Scanning probe lithography (SPL) describes a set of nanolithographic methods to pattern material on the nanoscale using scanning probes. It is a direct-write, mask-less approach which bypasses the diffraction limit and can reach resolutions below 10 nm. It is considered an alternative lithographic technology often used in academic and research environments. The term ''scanning probe lithography'' was coined after the first patterning experiments with scanning probe microscopes (SPM) in the late 1980s.

Classification

The different approaches towards SPL can be classified by their goal to either add or remove material, by the general nature of the process either chemical or physical, or according to the driving mechanisms of the probe-surface interaction used in the patterning process: mechanical, thermal, diffusive and

electrical Electricity is the set of physical phenomena associated with the presence and motion of matter possessing an electric charge. Electricity is related to magnetism, both being part of the phenomenon of electromagnetism, as described by Maxwel ...

Overview

Mechanical/thermo-mechanical

Mechanical scanning probe lithography (m-SPL) is a nanomachining or ''nano-scratching'' top-down approach without the application of heat. Thermo-mechanical SPL applies heat together with a mechanical force, e.g. indenting of polymers in the Millipede memory.

Thermal

Thermal scanning probe lithography (t-SPL) uses a heatable scanning probe in order to efficiently remove material from a surface without the application of significant mechanical forces. The patterning depth can be controlled to create high-resolution 3D structures.

Thermo-chemical

Thermochemical scanning probe lithography (tc-SPL) or ''thermochemical nanolithography'' (TCNL) employs the scanning probe tips to induce thermally activated chemical reactions to change the chemical functionality or the phase of surfaces. Such thermally activated reactions have been shown in

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s, organic semiconductors, electroluminescent conjugated polymers, and nanoribbon resistors. Furthermore, deprotection of

functional group In organic chemistry, a functional group is any substituent or moiety (chemistry), moiety in a molecule that causes the molecule's characteristic chemical reactions. The same functional group will undergo the same or similar chemical reactions r ...

s (sometimes involving a temperature gradients), reduction of oxides, and the crystallization of piezoelectric/ferroelectric ceramics has been demonstrated.

Dip-pen/thermal dip-pen

Dip-pen scanning probe lithography (dp-SPL) or ''dip-pen nanolithography'' (DPN) is a scanning probe lithography technique based on

diffusion Diffusion is the net movement of anything (for example, atoms, ions, molecules, energy) generally from a region of higher concentration to a region of lower concentration. Diffusion is driven by a gradient in Gibbs free energy or chemical p ...

, where the tip is employed to create patterns on a range of substances by deposition of a variety of liquid inks. Thermal dip-pen scanning probe lithography or ''thermal dip-pen nanolithography'' (TDPN) extends the usable inks to solids, which can be deposited in their liquid form when the probes are pre-heated.

Oxidation

Oxidation scanning probe lithography (o-SPL), also called ''local oxidation nanolithography'' (LON), ''scanning probe oxidation, nano-oxidation, local anodic oxidation,'' ''AFM oxidation lithography'' is based on the spatial confinement of an

oxidation Redox ( , , reduction–oxidation or oxidation–reduction) is a type of chemical reaction in which the oxidation states of the reactants change. Oxidation is the loss of electrons or an increase in the oxidation state, while reduction is ...

reaction.

Bias induced

Bias-induced scanning probe lithography (b-SPL) uses the high electrical fields created at the apex of a probe tip when voltages are applied between tip and sample to facilitate and confining a variety of chemical reactions to decompose gases or liquids in order to locally deposit and grow materials on surfaces.

Current induced

In current induced scanning probe lithography (c-SPL) in addition to the high electrical fields of b-SPL, also a focused electron current which emanates from the SPM tip is used to create nanopatterns, e.g. in polymers and molecular glasses.

Magnetic

Various scanning probe techniques have been developed to write

magnetization In classical electromagnetism, magnetization is the vector field that expresses the density of permanent or induced magnetic dipole moments in a magnetic material. Accordingly, physicists and engineers usually define magnetization as the quanti ...

patterns into

ferromagnetic Ferromagnetism is a property of certain materials (such as iron) that results in a significant, observable magnetic permeability, and in many cases, a significant magnetic coercivity, allowing the material to form a permanent magnet. Ferromagne ...

structures which are often described as magnetic SPL techniques. Thermally-assisted magnetic scanning probe lithography (tam-SPL) operates by employing a heatable scanning probe to locally heat and cool regions of an exchange-biased ferromagnetic layer in the presence of an external magnetic field. This causes a shift in the hysteresis loop of exposed regions, pinning the magnetization in a different orientation compared to unexposed regions. The pinned regions become stable even in the presence of external fields after cooling, allowing arbitrary nanopatterns to be written into the magnetization of the ferromagnetic layer. In arrays of interacting ferromagnetic nano-islands such as artificial spin ice, scanning probe techniques have been used to write arbitrary magnetic patterns by locally reversing the magnetization of individual islands. Topological defect-driven magnetic writing (TMW) uses the dipolar field of a magnetized scanning probe to induce topological defects in the magnetization field of individual ferromagnetic islands. These topological defects interact with the island edges and annihilate, leaving the magnetization reversed. Another way of writing such magnetic patterns is field-assisted magnetic force microscopy patterning, where an external magnetic field a little below the switching field of the nano-islands is applied and a magnetized scanning probe is used to locally raise the field strength above that required to reverse the magnetization of selected islands. In magnetic systems where interfacial Dzyaloshinskii–Moriya interactions stabilize magnetic textures known as

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s, scanning-probe magnetic nanolithography has been employed for the direct writing of skyrmions and skyrmion lattices.

Comparison to other lithographic techniques

Being a serial technology, SPL is inherently slower than e.g. photolithography or nanoimprint lithography, while parallelization as required for mass-fabrication is considered a large

systems engineering Systems engineering is an interdisciplinary field of engineering and engineering management that focuses on how to design, integrate, and manage complex systems over their Enterprise life cycle, life cycles. At its core, systems engineering uti ...

effort (''see also Millipede memory''). As for resolution, SPL methods bypass the optical diffraction limit due to their use of scanning probes compared with photolithographic methods. Some probes have integrated in-situ

metrology Metrology is the scientific study of measurement. It establishes a common understanding of Unit of measurement, units, crucial in linking human activities. Modern metrology has its roots in the French Revolution's political motivation to stan ...

capabilities, allowing for feedback control during the write process.
Scanning probe nanolithography system and method (EP2848997 A1) SPL works under Standard temperature and pressure, ambient atmospheric conditions, without the need for ultra high vacuum ( UHV), unlike e-beam or EUV lithography.

References

* {{Nanolith Lithography (microfabrication) Nanotechnology Scanning probe microscopy