3 research outputs found

    Method and apparatus for depositing atomic layers on a substrate

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    \u3cp\u3eMethod of depositing an atomic layer on a substrate. The method comprises supplying a precursor gas from a precursor-gas supply of a deposition head that may be part of a rotatable drum. The precursor gas is provided from the precursor-gas supply towards the substrate. The method further comprises moving the precursor-gas supply by rotating the deposition head along the substrate which in its turn is moved along the rotating drum. The method further comprises switching between supplying the precursor gas from the precursor-gas supply towards the substrate over a first part of the rotation trajectory; and interrupting supplying the precursor gas from the precursor-gas supply over a second part of the rotation trajectory\u3c/p\u3

    Method and apparatus for depositing atomic layers on a substrate

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    Method of depositing an atomic layer on a substrate. The method comprises supplying a precursor gas from a precursor-gas supply of a deposition head that may be part of a rotatable drum. The precursor gas is provided from the precursor-gas supply towards the substrate. The method further comprises moving the precursor-gas supply by rotating the deposition head along the substrate which in its turn is moved along the rotating drum. The method further comprises switching between supplying the precursor gas from the precursor-gas supply towards the substrate over a first part of the rotation trajectory; and interrupting supplying the precursor gas from the precursor-gas supply over a second part of the rotation trajectory

    Equipment for atmospheric, spatial atomic layer deposition in roll-to-roll processes

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    \u3cp\u3eA novel type of reactor has been designed for atmospheric atomic layer deposition (ALD) on flexible substrates. In the reactor, a flexible substrate slowly advances around a fast rotating drum. Gas bearing technology is used to prevent physical contact between the flexible substrate and the drum, and to separate reactants to enable a spatial ALD process. With a substrate speed of 1 m/min and drum rotational speed of 5 Hz, a layer of 100 nm of Al\u3csub\u3e2\u3c/sub\u3eO\u3csub\u3e3\u3c/sub\u3e can be applied in a continuous roll-to-roll process at deposition rates of 1 nm/s. Higher speeds to ∼2 nm/s are foreseen to be possible.\u3c/p\u3
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