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Breaking Taps
United States
Приєднався 5 гру 2017
Exploring material science and machining
For UA-cam business, sponsorships, etc: breakingtaps@nebula.tv
Optical Microscopes:
- Amscope 40X-800X Trinocular Dual-illumination Metallurgical Microscope with Polarization
- Amscope 3.5X-180X Simul-Focal Stereo Zoom Microscope
Atomic Force Microscope:
- ICSPI nGauge AFM (100nm wedge tips and 20nm DLC tips)
Scanning Electron Microscope:
- Thermo Phenom XL G2 (BSD, SED and EDS)
For UA-cam business, sponsorships, etc: breakingtaps@nebula.tv
Optical Microscopes:
- Amscope 40X-800X Trinocular Dual-illumination Metallurgical Microscope with Polarization
- Amscope 3.5X-180X Simul-Focal Stereo Zoom Microscope
Atomic Force Microscope:
- ICSPI nGauge AFM (100nm wedge tips and 20nm DLC tips)
Scanning Electron Microscope:
- Thermo Phenom XL G2 (BSD, SED and EDS)
I tried to make a camera sensor
Can we make photosensitive pixels from Copper Oxide?
Huge thanks to Molecular Vista for helping out with their Vista 200 microscope! molecularvista.com/
==== Links ====
- Background on PiFM and PiF-IR: molecularvista.com/technology/pifm-and-pif-ir/scientific-principles/
- Electron Beam Lithography: ua-cam.com/video/3KXkcFcjcfY/v-deo.html
- ProjectsInFlight video on Semiconductors: ua-cam.com/video/-lHXZk5M6cI/v-deo.html
- Watch this video ad free on Nebula: nebula.tv/videos/breakingtaps-i-made-camera-pixels-from-copper
- "High-Performance Copper Oxide Visible-Light Photodetector via Grain-Structure Model" www.nature.com/articles/s41598-019-43667-9
- Bunch of CGI materials Created with Poliigon: www.poliigon.com
🥰 CONSIDER SUBSCRIBING 🥰
🔬Patreon if that's your jam: www.patreon.com/breakingtaps
📢Twitter: BreakingTaps
📷Instagram: breakingtaps
💻Discord: discord.gg/R45uCXcEv4
Huge thanks to Molecular Vista for helping out with their Vista 200 microscope! molecularvista.com/
==== Links ====
- Background on PiFM and PiF-IR: molecularvista.com/technology/pifm-and-pif-ir/scientific-principles/
- Electron Beam Lithography: ua-cam.com/video/3KXkcFcjcfY/v-deo.html
- ProjectsInFlight video on Semiconductors: ua-cam.com/video/-lHXZk5M6cI/v-deo.html
- Watch this video ad free on Nebula: nebula.tv/videos/breakingtaps-i-made-camera-pixels-from-copper
- "High-Performance Copper Oxide Visible-Light Photodetector via Grain-Structure Model" www.nature.com/articles/s41598-019-43667-9
- Bunch of CGI materials Created with Poliigon: www.poliigon.com
🥰 CONSIDER SUBSCRIBING 🥰
🔬Patreon if that's your jam: www.patreon.com/breakingtaps
📢Twitter: BreakingTaps
📷Instagram: breakingtaps
💻Discord: discord.gg/R45uCXcEv4
Переглядів: 195 486
Відео
Microscopic Marvel in your Earbuds
Переглядів 1 млн4 місяці тому
What does the microphone inside of an earbud look like? It's a surprisingly cool bit of technology! Watch this video ad free on Nebula: nebula.tv/videos/breakingtaps-microscopic-marvel-in-your-earbuds 🥰 CONSIDER SUBSCRIBING 🥰 🔬Patreon if that's your jam: www.patreon.com/breakingtaps 📢Twitter: BreakingTaps 📷Instagram: breakingtaps 💻Discord: discord.gg/R45uCXcEv4
Cut anything, even diamond
Переглядів 1,1 млн6 місяців тому
Head to brilliant.org/BreakingTaps/ for a free 30-day trial. The first 200 people will also get 20% off their annual subscription. Watch this video ad free on Nebula: nebula.tv/videos/breakingtaps-etch-anything-even-diamond Today we're looking at an ion milling machine. This instrument accelerates argon particles to high velocities and then slam them into your sample, acting as an atomic sandbl...
Prototyping (Tiny) Rocket Injectors
Переглядів 332 тис.8 місяців тому
⭐ Get Nebula for 40% off an annual subscription: go.nebula.tv/BreakingTaps 🚀 Watch my Injector BTS Engineering video: nebula.tv/videos/breakingtaps-prototyping-a-tiny-rocket-injector-engineering-bts?ref=BreakingTaps 🚚 Real Engineering's Hypersonic Uhaul BTS: nebula.tv/videos/realengineering-behind-the-scenes-i-made-a-hypersonic-uhaul?ref=BreakingTaps Today we're prototyping some rocket injector...
The Microspheres Hiding in your Phone's Screen
Переглядів 771 тис.9 місяців тому
The first 1,000 people to use the link will get a 1 month free trial of Skillshare skl.sh/breakingtaps07231 Watch this video ad free on Nebula: nebula.tv/videos/breakingtaps-conducting-electricity-in-only-one-dimension Today we're looking at Anisotropic Conductive Film (ACF) or tape. This is a special tape that's used widely in LCD/OLED products to bond the electrical connectors to the glass di...
A problem so hard even Google relies on Random Chance
Переглядів 1,2 млн10 місяців тому
Head to brilliant.org/BreakingTaps/ to get a 30-day free trial. The first 200 people will get 20% off their annual subscription. Watch this video ad free on Nebula: nebula.tv/videos/breakingtaps-the-algorithm-that-embraces-random-chance Today we're looking at HyperLogLog, an algorithm that leverages random chance to count the number of distinct items are in a dataset. It does this by tracking t...
Cutting Metal inside an Electron Microscope
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Head to brilliant.org/BreakingTaps/ to get a 30-day free trial. The first 200 people will get 20% off their annual subscription. Watch this video ad free on Nebula: nebula.tv/videos/breakingtaps-cutting-metal-inside-an-electron-microscope Today we are machining some metal inside the scanning electron microscope! By creating a custom fixture, we can manually advance a carbide cutter and cut meta...
NASA's clever technique to make combustion chambers
Переглядів 1,4 млнРік тому
Get Nebula using my link for 40% off an annual subscription: go.nebula.tv/breakingtaps Watch my exclusive video on Electroplating Diamond Tools for CNC machining glass: nebula.tv/videos/breakingtaps-electroplating-diamond-coatings-for-cnc-glass-machining Etsy shop: www.etsy.com/listing/1451656792/rs-25-main-combustion-chamber-model Printables STL download: www.printables.com/model/459122-space-...
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Goldenrod inside an Electron Microscope
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Electron Microscope Hack to see Graphene
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More rigorous analysis of "Ceramic" car spray
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Surprising Nanotechnology in the 80's
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Orbital vacuum in a box - high vacuum chamber
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Fruit Fly inside an Electron Microscope
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3D Printing Optomechanical Components
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DIY Laser Lithography: Micron resolution
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How to achieve nanometer precision in space?
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Absolutely incredible! And gorgeous footage & graphics
The fact that the term "Rick Rolled" today, says a lot.😂😂😂
It’s funny people that don’t understand these are probably thinking you’re nuts., however some of Is share your enthusiasm.
I wonder what happens if you include exponents and roots, while exponents make thing less complex, would roots ever help? Given that you would need to reach a number squared to use roots. Also what if you use fractional division, like dividing by 7/6 will that ever make things easier? Edit: you kinda covered this Edit 2: I wonder how close you can get to pi or e given a curtain number of ones, is tau trivial in this example? Or does it work differently than pi, so many odd thoughts
Thats not the tool. Its the rigidity of you busted ass machine.
I'd like to see a chip breaker working under this magnification.
Those are the traces that my Beckman CircuitMate scope makes in identifying various unknown components.
We should call it the woodpecker microscope!
Czy ja usłyszałem "o kurde"? ;-}
So it's basically physical sonar.
Alien tech
Holy shit, insane
yesterday was my birthday, but… close enough! thank you
hey, yours is still pretty impressive, as a diy demo for a youtube short
Dude can we hang out and you just show me stuff
This is like downloading a model pixel by pixel
The AFM I had contact with had laser detectors. A reflector was part of the probe and the laser light was reflected onto the detectors. The distance to the reflectors amplified the fluctuations caused by contact with the sample.
Thanks to the tall gray❤
So metal is harder dirt?
Very nice, good job. The alignment crosses at the end had me in tears.
Thought that was the bottom of a Lego base plate
Nice work! Love the alignment mark pic 🤣. I feel your pain brother. This work is teaching many valuable lessons. The most important: Never bet against silicon.
Thanks!
put that SENSOR under innner gas.. you can overheat it.. but with no OXYGEN will werry hardly blow liek this..
That's how cheese is made folks
As tool & die maker I've used this wax and other materials for muck up. Back then figuring out how to make a part out of steel,I would sometimes have to create a new machine just to do it.😮🤓🦜😸
If UA-cam had existed when I was in high school and if I'd watched this, I imagine I'd have decided to study whatever you did instead of my current profession.
Try to create p-Si/SiO2(20-50 nm)/Al structure. p-Si - GND, Al grid contact - positive bias about 1 - 10 V. (negative bias on Al in case of n type silicon substrate). The depletion region is formed under the bias. Minority charge carriers are injected into the SiO2 upon illumination. The current can increase 100 times if intense illumination is used. You can use ITO or ZnO instead Al to increase this effect. Also you can use ZrO2, TiO, Ta2O5 dielectrics instead SiO2, and also overstoicheometric SiOx, ZrOx, etc to increase current density
Unbelievable, congratulations! This is very good work. I think that plasma may help you with adhesion and contamination issues. Please consider this I love to see next steps.
I wish you made this video a few more years back when I wasted 4 months trying to use a shadow mask to work in an evaporation process that kept shorting the top and bottom layers. :(
Have you given some serious thought to using a 3D/4D printer (or modified plate printer) to make your pattern, or different design plate platterns, on a grand scale multiplying your plate amount, sizes and different patterns? I think you could really create very powerful and reliable plates or rolls for power and more efficient designs.
Is the chip made in china? Why are thw numbers in quote unquote "western" numerics?
Ok why silver coconut coil is more reaction more fast in realising steam and you can use concentrate hydrogen peroxide the simple method to do is evaporate It and yes not boiling but slow evaporate water you can get 75 to 60 concentrations and keep care of it it highly reactive to organic things and don't try to get 80 or 90 at there it react with anything
The size of something has no bearing on how difficult it is to explain. Ffs. Why won’t people think before they speak
MEMS +
What are you doing in real life to be able to sponsor these hobbies? What does the wife say for this interests?
yummy waffle fry
Fantastic video! I really like your channel
As a clarification, “holes” are simply positive ions, and they don’t move, only the electrons do. If they do move you have broken your semiconductor.
Isn't skin semiconductive..?? Let me get back to you on this..... Shh, I see a patent in my future....
Is that a MATLAB graph?!
This hurts my brain.. Interesting yes.. but OW!!!🤕
I know I've watched dozens of videos over the years for how digital sensors work, but I swear to god this is the first video I've seen in my life that actually explains the scientific details in terms that ordinary people can understand ❤
*some intelligent microscopic being being assaulted by a pin from the heavens * “Oww fucking stop it”
6:20, is that a diagram from Sedra&Smith?
Ha! That "punctured the top stuff and made a PN-junction with the sharp probe and the silicon"-thing. Been there, done that. Had to redo some measurements.
Why am I landing at the bottom of the comment sections? Curse you YT!
Hmm, this sounds like something that could be massively improved with smarter algorithms (that e.g. predict where to make more measurements and where less to quickly find the actual maximum with high confidence). Basically something straight out of my Computational Intelligence classes.
This comment was rescued by manually grepping through a memory dump btw. I wish I was joking
Did I just get microll'd
Thanks!