21st Century Innovative Technologies and Developments as also discoveries, curiosity ( insolite)...
53.7K views | +0 today
Follow
21st Century Innovative Technologies and Developments as also discoveries, curiosity ( insolite)...
Technology
Everything from new developments and discoveries in the Technology world: science, ICT, medicine, pharma...
Curated by Gust MEES
Your new post is loading...
Your new post is loading...

Popular Tags

Current selected tag: 'transistors'. Clear
transistors 6
Nano 5
Research 5
Electronics 4
English 4
STEM 4
2017 2
Deutsch 2
Nano-Technology 2
Technology 2
2016 1
carbon nanotube transistors that outperform those 1
Education 1
Education 3.0 1
Education-Evolution 1
Flexible plastic 1
Government 1
Graphene 1
Mikroelektronik 1
Nano-Electronics 1
Nano-Tubes 1
NASA’s tiny 460GHz vacuum transistor 1
OFETs 1
Tiny transistors for extreme environs 1
Transistor aus Graphen-Nanobändern 1
Transistor Ersatz? 1
transistors will make flexible plastic 1
Scooped by Gust MEES
Scoop.it!

Forscher entwickeln Transistor aus Graphen-Nanobändern | #STEM #Research #Electronics #Nano #NanoTechnology

Forscher entwickeln Transistor aus Graphen-Nanobändern | #STEM #Research #Electronics #Nano #NanoTechnology | 21st Century Innovative Technologies and Developments as also discoveries, curiosity ( insolite)... | Scoop.it
From www.com-magazin.de - December 1, 2017 4:12 AM
Einem internationalen Forscherteam mit Beteiligung des Max-Planck-Instituts für Polymerforschung ist es gelungen, Nanotransistoren aus nur wenigen Atomen breiten Graphenbändern zu produzieren.


Forschung für die Nanotechnologie der Zukunft: Nur wenige Atome breite Graphenbänder, sogenannte Graphen-Nanoribbons, haben spezielle elektrische Eigenschaften, die sie zu viel versprechenden Kandidaten für die Nanoelektronik der Zukunft machen: Während Graphen – eine nur ein Atom dünne, bienenwabenförmige Kohlenstoffschicht – ein leitendes Material ist, kann es in Form von Nanobändern zum Halbleiter werden.

 

Das bedeutet, es hat eine genügend große Energie- oder Bandlücke, in der keine elektronischen Zustände möglich sind: Dadurch lässt es sich an- und abschalten – und wird so möglicherweise zu einem zentralen Bestandteil von Nanotransistoren.

 

Learn more / En savoir plus / Mehr erfahren:

 

https://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?&tag=Nano

 

Gust MEES's insight:
Einem internationalen Forscherteam mit Beteiligung des Max-Planck-Instituts für Polymerforschung ist es gelungen, Nanotransistoren aus nur wenigen Atomen breiten Graphenbändern zu produzieren.


Forschung für die Nanotechnologie der Zukunft: Nur wenige Atome breite Graphenbänder, sogenannte Graphen-Nanoribbons, haben spezielle elektrische Eigenschaften, die sie zu viel versprechenden Kandidaten für die Nanoelektronik der Zukunft machen: Während Graphen – eine nur ein Atom dünne, bienenwabenförmige Kohlenstoffschicht – ein leitendes Material ist, kann es in Form von Nanobändern zum Halbleiter werden.

 

Das bedeutet, es hat eine genügend große Energie- oder Bandlücke, in der keine elektronischen Zustände möglich sind: Dadurch lässt es sich an- und abschalten – und wird so möglicherweise zu einem zentralen Bestandteil von Nanotransistoren.

 

Learn more / En savoir plus / Mehr erfahren:

 

https://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?&tag=Nano

 

more...
No comment yet.
Sign up to comment
Scooped by Gust MEES
Scoop.it!

Mikroelektronik: Wie eine Vakuumröhre - nur klein, stromsparend und schnell | #Research #Electronics

Mikroelektronik: Wie eine Vakuumröhre - nur klein, stromsparend und schnell | #Research #Electronics | 21st Century Innovative Technologies and Developments as also discoveries, curiosity ( insolite)... | Scoop.it
From www.golem.de - November 11, 2016 9:48 AM
Freie Elektronen mit Licht statt Glühwendeln: Eine robustere und möglicherweise schnellere Alternative zum Transistor trickst sogar Einstein aus.

 

Gust MEES's insight:
Freie Elektronen mit Licht statt Glühwendeln: Eine robustere und möglicherweise schnellere Alternative zum Transistor trickst sogar Einstein aus.

 

 

more...
No comment yet.
Sign up to comment
Scooped by Gust MEES
Scoop.it!

NASA’s tiny 460GHz vacuum transistor that could one day replace silicon FETs | Nano Technology

NASA’s tiny 460GHz vacuum transistor that could one day replace silicon FETs | Nano Technology | 21st Century Innovative Technologies and Developments as also discoveries, curiosity ( insolite)... | Scoop.it
From www.extremetech.com - June 24, 2014 8:39 AM
Way back in the salad days of digital computing (the 1940s and '50s), computers were made of vacuum tubes -- big, hot, clunky devices that, when you got right down to it, were essentially glorified light bulbs. This is why early computers like the ENIAC weighed more than 27 tons and consumed more power than a small town. Later, obviously, vacuum tubes would be replaced by probably the greatest invention of all time -- the solid-state transistor -- which would allow for the creation of smaller, faster, cheaper, and more reliable computers. Fast forward to 2014, though, and the humble CMOS field-effect transistor (FET) is starting to show its age. We've pretty much hit the limit on shrinking silicon transistors any further, and they can't operate at speeds much faster than a few gigahertz. Which is why NASA's Ames Research Center is going back to the future with its new vacuum transistor -- a nanometer-scale vacuum tube that, in early testing, has reached speeds of up to 460GHz.
more...
Diane Johnson's curator insight, June 25, 2014 12:13 PM

Great engineering connections!
Sign up to comment
Scooped by Gust MEES
Scoop.it!

Researchers build carbon nanotube transistors that outperform those made with silicon | #Research #Electronics #Nano

Researchers build carbon nanotube transistors that outperform those made with silicon | #Research #Electronics #Nano | 21st Century Innovative Technologies and Developments as also discoveries, curiosity ( insolite)... | Scoop.it
From phys.org - January 20, 2017 8:57 AM

A team of researchers at Peking University has built a carbon nanotube-based working transistor and report that it outperformed larger transistors made with silicon. In their paper published in the journal Science...

 

Learn more / En savoir plus / Mehr erfahren:

 

http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=Electronics

 

http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=Nano

 

http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=transistors

 

Gust MEES's insight:

A team of researchers at Peking University has built a carbon nanotube-based working transistor and report that it outperformed larger transistors made with silicon. In their paper published in the journal Science...

 

Learn more / En savoir plus / Mehr erfahren:

 

http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=Electronics

 

http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=Nano

 

http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=transistors

 

more...
No comment yet.
Sign up to comment
Scooped by Gust MEES
Scoop.it!

Improvements in transistors will make flexible plastic computers a reality

Improvements in transistors will make flexible plastic computers a reality | 21st Century Innovative Technologies and Developments as also discoveries, curiosity ( insolite)... | Scoop.it
From www.nanowerk.com - January 23, 2015 3:26 PM

The scientists reviewed the latest developments in research on photoactive organic field-effect transistors; devices that incorporate organic semi-conductors, amplify weak electronic signals, and either emit or receive light.Organic field-effect transistors (OFETs) were developed to produce low-cost, large-area electronics, such as printable and/or flexible electronic devices.

Learn more:


http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=Nano


Gust MEES's insight:

The scientists reviewed the latest developments in research on photoactive organic field-effect transistors; devices that incorporate organic semi-conductors, amplify weak electronic signals, and either emit or receive light.Organic field-effect transistors (OFETs) were developed to produce low-cost, large-area electronics, such as printable and/or flexible electronic devices.

Learn more:


http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=Nano


more...
No comment yet.
Sign up to comment
Scooped by Gust MEES
Scoop.it!

Tiny transistors for extreme environs

Tiny transistors for extreme environs | 21st Century Innovative Technologies and Developments as also discoveries, curiosity ( insolite)... | Scoop.it
From www.nanowerk.com - March 20, 2014 6:55 AM
Tiny transistors for extreme environs
Gust MEES's insight:


Learn more about Nano-Technology:


http://www.scoop.it/t/21st-century-innovative-technologies-and-developments/?tag=Nano


more...
No comment yet.
Sign up to comment
About Follow us Resources Terms Mobile Features
Facebook
X
LinkedIn