Links

K. H. Kang

Research

Publications

Life Style

l             Laboratory for Microfluidic Transport Phenomena – Prof. Dongqing Li, Dept. of Mech. & Indust. Eng., Univ. Toronto

l             Microfluidics Laboratory – Prof. Steve Werely, Dept. of Mech. Eng., Purdue Univ.

l             Paul Yager’s Laboratory – Prof. Paul Yager, Dept. of Bioengineering, Univ. Washington

l             Micromanufacturing Laboratory – Prof. Chang-Jin (CJ) Kim, Dept. of Mech. Eng., UCLA

l             Quake Group – Prof. Stephen Quake, Dept. of Applied Physics, CALTECH

l             Abbott Laboratory – Prof. Nicholas L. Abbott, Dept. of Chemical & Biological Eng., Univ. of Wisconsin-Madison

l             Prof. Roger D. Kamm, Dept. of Mech. Eng., MIT

l             M^2B (Microtechnology, Medicine, Biology Laboratory) – Prof. David J. Beebe, Dept. of Biomedical Engineering, Univ. of Wisconsin-Madison

l             Prof. Hsueh-Chia Chang's Laboratory, Dept. Chem. Eng., Univ. Notre Dam

l             Microfluidic Research and Engineering Laboratory – Prof. Sandra M. Troian, Dept. of Chem. Eng., Princeton Univ.

l             Fluid Mechanics Laboratory, Prof. Dorian Liepmann, Dept. of Mech. Eng., UCB

l             BERKELEY SENSOR & ACTUATOR CENTER

l             Lawrence Berkeley National Laboratory

l             BioPOEMS – Prof. Luke P. Lee, Dept. of Bioengineering, UCB

l             Roukes Group – Prof. Michael L. Roukes, Dept. Appl. Phys. and Bioengineering, Caltech

l             Prof. Lydia Sohn – Dept. of Mech. Eng., UCB

General Purpose MEMS Sites

• University of Wisconsin's short course on MEMS
• Answers questions such as: What is MEMS? Where are MEMS used? Why is MEMS useful? How are MEMS made? ...
• University of Colorado's online presentations on MEMS technology
• Presentations on topics such as an Introduction to MEMS, RF MEMS, Optoelectronic MEMS, and Materials and Reliability
• Dr. Daniel Banks' Microengineering Overviews
• Gives short overviews of topics such as microengineering, photolithography, silicon micromachining, mask design, microsystems, microsensors, microactuators, and and microcomponent assembly and packaging
• Introduction to Microengineering Supplement by Dr. Daniel Banks
• More information on microengineering including background, the effect of microengineering on future business, applications for microengineering, and microengineering technology
• MEMS Learning Cybercenter
• This site refers you to almost all sources of education about MEMS, including research being done on MEMS by leading universities and national laboratories and regional groups
• DARPA MEMS
• Official DARPA site with information on sponsored MEMS research at various universities and laboratories
• The Manipulation of Single Biomolecules
• By monitoring the response of individual protein and DNA molecules to pulling and twisting, biophysicists can learn much about their structure and their interactions.

Other MEMS research sites

• Sandia National Laboratories
• Sandia's state-of-the-art fabrication technologies is highlighted by its SUMMiT V (Sandia's Ultra-planar Multi-level MEMS Technology) process for designing micromechanical systems in a five-layer process.
• ISI MEMS Clearinghouse
• This site is a source for MEMS information and discussion, contains industry news and announcements on upcoming symposiums and conferences, also contains information on companies that provide MEMS products and services as well as information on people and other organizations associated with MEMS such as research centers, universities, and local MEMS Associations
• JPL-CSMT Home Page
• The Center for Space Microelectronics Technology (CSMT) focuses on aspects of technology that are unique to space applications. These areas of focus include: sensors, microelectronics, innovative high-risk, high-payoff concepts and devices, micro and nano size spacecraft, environmental and biomedical space technology, high-performance computing both in space and on the ground for mission data analysis and visualization and the ability to integrate these systems.
• The Electronics Subcommittee (ESC)
• The ESC provides Federal interagency coordination for technical planning, budgeting, reporting, and evaluation of Federal programs in electronics science and technology and supports two-way communication on these programs within the government and with the private sector.
• JTEC Panel Report on MEMs in Japan
• MEMS development in Japan, MEMS-based sensors, Microactuators, Sensor-Circuit Integration and System Partitioning, Packaging, Assembly, Testing, MEMS Design Techniques, Applications, and Infrastructure
• European Information Clearinghouse on MST
• Joint effort by key European players in microsystems technology (MST/MEMS), both from industries and R&D, pursuing the following strategic goal: "To promote microsystems technology uptake by European industries in order to strengthen and secure Europe's competitiveness worldwide."
• MUMPS Design Handbook by Cronos Integrated Microsystems
• Handbook on the Mlti-User MEMS Processes (MUMPs) system used by Cronos (pdf format)
• The Sensors, Actuators and Microsystems Laboratory, University of Neuchâtel, Switzerland
• SAMLAB created in 1982 by the professor Nico F. de Rooij, has well-established expertise in micro- and nanotechnology. Multi-disciplinary research activities have encompassed many diverse applications from the life sciences to telecommunications, such as microfabricated probes for atomic force and near field optical microscopy, micromechanical devices for optical fibre networks, discrete microsensors and miniaturised chemical analysis systems for environmental and clinical analyses, and micro-instrumentation for space research.
• MESA+, University of Twente, The Netherlands
• MESA+ is the largest research institute of the University of Twente. This multidisciplinary institute focuses on the materials, technologies and systems of the information society. Micro System technology, Micro-Electronics and Materials Science are key words. The institute combines equal research contributions from the disciplines of Electrical Engineering, Applied Physics and Chemical Technology
• IMM, Insitute of Microtechnlogy Mainz, Germany
• IMM is a non-profit research and development institute, founded and owned by the state of Rhineland-Palatinate, a federal state of Germany. It is located in Mainz. The ultimate goal of IMM is to transfer innovative ideas quickly and efficiently into marketable products, helping its partners from industry to achieve commercial success.

Lastly Modified in Feb. 25, 2004