Microcontact printing (or μCP) is a form of

soft lithography In technology, soft lithography is a family of techniques for fabricating or replicating structures using "elastomeric stamps, molds, and conformable photomasks". It is called "soft" because it uses elastomeric materials, most notably PDMS. So ...

that uses the relief patterns on a master polydimethylsiloxane (PDMS) stamp or Urethane rubber micro stamp to form patterns of self-assembled monolayers (SAMs) of ink on the surface of a

substrate Substrate may refer to: Physical layers *Substrate (biology), the natural environment in which an organism lives, or the surface or medium on which an organism grows or is attached ** Substrate (locomotion), the surface over which an organism lo ...

through conformal contact as in the case of

nanotransfer printing Nanotransfer printing (nTP) (compare with microcontact printing) is a purely additive and high resolution metal printing technique. It mainly relies on the principle of surface chemistry - chemically modified surfaces act as interfacial "release" o ...

(nTP). Its applications are wide-ranging including microelectronics, surface chemistry and

cell biology Cell biology (also cellular biology or cytology) is a branch of biology that studies the structure, function, and behavior of cells. All living organisms are made of cells. A cell is the basic unit of life that is responsible for the living and ...

History

Both lithography and stamp printing have been around for centuries. However, the combination of the two gave rise to the method of microcontact printing. The method was first introduced by George M. Whitesides and Amit Kumar at Harvard University. Since its inception many methods of soft lithography have been explored.

Procedure

Preparing the master

Creation of the master, or template, is done using traditional

photolithography In integrated circuit manufacturing, photolithography or optical lithography is a general term used for techniques that use light to produce minutely patterned thin films of suitable materials over a substrate, such as a silicon wafer, to protect ...

techniques. The master is typically created on silicon, but can be done on any solid patterned surface. Photoresist is applied to the surface and patterned by a photomask and UV light. The master is then baked, developed and cleaned before use. In typical processes the photoresist is usually kept on the wafer to be used as a topographic template for the stamp. However, the unprotected silicon regions can be etched, and the photoresist stripped, which would leave behind a patterned wafer for creating the stamp. This method is more complex but creates a more stable template.

Creating the PDMS stamp

After fabrication the master is placed in a walled container, typically a

petri dish A Petri dish (alternatively known as a Petri plate or cell-culture dish) is a shallow transparent lidded dish that biologists use to hold growth medium in which cells can be cultured,R. C. Dubey (2014): ''A Textbook Of Biotechnology For Class- ...

, and the stamp is poured over the master. The PDMS stamp, in most applications, is a 10:1 ratio of

silicone A silicone or polysiloxane is a polymer made up of siloxane (−R2Si−O−SiR2−, where R = organic group). They are typically colorless oils or rubber-like substances. Silicones are used in sealants, adhesives, lubricants, medicine, cooking ...

elastomer An elastomer is a polymer with viscoelasticity (i.e. both viscosity and elasticity) and with weak intermolecular forces, generally low Young's modulus and high failure strain compared with other materials. The term, a portmanteau of ''elastic p ...

and a silicone elastomer curing agent. This mixture consists of a short hydrosilane crosslinker that contains a catalyst made from a platinum complex. After pouring, the PDMS is cured at elevated temperatures to create a solid polymer with elastomeric properties. The stamp is then peeled off and cut to the proper size. The stamp replicates the opposite of the master. Elevated regions of the stamp correspond to indented regions of the master. Some commercial services for procuring PDMS stamps and micropatterned samples exist such as Research Micro Stamps.

Inking the stamp

Inking of the stamp occurs through the application of a thiol solution either by immersion or coating the stamp with a Q-tip. The highly hydrophobic PDMS material allows the ink to be diffused into the bulk of the stamp, which means the thiols reside not only on the surface, but also in the bulk of the stamp material. This diffusion into the bulk creates an ink reservoir for multiple prints. The stamp is let dry until no liquid is visible and an ink reservoir is created.

Applying the stamp to the substrate

Direct contact

Applying the stamp to the substrate is easy and straightforward which is one of the main advantages of this process. The stamp is brought into physical contact with the substrate and the thiol solution is transferred to the substrate. The thiol is area-selectively transferred to the surface based on the features of the stamp. During the transfer the

carbon chains Carbon () is a chemical element with the symbol C and atomic number 6. It is nonmetallic and tetravalent—its atom making four electrons available to form covalent chemical bonds. It belongs to group 14 of the periodic table. Carbon makes up o ...

of the thiol align with each other to create a hydrophobic self-assembling monolayer (SAM).

Other application techniques

Printing of the stamp onto the substrate, although not used as often, can also take place with a rolling stamp onto a planar substrate or a curved substrate with a planar stamp.

Advantages

Microcontact Printing has several advantages including: *The simplicity and ease of creating patterns with micro-scale features *Can be done in a traditional laboratory without the constant use of a cleanroom (cleanroom is needed only to create the master). *Multiple stamps can be created from a single master *Individual stamps can be used several times with minimal degradation of performance *A cheaper technique for fabrication that uses less energy than conventional techniques *Some materials have no other micro patterning method available

Disadvantages

After this technique became popular various limitations and problems arose, all of which affected patterning and reproducibility.

Stamp Deformation

During direct contact one must be careful because the stamp can easily be physically deformed causing printed features that are different from the original stamp features. Horizontally stretching or compressing the stamp will cause deformations in the raised and recessed features. Also, applying too much vertical pressure on the stamp during printing can cause the raised relief features to flatten against the substrate. These deformations can yield submicron features even though the original stamp has a lower resolution. Deformation of the stamp can occur during removal from the master and during the substrate contacting process. When the aspect ratio of the stamp is high buckling of the stamp can occur. When the aspect ratio is low roof collapse can occur.

Substrate contamination

During the curing process some fragments can potentially be left uncured and contaminate the process. When this occurs the quality of the printed SAM is decreased. When the ink molecules contain certain polar groups the transfer of these impurities is increased.

Shrinking/swelling of the stamp

During the curing process the stamp can potentially shrink in size leaving a difference in desired dimensions of the substrate patterning. Swelling of the stamp may also occur. Most organic solvents induce swelling of the PDMS stamp. Ethanol in particular has a very small swelling effect, but many other solvents cannot be used for wet inking because of high swelling. Because of this the process is limited to apolar inks that are soluble in ethanol.

Ink mobility

Ink diffusion from the PDMS bulk to the surface occurs during the formation of the patterned SAM on the substrate. This mobility of the ink can cause lateral spreading to unwanted regions. Upon the transfer this spreading can influence the desired pattern.

Applications

Depending on the type of ink used and the subsequent substrate the microcontact printing technique has many different applications

Micromachining

Microcontact printing has great applications in micromachining. For this application inking solutions commonly consist of a solution of

alkanethiol In organic chemistry, a thiol (; ), or thiol derivative, is any organosulfur compound of the form , where R represents an alkyl or other organic substituent. The functional group itself is referred to as either a thiol group or a sulfhydryl grou ...

. This method uses metal substrates with the most common metal being gold. However, silver, copper, and palladium have been proven to work as well. Once the ink has been applied to the substrate the SAM layer acts as a resist to common wet etching techniques allowing for the creation of high resolution patterning. The patterned SAMs layer is a step in a series of steps to create complex microstructures. For example, applying the SAM layer on top of gold and etching creates microstructures of gold. After this step etched areas of gold exposes the substrate which can further be etched using traditional

anisotropic Anisotropy () is the property of a material which allows it to change or assume different properties in different directions, as opposed to isotropy. It can be defined as a difference, when measured along different axes, in a material's physic ...

etch techniques. Because of the microcontact printing technique no traditional photolithography is needed to accomplish these steps.

Patterning proteins

The patterning of proteins has helped the advancement of biosensors., cell biology research, and tissue engineering. Various proteins have been proven to be suitable inks and are applied to various substrates using the microcontact printing technique. Polylysine,

immunoglobulin An antibody (Ab), also known as an immunoglobulin (Ig), is a large, Y-shaped protein used by the immune system to identify and neutralize foreign objects such as pathogenic bacteria and viruses. The antibody recognizes a unique molecule of the ...

antibody, and different enzymes have been successfully placed onto surfaces including glass,

polystyrene Polystyrene (PS) is a synthetic polymer made from monomers of the aromatic hydrocarbon styrene. Polystyrene can be solid or foamed. General-purpose polystyrene is clear, hard, and brittle. It is an inexpensive resin per unit weight. It is a ...

, and hydrophobic silicon.

Patterning cells

Microcontact printing has been used to advance the understanding of how cells interact with substrates. This technique has helped improve the study of cell patterning that was not possible with traditional cell culture techniques.

Patterning DNA

Successful patterning of DNA has also been done using this technique. The reduction in time and DNA material are the critical advantages for using this technique. The stamps were able to be used multiple times that were more

homogeneous Homogeneity and heterogeneity are concepts often used in the sciences and statistics relating to the uniformity of a substance or organism. A material or image that is homogeneous is uniform in composition or character (i.e. color, shape, siz ...

and sensitive than other techniques.

Technique improvements

To help overcome the limitations set by the original technique several alternatives have been developed. *High-Speed printing: Successful contact printing was done on a gold substrate with a contact time in the range of milliseconds. This printing time is three orders of magnitude shorter than the normal technique, yet successfully transformed the pattern. The process of contact was automated to achieve these speeds through a piezoelectric

actuator An actuator is a component of a machine that is responsible for moving and controlling a mechanism or system, for example by opening a valve. In simple terms, it is a "mover". An actuator requires a control device (controlled by control signal) a ...

. At these low contact times the surface spreading of thiol did not occur, greatly improving the pattern uniformity *Submerged Printing: By submerging the stamp in a liquid medium stability was greatly increased. By printing hydrophobic long-chain thiols underwater the common problem of vapor transport of the ink is greatly reduced. PDMS aspect ratios of 15:1 were achieved using this method, which was not accomplished before *Lift-off Nanocontact printing: By first using Silicon lift-off stamps and later low cost polymer lift-off stamps and contacting these with an inked flat PDMS stamp, nanopatterns of multiple proteins or of complex digital nanodot gradients with dot spacing ranging from 0 nm to 15 um apart were achieved for immunoassays and cell assays. Implementation of this approach led to the patterning of a 100 digital nanodot gradient array, composed of more than 57 million protein dots 200 nm in diameter printed in 10 minutes in a 35 mm2 area. *Contact Inking: as opposed to wet inking this technique does not permeate the PDMS bulk. The ink molecules only contact the protruding areas of the stamp that are going to be used for the patterning. The absence of ink on the rest of the stamp reduces the amount of ink transferred through the vapor phase that can potentially affect the pattern. This is done by the direct contact of a feature stamp and a flat PDMS substrate that has ink on it. *New Stamp Materials: To create uniform transfer of the ink the stamp needs to be both mechanically stable and also be able to create conformal contact well. These two characteristics are juxtaposed because high stability requires a high Young's modulus while efficient contact requires an increase in

elasticity Elasticity often refers to: *Elasticity (physics), continuum mechanics of bodies that deform reversibly under stress Elasticity may also refer to: Information technology * Elasticity (data store), the flexibility of the data model and the cl ...

. A composite, thin PDMS stamp with a rigid back support has been used for patterning to help solve this problem. *Magnetic field assisted micro contact printing: to apply a homogeneous pressure during the printing step, a magnetic force is used. For that, the stamp is sensitive to a magnetic field by injecting iron powder into a second layer of PDMS. This force can be adjusted for nano and micro-pattern

sup> 3/sup>^{2/sup>^{2/sup>^{2/sup>.

*Multiplexing : the macrostamp: the main drawback of microcontact printing for biomedical application is that it is not possible to print different molecules with one stamp. To print different (bio)molecules in one step, a new concept is proposed : the macrostamp. It is a stamp composed of dots. The space between the dots corresponds to the space between the wells of a microplate. Then, it is possible to ink, dry and print in one step different molecules."Microscale multiple biomolecules printing in one step using a PDMS macrostamp", Helene LALO, Jean-Christophe Cau, Christophe Thibault, Nathalie Marsaud, Childerick Severac, Christophe Vieu, Microelectronic Engineering, Volume 86, Issues 4–6, April–June 2009, Pages 1428–1430

General references

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www.microcontactprinting.net : a website dealing with microcontact printing (articles, patents, thesis, tips, education, ...)

www.researchmicrostamps.com
a service that provides micro stamps via simple online sales.

Footnotes

{{DEFAULTSORT:Micro Contact Printing
Lithography (microfabrication)}}}