Nanoscale Self-Assembly: Nanopatterning and Metrology

Nanoscale Self-Assembly: Nanopatterning and Metrology

The self-assembly process underlies a plethora of natural phenomena from the macro to the nano scale. Often, technological development has found great inspiration in the natural world, as evidenced by numerous fabrication techniques based on self-assembly (SA). One striking example is given by epita...

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Bibliographic Details
Other Authors: Ferrarese Lupi, Federico (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Technology: general issues
block copolymer self-assembly
analytical ultracentrifugation
tannic acid
3D printing
nano-resolution
arbitrary distribution
multimaterials
deposition surface
rapidity
large scale
conjugated polymers
polyfullerenes
processing by convective self-assembly
thin films and microstructure
photoluminescence quenching
block copolymers
self-assembly
polymer interface
nanostructure metrology
line edge roughness LER
(S)TEM
STEM-EELS of PS and PMMA
directed self-assembly
nanospheres lithography
colloidal nanospheres
direct laser-writing
directed self-assembly (DSA)
block copolymers (BCPs)
chemo-epitaxy
polystyrene-block-polymethylmethacrylate (PS-b-PMMA)
line/space patterning
line edge roughness (LER)
line width roughness (LWR)
sequential infiltration synthesis
block copolymer
nanoparticles
colloidal clusters
colloidal molecules
sedimentation
separation
classification of nanoparticles
analytical centrifugation
differential centrifugal sedimentation
disk centrifuge
density gradient centrifugation
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Description
Summary:The self-assembly process underlies a plethora of natural phenomena from the macro to the nano scale. Often, technological development has found great inspiration in the natural world, as evidenced by numerous fabrication techniques based on self-assembly (SA). One striking example is given by epitaxial growths, in which atoms represent the building blocks. In lithography, the use of self-assembling materials is considered an extremely promising patterning option to overcome the size scale limitations imposed by the conventional photolithographic methods. To this purpose, in the last two decades several supramolecular self-assembling materials have been investigated and successfully applied to create patterns at a nanometric scale. Although considerable progress has been made so far in the control of self-assembly processes applied to nanolithography, a number of unresolved problems related to the reproducibility and metrology of the self-assembled features are still open. Addressing these issues is mandatory in order to allow the widespread diffusion of SA materials for applications such as microelectronics, photonics, or biology. In this context, the aim of the present Special Issue is to gather original research papers and comprehensive reviews covering various aspects of the self-assembly processes applied to nanopatterning. Topics include the development of novel SA methods, the realization of nanometric structures and devices, and the improvement of their long-range order. Moreover, metrology issues related to the nanoscale characterization of self-assembled structures are addressed.
Physical Description:1 electronic resource (124 p.)
ISBN:books978-3-0365-1960-9
9783036519616
9783036519609
Access:Open Access

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