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UI Holonyak Micro & Nanotechnology Lab
Registrace 27. 04. 2020
The Holonyak Micro & Nanotechnology Lab is one of the country's largest and most sophisticated university facilities for conducting photonics, microelectronics, biotechnology, and nanotechnology research. Our 15 class 100 and 1000 cleanrooms, 46 general purpose labs, and 2,500 square foot biosafety level-2 bionanotechnology complex contain all the tools researchers need to conduct their work.
HMNTL Holiday Card 2023
Happy Holidays from the Holonyak Micro & Nanotechnology Laboratory in The Grainger College of Engineering at the University of Illinois.
zhlédnutí: 58
Video
ASAP Webinar Fall 2023
zhlédnutí 99Před 11 měsíci
An update about ASAP activities for current and prospective members.
ASAP Theme 3: Circuits and Architectures for Highly Energy-Efficient Computing
zhlédnutí 292Před 2 lety
Part 3 of the ASAP Virtual Technical Meetings.
ASAP Theme 2: Heterogeneous 3D Integration
zhlédnutí 273Před 2 lety
ASAP Theme 2: Heterogeneous 3D Integration
ASAP Theme 1: Materials Discovery for Next-Generation Electrical and Optical Interconnects
zhlédnutí 341Před 2 lety
An introduction to the first of three themes in the new Center for Aggressive Scaling by Advanced Processes for Electronics and Photonics.
Center for Aggressive Scaling by Advanced Processes for Electronics and Photonics Introduction Video
zhlédnutí 862Před 2 lety
This video introduces the new Center for Aggressive Scaling by Advanced Processes for Electronics and Photonics (ASAP), an NSF planning I-UCRC.
Bio and Nanotechnology Lab Video Tour
zhlédnutí 210Před 2 lety
A shared user facility at the Holonyak Micro & Nanotechnology Lab, the BioNanotechnology Laboratory (BNL) provides engineering researchers 24/7 access to a Biosafety Level 2 facility with all the tools to conduct research experiments at the interface of biology and micro and nanotechnology. The facility is also suitable for research with infectious agents or biological research classified at BSL2.
Nick Holonyak Jr. Wins the Queen Elizabeth Prize
zhlédnutí 287Před 3 lety
Nick Holonyak Jr. Wins the Queen Elizabeth Prize
HMNTL 2020 Holiday Card
zhlédnutí 72Před 3 lety
Happy holidays from the Holonyak Micro & Nanotechnology Lab!
Covid Pals
zhlédnutí 119Před 3 lety
One of our students took the initiative to start his own website encouraging students to stick together and reach out during the pandemic.
Using Dektak stylus profiler to measure: surface roughness, film stress, and step height
zhlédnutí 3,6KPřed 4 lety
Using Dektak stylus profiler to measure: surface roughness, film stress, and step height
Photolithography and recent process developments
zhlédnutí 976Před 4 lety
Photolithography and recent process developments
Understanding Vacuum, Systems, and Parts
zhlédnutí 85KPřed 4 lety
Understanding Vacuum, Systems, and Parts
Using Contrast Curve in Electron Beam Lithography (EBL) Process Development
zhlédnutí 2KPřed 4 lety
Using Contrast Curve in Electron Beam Lithography (EBL) Process Development
Engineering Resist Profile for Liftoff Applications
zhlédnutí 3,6KPřed 4 lety
Engineering Resist Profile for Liftoff Applications
Exactly the pump tutorial I've been looking for. No idea why I'm interested in the subject, but here I am.
What if you used peltier style devices that could simultaneously bake the walls of the chamber while providing a cool surface to condense the molecules?
Al Jazari is also notable with his partial vacuum/suction BTW I am giving a Technical Road Map Friday and this is very helpful with information I can use to explain Turbo Molecular pumps to finance and HR people.
Como se calcula o tamanho da bomba difusora com a câmera 🇧🇷
Nice survey talk! I found this very useful, and even entertaining. (25:00 We don't usually use olives or sausage in our equipment, but it makes a good demonstration... :-)
The constrast curve fitting function. From which source you obtained it from? The ones I found in other bibliographies looks different.
I-L-L....I-N-I!!! Happy holidays!
Next year, we need a picture of Professor Holonyak's breakthrough red LED (hand drawn will do).
comment on one of the answers to a question. In a production FAB pumps are almost always in the Sub FAB at least 5 meters away.
This video really helped me with a question that bother me for years. My next question: approx. 90% of atm is pumped out quickly, a lot of what is left is water and will outgas slowly. Will a flow of N2 bring the remaining water out of the chamber faster?
Heated N2 is even better... remember water freezes under vacuum. Heat will help get the water moving to be pumped out...
Thanks a lot for this great video!
I like this video. I'm new to the industry and this is very informational. Thank you.
What industry?
Awesomeness!!! I see Something So Beautiful that can be done here!!! OMG!!✌☝🙏💜💫💫
Thanks for the good video! But I wonder if the e-beam resist is damaged due to SEM at 12:05. I think there is not any coating metal such as Pt at the cross-sectional plane. Could you answer it to me? Thanks in advance.
Thanks a lot. You said, bilayer lift-off is the best, no need to use sonication. I think you said sonication is not good, why? Does sonication affect the LER (line edge roughness)?
Great, thanks a lot. So, in your pattern geometry for the contrast curve measurements on slide#4, when you write one rectangle the neighboring rectangles would be affected due to the backscattering of electrons. What can you comment on this issue?
Audio cuts ruined this for me.. I don't know what I missed and at critical time of revealing.