Angela De Rose scite author profile

Angela De Rose

5Publications

81Citation Statements Received

95Citation Statements Given

How they've been cited

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Affiliations

Fraunhofer Institute for Solar Energy Systems, RWTH Aachen University, University of Freiburg

Publications

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Advanced Optical Programming of Individual Meta‐Atoms Beyond the Effective Medium Approach

et al. 2019

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Nanometer‐thick active metasurfaces (MSs) based on phase‐change materials (PCMs) enable compact photonic components, offering adjustable functionalities for the manipulation of light, such as polarization filtering, lensing, and beam steering. Commonly, they feature multiple operation states by switching the whole PCM fully between two states of drastically different optical properties. Intermediate states of the PCM are also exploited to obtain gradual resonance shifts, which are usually uniform over the whole MS and described by effective medium response. For programmable MSs, however, the ability to selectively address and switch the PCM in individual meta‐atoms is required. Here, simultaneous control of size, position, and crystallization depth of the switched phase‐change material (PCM) volume within each meta‐atom in a proof‐of‐principle MS consisting of a PCM‐covered Al–nanorod antenna array is demonstrated. By modifying optical properties locally, amplitude and light phase can be programmed at the meta‐atom scale. As this goes beyond previous effective medium concepts, it will enable small adaptive corrections to external aberrations and fabrication errors or multiple complex functionalities programmable on the same MS.

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Module interconnection technologies

Schulte‐Huxel

Kraft

Roessler

et al. 2021

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Laser Metal Bonding (LMB) - low impact joining of thin aluminum foil to silicon and silicon nitride surfaces

et al. 2020

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FlexTrail Printing as Direct Metallization with Low Silver Consumption for Silicon Heterojunction Solar Cells: Evaluation of Solar Cell and Module Performance

et al. 2022

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FlexTrail printing has been invented and developed for (fine‐line) printing of various fluids, e.g., particle‐based metal‐containing fluids, etchants, and liquid‐phase pyrophoric media. Compared to other printing techniques, FlexTrail is highly independent of the fluids’ viscosity. Using this printing approach, feature sizes of 10 μm and below are reached. This work utilizes FlexTrail as a direct metallization method for printing of silver‐nanoparticle‐based front electrodes on busbarless silicon heterojunction (SHJ) solar cells. Thereby, only (9.4 ± 0.9) mg of silver is consumed for printing of a busbarless front grid, which exhibits 80 contact fingers of 156 mm in length. This means a silver reduction of more than 60% compared to screen printing. Solar cells with M2+ wafer size and FlexTrail‐printed front grids reach conversion efficiencies of up to (22.87 ± 0.01)%, which is similar to screen‐printed reference cells. To further demonstrate the practicability of FlexTrail metallization beyond cell level, a FlexTrail‐printed SHJ cell is further processed into a 200 mm × 200 mm‐sized one‐cell module applying SmartWire Connection Technology for interconnection. This module exhibits a maximum power of (5.0 ± 0.1) W, underlining the great potential of FlexTrail printing for the metallization of high‐power SHJ devices with significant silver reduction.

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Fast screen printing and curing process for silicon heterojunction solar cells

Erath

Pingel

Khotimah

et al. 2021

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Angela De Rose

Advanced Optical Programming of Individual Meta‐Atoms Beyond the Effective Medium Approach

Module interconnection technologies

Laser Metal Bonding (LMB) - low impact joining of thin aluminum foil to silicon and silicon nitride surfaces

FlexTrail Printing as Direct Metallization with Low Silver Consumption for Silicon Heterojunction Solar Cells: Evaluation of Solar Cell and Module Performance

Fast screen printing and curing process for silicon heterojunction solar cells

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