having a high mechanical strength is hardly compacted and exhibits an excellent separation performance. Thus it is highly useful in chromatographic separation of biopolymers including proteins.

Abstract: An electric probing-test machine comprises a probe card having a plurality of probes contacted with chips of a semiconductor wafer and serving to apply test signal to a tester which judges whether circuits on the chips of the wafer are correct or deficient, a main chuck for holding the wafer at a test temperature, a system for cooling the main chuck, and a controller for controlling the cooling system. The main chuck includes a chuck top contacted directly with the wafer, a jacket arranged to conduct heat exchange relative to the chuck top, and a temperature sensor for detecting the temperature of the chuck top. The cooling system has a pump for supplying a coolant from a reservoir to the jacket. Responsive to temperature information detected by the temperature sensor, the amount of the coolant supplied from the reservoir to the jacket is controlled by the controller to thereby control the temperature of the chuck top.

Abstract: A method for preparing an oil-in-water type uniform dispersion of liquid droplets, which comprises ejecting into an aqueous medium containing a dispersion stabilizer, which forms a continuous phase and moves upwards, a hydrophobic liquid having a specific gravity smaller than the aqueous medium, through a nozzle plate having a plurality of perforations capable of ejecting the hydrophobic liquid upwards, to form liquid droplets of the hydrophobic liquid in the aqueous medium, wherein a nozzle plate having a number of perforations for ejection arranged in a ring form is used as said nozzle plate, and a polymerization method for preparing polymer beads of uniform particle size, which comprises applying the method for preparing an oil-in-water type uniform dispersion of liquid droplets.

Abstract: Porous cross-linked polyvinyl alcohol particles which is used for a chromatographic medium is prepared by:dispersing an aqueous solution of a mixture of polyvinyl alcohol and a salt in an organic solvent;allowing a gel to form spontaneously from the dispersion; andreacting the gel with a cross-linking agent.

Abstract: A method for producing a separating agent having a fluorine-containing group and a hydrophilic group, wherein a cross-linking component consisting of alkylene di(meth)acrylate and/or glycerine poly(meth)acrylate, and a principal chain component consisting of ester and/or ether having therein a polymerizable vinyl group or isopropenyl group and a functional group are subjected to suspension-polymerization to obtain a cross-linked copolymer, and then the functional group in the copolymer is subjected to chemical modification with a fluorine-containing compound or with both fluorine-containing compound and hydrophilic-group-containing compound. The separating agent of the present invention consists essentially of porous cross-linked copolymer particles having porosity in a range of from 0.5 to 3 ml/g and an average particle size in a range of from 1 to 2,000 .mu.m.

Abstract: In a method of separating phenylalanine and cinnamic acid from a mixed solution containing phenylalanine and cinnamic acid, a method of separating phenylalanine and cinnamic acid which comprises subjecting said mixed solution to chromatographic development using a synthetic adsorbent, such as Diaion, Amberlite etc., in the presence of a salt, such as ammonium halides, ammonium sulfate, alkali metal nitrates, ammonium and alkali metal salts of fatty acids, at a concentration in the range where the salting-out effect on cinnamic acid is greater than that on phenylalanine and also both phenylalanine and cinnamic acid can be dissolved, for example, in the range of 0.2-5N.