Nanosecond pulsed laser texturing of optical diffusers

Alqurashi, Tawfiq; Sabouri, Aydin; Yetisen, Ali K.; Butt, Haider

doi:10.1063/1.4977743

Cited by 14 publications

(9 citation statements)

References 20 publications

(22 reference statements)

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“… 3 – 5 The most widely used surface-relief structures include microlenses, 6 pyramids, 7 and textured surfaces. 8 , 9 Applications of these types of diffusers can be found in filament lamps, 10 LEDs 11 and fiber optics. 12 Fabrication of textured surfaces through femtosecond (FS) laser ablation is a rapidly growing area of interest.…”

Section: Introductionmentioning

confidence: 99%

Femtosecond laser directed fabrication of optical diffusers

et al. 2017

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Section: Introductionmentioning

confidence: 99%

Femtosecond laser directed fabrication of optical diffusers

et al. 2017

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“…These hydrophilic devices may spread water across their surface to maximize contact based on the Wenzel model (θ < 90°) while hydrophobic devices that naturally repel water and form droplets are defined by the Cassie-Baxter model (90° > θ < 150°) [57]. The hydrophilicity of transparent devices can have a significant impact on the optical and electrical performance in a wide range of applications including selfcleaning [58,59], anti-fouling [60], anti-corrosion [61], anti-fogging [62], icephobicity [63], and drag reduction properties [64,65]. FS lasers can be employed not only to fabricate microphotonic devices but also modify the surface wettability resistance simultaneously, while this will require multisteps in other fabrication techniques [49].…”

Section: Optical Wettability Resistance Of Microphotonic Structuresmentioning

confidence: 99%

Femtosecond laser ablation of transparent microphotonic devices and computer-generated holograms

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Femtosecond laser ablation allows direct patterning of engineering materials in industrial settings without requiring multistage processes such as photolithography or electron beam lithography. However, femtosecond lasers have not been widely used to construct volumetric microphotonic devices and holograms with high reliability and cost efficiency. Here, a direct femtosecond laser writing process is developed to rapidly produce transmission 1D/2D gratings, Fresnel Zone Plate lenses, and computer-generated holograms. The optical properties including light transmission, angle-dependent resolution, and light polarization effects for the microphotonic devices have been characterized. Varying the depth of the microgratings from 400 nm to 1.5 μm allowed the control over their transmission intensity profile. The optical properties of the 1D/2D gratings were validated through a geometrical theory of diffraction model involving 2D phase modulation. The produced Fresnel lenses had transmission efficiency of ∼60% at normal incidence and they preserved the polarization of incident light. The computer-generated holograms had an average transmission efficiency of 35% over the visible spectrum. These microphotonic devices had wettability resistance of contact angle ranging from 44° to 125°. These devices can be used in a variety of applications including wavelength-selective filters, dynamic displays, fiber optics, and biomedical devices.

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“…The advanced diffusion capability of a new class of diffusers makes them suitable for most applications that require mechanically stretchable diffusers including flexible OLEDs and wearable strain sensors. Unlike the rigid diffusers, ,, these stretchable diffusers tune the distribution of light based on mechanically applied strain, while the recently developed diffuser as a sensor controls the light diffraction only based on a swelling behavior of hydrogel from chemicals . However, it has limited control over the light distribution pattern, generally making only linear patterns, but it is still suitable for both uniaxial and biaxial applied strains.…”

Section: Resultsmentioning

confidence: 99%

Highly Flexible, Stretchable, and Tunable Optical Diffusers with Mechanically Switchable Wettability Surfaces

Alqurashi

Butt

2019

ACS Cent. Sci.

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Highly stretchable and super-hydrophobic photonics provides a new geometric degree of freedom for photonic system design and self-cleaning applications. Here, we describe the design and experimental realization of mechanically stretchable and tunable photonic diffusers. These intrinsically designed diffusers (based on periodic arrays of cylindrical lenslets and microtip) were made directly on elastomer material using laser ablation. The dimensions of both the tips and the lenslet arrays play a critical role in the distribution of illumination and wettability resistance. By stretching the diffusers mechanically along the lenslet arrays, diffusion angle tuning was achieved and also a reversible change between hydrophilic to super-hydrophobic states. These multifunctional diffusers constitute an important step toward integration with flexible materials or devices such as stretchable organic light-emitting diodes and polymer light-emitting diodes.

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Nanosecond pulsed laser texturing of optical diffusers

Cited by 14 publications

References 20 publications

Femtosecond laser directed fabrication of optical diffusers

Femtosecond laser directed fabrication of optical diffusers

Femtosecond laser ablation of transparent microphotonic devices and computer-generated holograms

Highly Flexible, Stretchable, and Tunable Optical Diffusers with Mechanically Switchable Wettability Surfaces

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