Stencil lithography is a novel method of fabricating nanometer scale patterns using nanostencils,

stencil Stencilling produces an image or pattern on a surface, by applying pigment to a surface through an intermediate object, with designed holes in the intermediate object, to create a pattern or image on a surface, by allowing the pigment to reach ...

s (shadow mask) with nanometer size

apertures In optics, an aperture is a hole or an opening through which light travels. More specifically, the aperture and focal length of an optical system determine the cone angle of a bundle of rays that come to a focus in the image plane. An ...

. It is a resist-less, simple, parallel

nanolithography Nanolithography (NL) is a growing field of techniques within nanotechnology dealing with the engineering (patterning e.g. etching, depositing, writing, printing etc) of nanometer-scale structures on various materials. The modern term reflects on ...

process, and it does not involve any heat or chemical treatment of the substrates (unlike

resist A resist, used in many areas of manufacturing and art, is something that is added to parts of an object to create a pattern by protecting these parts from being affected by a subsequent stage in the process. Often the resist is then removed. For ...

-based techniques).

History

Stencil lithography was first reported in a scientific journal as a micro-structuring technique by S. Gray and P. K. Weimer in 1959. They used long stretched metallic wires as shadow masks during metal deposition. Various materials can be used as membranes, such as metals, Si, Si_xN_y, and polymers. Today the stencil apertures can be scaled down to sub-micrometer size at full 4" wafer scale. This is called a nanostencil. Nano-scale stencil apertures have been fabricated using laser

interference lithography Interference lithography (or holographic lithography) is a technique for patterning regular arrays of fine features, without the use of complex optical systems or photomasks. Basic principle The basic principle is the same as in interferometry or ...

(LIL),

electron beam lithography Electron-beam lithography (often abbreviated as e-beam lithography, EBL) is the practice of scanning a focused beam of electrons to draw custom shapes on a surface covered with an electron-sensitive film called a resist (exposing). The electron b ...

, and

focused ion beam Focused ion beam, also known as FIB, is a technique used particularly in the semiconductor industry, materials science and increasingly in the biological field for site-specific analysis, deposition, and ablation of materials. A FIB setup is a s ...

lithography.

Processes

Several process are available using stencil lithography: material deposition and etching, as well as implantation of ions. Different stencil requirements are necessary for the various processes, e. g. an extra etch-resistant layer on the backside of the stencil for etching (if the membrane material is sensitive to the etching process) or a conductive layer on the backside of the stencil for ion implantation.

Deposition

The main deposition method used with stencil lithography is

physical vapor deposition Physical vapor deposition (PVD), sometimes called physical vapor transport (PVT), describes a variety of vacuum deposition methods which can be used to produce thin films and coatings on substrates including metals, ceramics, glass, and polym ...

. This includes thermal and

electron beam physical vapor deposition Electron-beam physical vapor deposition, or EBPVD, is a form of physical vapor deposition in which a target anode is bombarded with an electron beam given off by a charged tungsten filament under high vacuum. The electron beam causes atoms from the ...

molecular beam epitaxy Molecular-beam epitaxy (MBE) is an epitaxy method for thin-film deposition of single crystals. MBE is widely used in the manufacture of semiconductor devices, including transistors, and it is considered one of the fundamental tools for the devel ...

sputtering In physics, sputtering is a phenomenon in which microscopic particles of a solid material are ejected from its surface, after the material is itself bombarded by energetic particles of a plasma or gas. It occurs naturally in outer space, and ca ...

, and

pulsed laser deposition Pulsed laser deposition (PLD) is a physical vapor deposition (PVD) technique where a high-power pulsed laser beam is focused inside a vacuum chamber to strike a target of the material that is to be deposited. This material is vaporized from the t ...

. The more directional the material flux is, the more accurate the pattern is transferred from the stencil to the substrate.

Etching

Reactive ion etching is based on ionized, accelerated particles that etch both chemically and physically the substrate. The stencil in this case is used as a hard mask, protecting the covered regions of the substrate, while allowing the substrate under the stencil apertures to be etched.

Ion implantation

Here the thickness of the membrane has to be greater than the penetration length of the ions in the membrane material. The ions will then implant only under the stencil apertures, into the substrate.

Modes

There are three main modes of operation of stencil lithography: static, quasi-dynamic and dynamic. While all the above described processes have been proven using the static mode (stencil doesn't move relative to substate during material or ion processing), only ion implantation has been shown for the non-static modes (quasi-dynamic).

Static stencil

In the static mode, the stencil is aligned (if necessary) and fixed to a substrate. The stencil-substrate pair is placed in the evaporation/etching/ion implantation machine, and after the processing is done, the stencil is simply removed from the now patterned substrate.

Quasi-dynamic stencil

In the quasi-dynamic mode (or step-and-repeat), the stencil moves relative to the substrate in between depositions, without breaking the vacuum.

Dynamic stencil

In the dynamic mode, the stencil moves relative to the substrate during deposition, allowing the fabrication of patterns with variable height profiles by changing the stencil speed during a constant material deposition rate. For motion in one-dimension, the deposited material has a height profile

h(x)

given by the

convolution In mathematics (in particular, functional analysis), convolution is a operation (mathematics), mathematical operation on two function (mathematics), functions ( and ) that produces a third function (f*g) that expresses how the shape of one is ...

h(x) = c \int t(x')M(x-x')dx'

where

t(x)

is the time the mask resides at longitudinal position

x

, and

c

is the constant deposition rate.

M(x)

represents the height profile that would be produced by a static immobile mask (inclusive of any blurring). Programmable-height nanostructures as small as 10nm can be produced.

Challenges

Despite it being a versatile technique, there are still several challenges to be addressed by stencil lithography. During deposition through the stencil, material is deposited not only on the substrate through the apertures but also on the stencil backside, including around and inside the apertures. This reduces the effective aperture size by an amount proportional to the deposited material, leading ultimately to aperture clogging. The accuracy of the pattern transfer from the stencil to the substrate depends on many parameters. The material diffusion on the substrate (as a function of temperature, material type, evaporation angle) and the geometrical setup of the evaporation are the main factors. Both lead to an enlargement of the initial pattern, called blurring.

References

Series in MICROSYSTEMS Vol. 20: Marc Antonius Friedrich van den Boogaart, "''Stencil lithography: An ancient technique for advanced micro- and nanopatterning''", 2006, VIII, 182 p.;

External links

* http://lmis1.epfl.ch/page-34708-en.html * http://www.advantechus.com/ * http://www.microlitho.com/ {{DEFAULTSORT:Stencil Lithography Lithography (microfabrication)

History

Processes

Deposition

Etching

Ion implantation

Modes

Static stencil

Quasi-dynamic stencil

Dynamic stencil

Challenges

See also

References

External links