Post on 27-Mar-2015
“Hands-On” Problem Solving with Remote Electron
Microscopy
George MotterAndrea HarmerLehigh University
2
Lehigh UniversityDepartment of Materials Science and
Engineering
One of the World's leading centers for Electron Microscopy
Center for Advanced Materials and Nanotechnology
3
Introduction to Two CAMN Projects
• The MatPAC – Graduate level
• The West Nile Virus Project– 6th grade level
Center for Advanced Materials and Nanotechnology
4
MatPAC
5
6
• Students have more
diverse course choice
• Faculty interact with more students for potential recruitment
• PA universities more appealing because of choice, extra courses help round out departments, model takes advantage of every strength in materials science across the state
Benefits of Shared Classes
MatPAC in action
7
• I2 enables students to access microscopes at Lehigh from their classroom
• EM images embedded in scientific inquiry can be effective idea stimulators
• Students can create their own images and artifacts
• Great introduction to nanoscience & technology
Helping Students Understand Nanoscale Science Through “Hands-On” Problem
Solving Inquiry and Electron Microscopy
http://www.lehigh.edu/~inimagin
http://wise.berkeley.edu
8
9
10
11
12
• I2 enables students to access microscopes at Lehigh from their classroom
• EM images embedded in scientific inquiry can be effective idea stimulators
• Students can create their own images and artifacts
• Great introduction to nanoscience & technology
Helping Students Understand Nanoscale Science Through “Hands-On” Problem
Solving Inquiry and Electron Microscopy
http://www.lehigh.edu/~inimagin
http://wise.berkeley.edu
13
14
15
16
17
18
19
Student Comments on “Most Important” Aspect
• “ that someone tries our solution and it helps”• “ that we are trying to help scientists”• “ that we learn from it ”• “ when we present, people understand”• “ makes other people know that kids are thinking”• “ that we work together and also have fun”• “ that we try our best”• “ that we could make a difference”
20
How students felt about the WNV project
• “I’m included in doing something good for my community and country”
• “challenging, but fun”• “discussed ideas like presidents and governors” -- “wicked
discussions”• “I feel important to be helping to solve a problem for a big
situation”• “I’m proud”• “I love science, amazing, interesting, cool”• “people will like science more now because they will have
more confidence that they can do better”
21
Spring ‘04 Plans
• Pilot test K-12 student desktop use of remote electron microscope with West Nile Virus students
• Embed imaging opportunities into lesson plans
• Promote and study collaboration between researching scientists, teachers and students engaging in authentic and relevant problem-solving scientific inquiry using “hands-on” electron microscopy for better understanding of process
22
How it works
23
FEI/Philips XL30 ESEM
24
Why the XL30?
• Completely PC based control• Easy to use interface• Imaging of non-conductive
or even wet samples • Magnification of 500,000 times are
obtainable– Translates to a resolution of 2.0 nm or 2
Billionth of a meter – DNA is 2.5 nm wide
25
Prior Work
• Bugscope, University of Illinois– Developed scaled down Java interface
• John Mansfield, University of Michigan– VBrick with computer overlay card– Developed first generation of current software
26
XL30 SEM Interface
27
How It Works
Control
Raw Video
Linux MPEG4 Video Encoder
Encoded Video
VNC Session
28
XL30 Remote Software
Advantages
• High Resolution• Real Time (low encoding latency)• Inexpensive – mostly open source• Scalable• Maintains full controls and user interface
29
Future Plans for the Software
• Continued development of encoding engine
• Upgrade VNC
• Better error correction
• Multiple streams from other cameras
• Image-only output for separate displays
30
Abe under the Microscope
Optical SEM
31
Abe Under the Microscope
Let’s Play
32
Questions?
George Motter
gfm2@lehigh.edu
Andrea Harmer
ajw1@lehigh.edu