Abstract: The invention relates to a method for activating a photocatalytically active, for example titanium-dioxide-containing, outer layer (13; 23) deposited on a composite, by means of at least one element (14; 24) generating a radiation, for example for generating ultraviolet radiation. The following method steps are comprised here: •a) forming the at least one radiation-generating first element (14; 24) within the composite; •b) forming at least one sensor (16; 26) within the composite; •c) recording an actual value of a physical variable characterizing luminous radiation by means of the at least one sensor (16; 26), wherein the luminous radiation is emitted by a light-generating second element (15; 25); •d) comparing the recorded actual value with a first threshold value within an evaluation device and switching on the at least one radiation-generating first element (14; 24) if the actual value is below or above the first threshold value.

Abstract: The present invention relates to a method for irradiating a population of mammalian cells comprising at least one target mammalian cell with electron beams and/or X-rays, characterized in that: (i) a composition comprising a population of mammalian cells is irradiated in vitro with electron beams and/or X-rays, the population of mammalian cells containing at least one target mammalian cell and the dose rate being within the range from 5 Gy/sec to 107 Gy/sec, and (ii) optionally viable target mammalian cells are isolated or enriched from the population of mammalian cells, and to agents obtainable thereby and to uses thereof.

Abstract: A method may be provided for inactivating biologically active components in a liquid using low-energy electrons generated by an electron source, the electrons having an acceleration voltage of 25 keV to 300 keV. The method comprises the following steps: a) filling a vessel with a liquid volume; b) applying low-energy electrons to a first partial volume of the liquid filled into the vessel, wherein the first partial volume is a maximum of 10% of the liquid volume in the vessel; c) mixing the first partial volume of the liquid, applied with the low-energy electrons, to the second partial liquid volume in the vessel, which has not been applied with low-energy electrons; d) repeating steps b) and c) several times.

Abstract: A method may be provided for stimulating the growth of a biomass, which is mixed with a liquid inside a bioreactor, by means of ionising radiation. The following method steps are used: a) exposing a first partial volume of the liquid in the bioreactor to ionising radiation, the first partial volume comprising at most 10% of the liquid volume in the bioreactor; b) mixing the first partial liquid volume, which has been exposed to ionising radiation, with the second partial liquid volume, which has not been exposed to ionising radiation, in the bioreactor; c) repeating method steps a) and b) multiple times, each partial volume of the liquid in the bioreactor being exposed to a total radiation dose of at most 50 Gy on statistical average.

Abstract: Methods and Apparatus are provided for irradiating a liquid with accelerated electrons. The liquid is prepared. The liquid is mixed with particles having at least one luminescent substance, where the particles are formed such that the particles are dispersed in the liquid after mixing. The liquid is irradiated with an electromagnetic radiation, which induces the at least one luminescent substance to luminesce. An actual value of a physical quantity characterizing the luminescence of the luminescent substance is detected. The liquid is irradiated with accelerated electrons until the detected actual value corresponds to a target value.

Abstract: The present invention relates to a method for irradiating a population of mammalian cells comprising at least one target mammalian cell with electron beams and/or X-rays, characterized in that: (i) a composition comprising a population of mammalian cells is irradiated in vitro with electron beams and/or X-rays, the population of mammalian cells containing at least one target mammalian cell and the dose rate being within the range from 5 Gy/sec to 107 Gy/sec, and (ii) optionally viable target mammalian cells are isolated or enriched from the population of mammalian cells, and to agents obtainable thereby and to uses thereof.

Abstract: A method for preparing a transplant obtained from animal or human tissue is provided. The transplant is first deposited in a first liquid that comprises at least one substance that initiates and/or activates collagen cross-linking. After removing the transplant from the first liquid, the transplant, now moistened with said first liquid, is exposed to ultraviolet radiation and then to accelerated low-energy electrons.

Abstract: Methods and Apparatus are provided for irradiating a liquid with accelerated electrons. The liquid is prepared. The liquid is mixed with particles having at least one luminescent substance, where the particles are formed such that the particles are dispersed in the liquid after mixing. The liquid is irradiated with an electromagnetic radiation, which induces the at least one luminescent substance to luminesce. An actual value of a physical quantity characterizing the luminescence of the luminescent substance is detected. The liquid is irradiated with accelerated electrons until the detected actual value corresponds to a target value.