High resolution magnetic force microscopy of patterned L1<sub>0</sub>-FePt dot arrays by nanosphere lithography

Zhong, Hai; Tarrach, G.; Wu, Peiyi; Drechsler, Andreas; Wei, Dan; Yuan, Jun

doi:10.1088/0957-4484/19/9/095703

Cited by 18 publications

(10 citation statements)

References 24 publications

(40 reference statements)

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“…Another important area of the NSL is the design of ordered nanostructures for ultrahigh density magnetic recording [69,[91][92][93]. Compared with conventional techniques for fabricating magnetic ordered nanostructures, NSL is inexpensive and allows high-output fabrication.…”

Section: Applications Of Nslmentioning

confidence: 99%

Nanosphere Lithography: A Powerful Method for the Controlled Manufacturing of Nanomaterials

Colson

Henrist

Cloots

2013

Journal of Nanomaterials

224

164

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The never-ending race towards miniaturization of devices induced an intense research in the manufacturing processes of the components of those devices. However, the complexity of the process combined with high equipment costs makes the conventional lithographic techniques unfavorable for many researchers. Through years, nanosphere lithography (NSL) attracted growing interest due to its compatibility with wafer-scale processes as well as its potential to manufacture a wide variety of homogeneous one-, two-, or three-dimensional nanostructures. This method combines the advantages of both top-down and bottom-up approaches and is based on a two-step process: (1) the preparation of a colloidal crystal mask (CCM) made of nanospheres and (2) the deposition of the desired material through the mask. The mask is then removed and the layer keeps the ordered patterning of the mask interstices. Many groups have been working to improve the quality of the CCMs. Throughout this review, we compare the major deposition techniques to manufacture the CCMs (focusing on 2D polystyrene nanospheres lattices), with respect to their advantages and drawbacks. In traditional NSL, the pattern is usually limited to triangular structures. However, new strategies have been developed to build up more complex architectures and will also be discussed.

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Section: Applications Of Nslmentioning

confidence: 99%

Nanosphere Lithography: A Powerful Method for the Controlled Manufacturing of Nanomaterials

Colson

Henrist

Cloots

2013

Journal of Nanomaterials

224

164

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“…A facile route towards such microstructures is to exploit other materials as templates of model nanostructures via a "bottom-up", low-cost approach. Monodisperse nanosphere single-layers that tend to form 2D-hexagonal close packed patterns can be utilized either as templates for the deposition of "nanocaps" or as masks for the formation of triangular-like islands [1][2][3][4].…”

Section: Introductionmentioning

confidence: 99%

“…The underlying mechanisms of spontaneous nanosphere organization involve the formation of small aggregates of nanoparticles into larger structures, under the influence of capillary particle-particle, particle-substrate, and hydrodynamic forces [2][3][4][5][6][7]. Recently, Chandramohan et al [8] developed a spin-coating method for the successful self-assembly of NPs with respect to hexagonal packing density and large area surface coverage.…”

Section: Introductionmentioning

confidence: 99%

Self-Assembly Magnetic Micro- and Nanospheres and the Effect of Applied Magnetic Fields

2021

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The impact of in-plane and perpendicular magnetic fields on the spatial arrangement of superparamagnetic nanospheres is explored. We utilize nanosphere self-organization methods like Spin Coating and Drop-Casting in the presence of magnetic fields. In this way, the additional parameter of the long range magnetic dipolar interactions is introduced to the competing nanosphere–surface and nanosphere–nanosphere interactions, which control order and agglomeration. We present a comparative analysis of the self-assembly characteristics with respect to the different methods and the effect of the applied field in different directions. Under zero field perfect hexagonal arrays can be obtained by spin coating. Parallel applied fields tend to create directional patterns, while perpendicular favor 3D-accumulation.

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“…Один из перспективных способов создания хорошо повторяемых микрочастиц состоит в использовании одинаковых микросфер для литографического процесса. Суспензия микросфер определенной концентрации, наносимая на специально подготовленную подложку, за счет самосборки может выстроиться в регулярный плотноупакованный монослой, который служит литографической маской [9,10].…”

Section: Introductionunclassified

Распределение Намагниченности В Частицах С Конфигурационной Анизотропией, Полученных Методом Микросферной Литографии

Бизяев¹,

Бухараев²,

Нургазизов³

et al. 2019

Журнал Технической Физики

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The arrays of permalloy micron-sized particles with configurational anisotropy of shape was made by microsphere lithography technique. The properties of the particles were studied by atomic-force microscopy and magnetic-force microscopy. The magnetization distribution in particles was studied depending on the size of microspheres used in lithography process. The computer simulation of magnetic-force images of the particles was carried out. The quantitative and qualitative comparisons of shapes, sizes and reproducibility of particles fabricated by microsphere lithography and scanning probe lithography was performed.

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High resolution magnetic force microscopy of patterned L1₀-FePt dot arrays by nanosphere lithography

Cited by 18 publications

References 24 publications

Nanosphere Lithography: A Powerful Method for the Controlled Manufacturing of Nanomaterials

Nanosphere Lithography: A Powerful Method for the Controlled Manufacturing of Nanomaterials

Self-Assembly Magnetic Micro- and Nanospheres and the Effect of Applied Magnetic Fields

Распределение Намагниченности В Частицах С Конфигурационной Анизотропией, Полученных Методом Микросферной Литографии

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High resolution magnetic force microscopy of patterned L10-FePt dot arrays by nanosphere lithography

Cited by 18 publications

References 24 publications

Nanosphere Lithography: A Powerful Method for the Controlled Manufacturing of Nanomaterials

Nanosphere Lithography: A Powerful Method for the Controlled Manufacturing of Nanomaterials

Self-Assembly Magnetic Micro- and Nanospheres and the Effect of Applied Magnetic Fields

Распределение Намагниченности В Частицах С Конфигурационной Анизотропией, Полученных Методом Микросферной Литографии

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High resolution magnetic force microscopy of patterned L1₀-FePt dot arrays by nanosphere lithography