Presentation is loading. Please wait.

Presentation is loading. Please wait.

Introduction to Microfabrication Nick Ferrell Biomedical Engineering.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Introduction to Microfabrication Nick Ferrell Biomedical Engineering."— Presentation transcript:

1 Introduction to Microfabrication Nick Ferrell Biomedical Engineering

2 Basics of Microfabrication Developed by microelectronics industry Adapted for silicon MEMS Refined for nanoscale fabrication Extended to polymer micro/nanofabrication

3 Basic Processing-Photolithography Coating and Exposure

4 Latent Image Formation Develop-Positive ToneDevelop-Negative Tone

5 Limits of Photolithography Minimum Features Size α Exposure Wavelength Spectrum for Hg Arc Lamp (365 and 436 nm) http://www.cairnweb.com/tech/tech_lamp2.html

6 Nanofabrication Excimer Lasers: KrF (248 nm) ArF (193 nm) F 2 (157 nm) X-rays, EUV (10-40 nm) E-beam: (.0037 nm @ 100kV) X-ray (70 nm) E-beam (43 nm) Ito, Okazaki, Nature 408 (2000), 1027-1031.

7 Polymer Micro/Nanofabrication Polymer Properties Wide range of physical and chemical properties Biocompatible Cheap Techniques Hot Embossing Injection Molding Soft Lithography - Microtransfer Molding - Microcontact Printing - Micromolding in Capillaries - Sacrificial Layer Micromolding

8 Hot Embossing J. Narasimhan, I. Papautsky, J. Micromech. Microeng. 14(2004), 85-105

9 Soft Lithography Figure 2. Chemical structure of PDMS. -Cheap -Easy -Quick -Robust Rapid Prototyping Y. Xia, G.M. Whitesides, Soft Lithography, Angew. Chem Int. Ed. 37(1998), 550-575.

10 Soft Lithography

11 Microcontact Printing

12 Sacrificial Layer Micromolding

13 Multi-layer Patterning HEAT (110° C) SU8 PDMS PPMA

14 PDMS

15 OH CH 3 O 2 Plasma CH 3 OH Si O O O O PDMS Bonding

Download ppt "Introduction to Microfabrication Nick Ferrell Biomedical Engineering."

Similar presentations

Geometrically Optimized mPAD Device for Cell Adhesion Professor Horacio Espinosa – ME 381 Final Project Richard Besen Albert Leung Feng Yu Yan Zhao Fall.

Geometrically Optimized mPAD Device for Cell Adhesion Professor Horacio Espinosa – ME 381 Final Project Richard Besen Albert Leung Feng Yu Yan Zhao Fall.
“Soft” lithography Soft lithography and PDMS. Micro-contact printing.

“Soft” lithography Soft lithography and PDMS. Micro-contact printing.
Center for Materials for Information Technology an NSF Materials Science and Engineering Center Advanced Optical Lithography Lecture 14 G.J. Mankey

Center for Materials for Information Technology an NSF Materials Science and Engineering Center Advanced Optical Lithography Lecture 14 G.J. Mankey
Learning Objectives Be able to describe the basic processes of microfabrication Be able to explain the principles of photolithography. Be able to describe.

Learning Objectives Be able to describe the basic processes of microfabrication Be able to explain the principles of photolithography. Be able to describe.
Lecture 9 Unconventional Nanotechnology & Nanopatterning (~2 lectures)

Lecture 9 Unconventional Nanotechnology & Nanopatterning (~2 lectures)
Presentation: Microfabrication of Polymeres Ferdinand METZLER HKUST / 26 November 2014.

Presentation: Microfabrication of Polymeres Ferdinand METZLER HKUST / 26 November 2014.
Metamaterials Zaven Kalfayan Lindsay Hunting Phyllis Xu Joy Perkinson.

Metamaterials Zaven Kalfayan Lindsay Hunting Phyllis Xu Joy Perkinson.
14 - 1 Lecture 14 Taken in part from Chapters 13-15 Semiconductor Manufacturing Technology by Michael Quirk and Julian Serda.

Lecture 14 Taken in part from Chapters Semiconductor Manufacturing Technology by Michael Quirk and Julian Serda.
John D. Williams, Wanjun Wang Dept. of Mechanical Engineering Louisiana State University 2508 CEBA Baton Rouge, LA 70808 Producing Ultra High Aspect Ratio.

John D. Williams, Wanjun Wang Dept. of Mechanical Engineering Louisiana State University 2508 CEBA Baton Rouge, LA Producing Ultra High Aspect Ratio.
Prototype Showcase  What is a metamaterial?  How our 2-D sample was created  How our phase mask was created  SEM images of 2-D sample and phase mask.

Prototype Showcase  What is a metamaterial?  How our 2-D sample was created  How our phase mask was created  SEM images of 2-D sample and phase mask.
Vicki Bourget & Vinson Gee April 23, 2014

Vicki Bourget & Vinson Gee April 23, 2014
Microfluidic Valve Innovation Jo Falls Porter, RET Fellow 2009 West Aurora High School RET Mentor: Dr. David T. Eddington, PhD NSF- RET Program Introduction.

Microfluidic Valve Innovation Jo Falls Porter, RET Fellow 2009 West Aurora High School RET Mentor: Dr. David T. Eddington, PhD NSF- RET Program Introduction.
Overview of Nanofabrication Techniques Experimental Methods Club Monday, July 7, 2014 Evan Miyazono.

Overview of Nanofabrication Techniques Experimental Methods Club Monday, July 7, 2014 Evan Miyazono.
Part 2 Current State-of-the-Art For Commercial ‘Micro’-Electronic Device Production Silicon Technology and Next Generation Lithography.

Part 2 Current State-of-the-Art For Commercial ‘Micro’-Electronic Device Production Silicon Technology and Next Generation Lithography.
Monolithic Microfabricated Valves and Pumps by Multilayer Soft Lithography EECE 491C Unger et al. (Quake group, CALTECH) Science, 2000.

Monolithic Microfabricated Valves and Pumps by Multilayer Soft Lithography EECE 491C Unger et al. (Quake group, CALTECH) Science, 2000.
Types of Nanolithography

Types of Nanolithography
Design and Implementation of VLSI Systems (EN1600) lecture04 Sherief Reda Division of Engineering, Brown University Spring 2008 [sources: Sedra/Prentice.

Design and Implementation of VLSI Systems (EN1600) lecture04 Sherief Reda Division of Engineering, Brown University Spring 2008 [sources: Sedra/Prentice.
Metamaterials Lindsay Hunting Zaven Kalfayan Joy Perkinson Phyllis Xu 3.042 Group 1.

Metamaterials Lindsay Hunting Zaven Kalfayan Joy Perkinson Phyllis Xu Group 1.
A PDMS DIFFUSION PUMP FOR ON-CHIP FLUID HANDLING IN MICROFLUIDIC DEVICES Mark A. Eddings and Bruce K. Gale Department of Bioengineering, University of.

A PDMS DIFFUSION PUMP FOR ON-CHIP FLUID HANDLING IN MICROFLUIDIC DEVICES Mark A. Eddings and Bruce K. Gale Department of Bioengineering, University of.
TOP-DOWN TECHNIQUES (LITHOGRAPHY) FOR MAKING QUANTUM WIRES Lingyun Miao, Limin Ji ECE Dept. University of Rochester.

TOP-DOWN TECHNIQUES (LITHOGRAPHY) FOR MAKING QUANTUM WIRES Lingyun Miao, Limin Ji ECE Dept. University of Rochester.

Similar presentations

Ads by Google