Yat Li Department of Chemistry & Biochemistry University of California, Santa Cruz CHEM 146C_Experiment #7 Soft Lithography: Patterning.

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Presentation transcript:

Yat Li Department of Chemistry & Biochemistry University of California, Santa Cruz CHEM 146C_Experiment #7 Soft Lithography: Patterning

Objective In this laboratory experiment, we will learn: 1.The principle of soft lithography and the fabrication of poly(dimethylsiloxane) (PDMS) stamp 2.Microcontact printing technique to create patterned metal electrodes (or interesting features) on a substrate

Micro- and nanofabrication Microfabrication, through its role in microelectronics and optoelectronics, is an indispensable contributor to information technology. Photo or E-beam resists lithography Lift-off Develop Metal evaporation Photolithoghaphy: ~ 1 micrometer (resolution limited by diffraction of light) E-beam lithography: < 50 nm Drawback: expensive, time consuming (e-beam), poorly suited for patterning nonplanar surface

Soft lithography Soft lithography represents a non- photolithographic strategy based on self assembly and replica molding for carrying out micro- and nanofabrication 1.Generate patterns and structures with feature sizes ranging from 30 nm to 100  m 2.Convenient, effective, and low-cost Xia, Y. N. and Whitesides, G. M. “Soft Lithography”. Annu. Rev. Mater. Sci. 28, (1998)

Poly(dimethylsiloxane) (PDMS) SYLGARD® 184 SILICONE ELASTOMER KIT Poly(dimethylsiloxanes): 1.A unique combination of properties resulting from the presence of an inorganic siloxane backbone and organic methyl groups attached to silicon. 2.Very low glass transition temperatures and hence are fluids at room temperature. 3.Can be readily converted into solid elastomers by cross-linking. PDMS: base cure

Mechanism of cross-linking Dean J. Campbell, Katie J. Beckman

Preparation of PDMS elastomeric block Xia, Y. N. and Whitesides, G. M. “Soft Lithography”. Annu. Rev. Mater. Sci. 28, (1998) Dean J. Campbell, Katie J. Beckman

Microcontact printing Simple and suitable for non-planar substrates! Xia, Y. N. and Whitesides, G. M. “Soft Lithography”. Annu. Rev. Mater. Sci. 28, (1998) The concept of microcontact printing is use the relief pattern on the surface of a PDMS stamp to form patterns of SAMs on the surfaces of substrates by contact. For example, alkylthiol on Au and Ag surfaces.

Making metal thin films SputteringEvaporation Typical methods to make high quality metal films: Tollens process: Solution A: a mixture of AgNO 3 and NH 4 NO 3 [Ag(NH 3 ) 2 ] + + reducing agentAg film Solution B: NaOH Solution C: Glucose (C 6 H 12 O 6 )

Making metal electrodes by microcontact printing Gerber, R. W. and Oliver-Hoyo, M. T. “Selective Etching via Soft Lithography of Conductive Multilayered Gold Films with Analysis of Electrolyte Solutions”. Journal of Chemical Education 85, (2008)