摘要:
Disclosed is the use of an aqueous dispersion comprising (a) a micronized sparingly soluble organic benzophenone derivative of formula (1), selected from the crystal modifications (B) and (C), wherein the crystal modification (B) is characterized by a peak in the X-ray diffraction pattern at a d-spacing of about 7.70; and wherein the crystal modification (C) is characterized by a peak in the X-ray diffraction pattern at a d-spacing of about 7.06; and (b) a dispersing agent selected from anionic, non-ionic and amphoteric surfactants; for protecting the human skin from browning and skin aging. The new crystal modification (C) represents a thermodynamically stable compound of formula (1) at 25° C. This modification is therefore suitable in dispersions comprising micro-fine particles.
摘要:
Disclosed is the use of an aqueous dispersion comprising (a) a micronized sparingly soluble organic benzophenone derivative of formula (1), selected from the crystal modifications (B) and (C), wherein the crystal modification (B) is characterized by a peak in the X-ray diffraction pattern at a d-spacing of about 7.70; and wherein the crystal modification (C) is characterized by a peak in the X-ray diffraction pattern at a d-spacing of about 7.06; and (b) a dispersing agent selected from anionic, non-ionic and amphoteric surfactants; for protecting the human skin from browning and skin aging. The new crystal modification (C) represents a thermodynamically stable compound of formula (1) at 25° C. This modification is therefore suitable in dispersions comprising micro-fine particles.
摘要:
Disclosed is the use of an aqueous dispersion comprising (a) a micronized sparingly soluble organic compound which has a UV-Vis spectrum with a maximum from 380 to 420 nm; and (b) an anionic dispersing agent for protecting the human skin from browning and skin aging.
摘要:
Disclosed is the use of an aqueous dispersion comprising (a) a micronized sparingly soluble organic compound which has a UV-Vis spectrum with a maximum from 380 to 420 nm; and (b) an anionic dispersing agent for protecting the human skin from browning and skin aging.
摘要:
The invention relates to a device (10; 10a) for controlling pharmaceutical products (1) in particular, hard gelatin capsules, by means of a radiation source (11) preferably designed as an X-ray source, comprising a storage device (13) which receives the products (1) in an uncontrolled manner, and from which the products (1) are transferred to a transport element (15) in which the products (1) are arranged such that they form at least one row. The products (1) are transported in a clocked manner in the radiation area (25) of the radiation source (11) which exposes the products (1) to radiation, preferably perpendicular to the longitudinal direction thereof. A first stopping device (20) for separating the products (1) in the row is arranged upstream of the radiation source (11) in the direction of transportation (18) of the products (1), and at least one sensor element (28, 28a) coupled to an evaluation device (30) captures the radiation which passed through the products (1). According to the invention, at least two products (1) are separated from the row by means of the first stopping device (20) and are simultaneously positioned in the radiation area (25) and the image of the product (1) is captured by means of the at least one sensor element (28; 28a).
摘要:
The invention relates to a device (10; 10a;10b; 10c; 50) for checking pharmaceutical products (1), in particular hard gelatin capsules, by means of at least one radiation source (30; 60) preferably embodied as an X-ray source, and a conveying device which conveys the products (1) in a clocked manner in a radiation area (31) of the radiation source (30; 60). The radiation emitted by the radiation source (30; 60) penetrating the products (1) preferably perpendicular to the longitudinal axes thereof (2), and the radiation is captured on the side of the products (1) opposite the radiation source (30) by means of at least one sensor element (35) which is coupled to an evaluation device (36). The invention is characterized in that the conveyor device is embodied as a conveyor wheel (15; 15a; 51) which can rotate in a stepped manner about an axis (12; 52), and the products (1) are arranged, while being conveyed in the radiation area (31), in receiving areas (28; 37; 56) of the conveyor wheel (15; 5a; 51).
摘要:
The invention relates to a device (10; 10a;10b; 10c; 50) for checking pharmaceutical products (1), in particular hard gelatin capsules, by means of at least one radiation source (30; 60) preferably embodied as an X-ray source, and a conveying device which conveys the products (1) in a clocked manner in a radiation area (31) of the radiation source (30; 60). The radiation emitted by the radiation source (30; 60) penetrating the products (1) preferably perpendicular to the longitudinal axes thereof (2), and the radiation is captured on the side of the products (1) opposite the radiation source (30) by means of at least one sensor element (35) which is coupled to an evaluation device (36). The invention is characterised in that the conveyor device is embodied as a conveyor wheel (15; 15a; 51) which can rotate in a stepped manner about an axis (12; 52), and the products (1) are arranged, whilst being conveyed in the radiation area (31), in receiving areas (28; 37; 56) of the conveyor wheel (15; 5a; 51).
摘要:
A method for generating a mutein of human apolipoprotein D having detectable affinity to a given non-natural ligand of apolipoprotein D is disclosed, which comprises the steps of: (a) subjecting the apolipoprotein D to mutagenesis at the sequence positions 34 to 38, 60, 62 to 66, 68, 89 to 93, 115, 117 to 121, and 123 resulting in a plurality of muteins of apolipoprotein D; and (b) enriching resulting muteins having binding affinity for a given ligand from the plurality of muteins by selection, and/or isolating said mutein. Muteins of apolipoprotein D obtainable by this method are also disclosed.
摘要:
The invention relates to a sensor device (30; 30a; 30b; 30c) for a packaging machine (100) designed as a capsule filling and sealing machine or for a capsule control device (100a), said device having a positioning element (35; 35a) for positioning a container (c) having a longitudinal axis (15) and filled with a filling material in the region of the sensor device (30; 30a; 30b; 30c) and at least one radiation source (31; 31 a; 3 b) and at least one detector (40; 40a; 40b) for detecting the radiation after said radiation radiates through the container (c). According to the invention, the at least one radiation source (31; 31a; 31b) radiates through the container (c) perpendicular to the longitudinal axis (15) thereof and the positioning element is designed as a tubular or shaft-shaped conveying element (35; 35a) which can be penetrated by the radiation in a radiation cone (38) of the radiation source (31; 31a; 31b).
摘要:
Method and machine for producing a fiber web having a mass per unit area of less than 125 g/m2. The method includes applying a fluid application medium to the fibrous web. The fluid application medium being a liquid having a solids concentration of 15% or more. The machine for producing a fiber web includes a press section having at least one press nip and at least one application device structured and arranged to apply a liquid medium to one side of the fiber web at least one of immediately before the at least one press nip and in the at least one press nip. This abstract is not intended to define the invention disclosed in the specification, nor intended to limit the scope of the invention in any way.
摘要翻译:用于生产每单位面积质量小于125g / m 2的纤维网的方法和机器。 该方法包括向纤维网施加流体应用介质。 流体应用介质是固体浓度为15%以上的液体。 用于生产纤维幅材的机器包括具有至少一个压榨压区的压榨部分和至少一个施加装置,所述至少一个施加装置构造和布置成将液体介质施加到纤维幅材的一侧, 并且在至少一个压榨压区中。 该摘要并不旨在限定说明书中公开的发明,也不旨在以任何方式限制本发明的范围。