Dominic T. Meiers scite author profile

Dominic T. Meiers

4Publications

30Citation Statements Received

242Citation Statements Given

How they've been cited

How they cite others

159

242

Affiliations

Rheinmetall (Switzerland), University of Kaiserslautern

Publications

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Invited Article: Bragg stacks with tailored disorder create brilliant whiteness

Meiers

Heep

Freymann

2018

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The scales of white beetles strongly scatter light within a thin disordered network of chitin filaments. There is no comparable artificial material achieving such a high scattering strength within a thin layer of low refractive index material. Several analyses investigated the scattering but could not explain the underlying concept. Here a model system is described, which has the same optical properties as the white beetles’ scales in the visible wavelength range. With some modification, it also explains the behavior of the structures in the near infrared range. The comparison of the original structure and the model system is done by finite-difference time-domain calculations. The calculations show excellent agreement with the beetles’ scales with respect to the reflectance, the time-of-flight, and the intensity distribution in the far-field.

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Initiator-free photo-cross-linkable cellulose-based resists for fabricating submicron patterns via direct laser writing

et al. 2023

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Novel bifunctional cellulose diacetate derivatives were synthesized in order to achieve bio-based photoresists, which can be structured by two-photon absorption via direct laser writing (DLW) without the need to use a photoinitiator. Therefore, cellulose diacetate is functionalized with thiol moieties and olefinic or methacrylic side groups enabling thiol-conjugated cross-linking. These cellulose derivatives are also photo-cross-linkable via UV irradiation (λ=254nm and 365 nm) without using an initiator.

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Utilizing the Sensitization Effect for Direct Laser Writing in a Novel Photoresist Based on the Chitin Monomer N‐acetyl‐D‐glucosamine

Meiers¹,

Rothammer

Maier

et al. 2023

Adv Eng Mater

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Weak Localization Enhanced Ultrathin Scattering Media

Pompe

Meiers

Pfeiffer

et al. 2022

Advanced Optical Materials

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Dominic T. Meiers

Invited Article: Bragg stacks with tailored disorder create brilliant whiteness

Initiator-free photo-cross-linkable cellulose-based resists for fabricating submicron patterns via direct laser writing

Utilizing the Sensitization Effect for Direct Laser Writing in a Novel Photoresist Based on the Chitin Monomer N‐acetyl‐D‐glucosamine

Weak Localization Enhanced Ultrathin Scattering Media

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