Large Block Copolymer Self-Assembly for Fabrication of Subwavelength Nanostructures for Applications in Optics

Mokarian‐Tabari, Parvaneh; Senthamaraikannan, Ramsankar; Glynn, Colm; Collins, Timothy W.; Cummins, Cian; Nugent, David; O’Dwyer, Colm; Morris, Michael A.

doi:10.1021/acs.nanolett.7b00226

Cited by 79 publications

(99 citation statements)

References 30 publications

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“…The possibility of large area self-assembly was also explored since BCP lithography would be ideal for engineering materials with new surface properties. Subwavelength BCP patterns have been already used to produce nanostructured antireflective coatings 17 and anisotropic refractive index metamaterials. 19 So far, we have managed to optimize the whole BCP self-assembly and SVA process for quarter pieces of 2-inch Si wafers.…”

Section: Soft Matter Papermentioning

confidence: 99%

“…[7][8][9] Considerable effort has been put into directing the self-assembly (DSA) of low molecular weight BCPs into sub-10 nm sized structures for semiconductor industry applications including high-density memory devices, 10,11 integrated circuit layouts, 12,13 and most recently, Fin field-effect transistors (FinFETs). 14 High molecular weight BCPs have found their uses in applications where dense patterning and large-area coverage is needed such as in filtration membranes, 15 antireflective coatings, 16,17 and optical metamaterials. 18,19 For application purposes, the main challenges of BCP-based nanofabrication have been related to self-assembly; control of the pattern features and minimization of defects.…”

Section: Introductionmentioning

confidence: 99%

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Automated solvent vapor annealing with nanometer scale control of film swelling for block copolymer thin films

2019

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Molecular self-assembly of block copolymers has been pursued as a next generation high-resolution, low-cost lithography technique. Solvent vapor annealing is a promising way of achieving self-assembled patterns from polymers with high interaction parameters, w, or high molecular weights. Compared to thermal annealing, the assembly in a solvated state can be much faster, but the film swelling process is typically challenging to control and reproduce. We report the design and implementation of an automated solvent annealing system that addresses these issues. In this system the film swelling is controlled via local heating or cooling, which enables exceptionally fast and precise modulation of the swelling. The swelling of the polymer films follows preprogrammed annealing profiles with the help of a feedback loop that compares and tunes the film thickness with respect to the set point. The system therefore enables complex annealing profiles such as rapid cyclic swelling and deswelling. We show that the orientation of the pattern morphology and the amount of lattice defects are influenced by the used annealing profile. We demonstrate that optimized profiles significantly shorten the annealing time (o15 min) of high-w and high-molecular weight poly(styrene-b-2-vinylpyridine).

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Section: Soft Matter Papermentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Automated solvent vapor annealing with nanometer scale control of film swelling for block copolymer thin films

2019

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“…Munday et al (at the University of Maryland) deposited SiO 2 nanospheres on the surface of semiconductor materials to improve the efficiency of semiconductor light absorption by approximately 15%-20% [19]. Mokariantabari et al, using block copolymers as a template, decreased the reflection on silicon substrates to below 0.2% at lower angles of incidence (AOIs), and below 2% at higher AOIs [20]. In addition, with the development of advanced and alternate fabrication structures [21,22], efforts to increase the AR performance have led to the development of moth-eye structures with various morphologies, such as cylindrical, conical, and spherical pits, and pyramidal structures [23,24].…”

Section: Introductionmentioning

confidence: 99%

Design and Fabrication of Moth-Eye Subwavelength Structure with a Waist on Silicon for Broadband and Wide-Angle Anti-Reflection Property

et al. 2018

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Reflection loss on the optical component surface is detrimental to performance. Several researchers have discovered that the eyes of moths are covered with micro- and nanostructured films that reduce broadband and wide-angle light reflection. This research proposes a new type of moth-eye subwavelength structure with a waist, which is equivalent to a gradient refractive index film layer with high–low–high hyperbolic-type fill factor distribution. The diffraction order characteristics of a moth-eye subwavelength structure are first analyzed using a rigorous coupled wave analysis. The moth-eye structural parameters are optimized within the spectral range of 2–5 μm using the finite-difference time-domain method. The experimental fabrication of the moth-eye structure with a waist array upon a silicon substrate is demonstrated by using three-beam laser interferometric lithography and an inductively coupled plasma process. The experimental and simulation results show good agreement. The experimental results show that the reflectivity of the moth-eye structure with a waist is less than 1.3% when the incidence angle is less than 30°, and less than 4% when the incidence angle is less than 60°. This research can guide the development of AR broadband optical components and wide-angle applications.

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“…Periodic structures of nanometer length scale formed by ordered block copolymer (BCP) thin films constitute a versatile platform to provide significant development in many technological applications such as data storage, lithography, nanostructured membranes, sensors, photonics, and solar cells . In all the aforementioned fields, the BCP ordering pathways can be tailored to achieve a multitude of nanostructures with the desirable orientation and periodicity.…”

mentioning

confidence: 99%

“…nanostructured membranes, [8][9][10] sensors, [11] photonics, [12][13][14] and solar cells. [15,16] In all the aforementioned fields, the BCP ordering pathways can be tailored to achieve a multitude of nanostructures with the desirable orientation and periodicity.…”

mentioning

confidence: 99%

Micellar‐Mediated Block Copolymer Ordering Dynamics Revealed by In Situ Grazing Incidence Small‐Angle X‐Ray Scattering during Spin Coating

Fleury

Hermida‐Merino

Dong

et al. 2019

Adv Funct Materials

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Spin coating is one of the most versatile methods to generate nanostructured block copolymer (BCP) thin films which are highly desired for many applications such as nanolithography or organic electronics. The self‐assembly pathways through phase separation, both in solvent and in bulk, strongly influence the final BCP structure obtained after spin coating. As a demonstration, the formation of highly ordered in‐plane lamellae is elucidated herein by using in situ grazing incidence small‐angle X‐ray scattering. A key step in this complex fast organization process is the formation of intermediate micellar phases triggered by solvent affinity toward one of the block. Indeed, directional coalescence of a short‐lived intermediate hexagonal structure of cylindrical micelles enables the development of a final highly ordered lamellar structure, predominantly oriented parallel to the substrate surface. These results suggest that the existence of such transient micellar phases is a crucial process in order to produce highly ordered structures with a specific orientation directly after the BCP thin film deposition; and should be the focus of further optimization for the directed self‐assembly and, more generally, in the bottom‐up nanostructure fabrication.

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Large Block Copolymer Self-Assembly for Fabrication of Subwavelength Nanostructures for Applications in Optics

Cited by 79 publications

References 30 publications

Automated solvent vapor annealing with nanometer scale control of film swelling for block copolymer thin films

Automated solvent vapor annealing with nanometer scale control of film swelling for block copolymer thin films

Design and Fabrication of Moth-Eye Subwavelength Structure with a Waist on Silicon for Broadband and Wide-Angle Anti-Reflection Property

Micellar‐Mediated Block Copolymer Ordering Dynamics Revealed by In Situ Grazing Incidence Small‐Angle X‐Ray Scattering during Spin Coating

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