Results 181 to 190 of about 336,103 (238)
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Nature Nanotechnology, 2012
The celebrated electronic properties of graphene have opened the way for materials just one atom thick to be used in the post-silicon electronic era. An important milestone was the creation of heterostructures based on graphene and other two-dimensional ...
T. Georgiou +14 more
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The celebrated electronic properties of graphene have opened the way for materials just one atom thick to be used in the post-silicon electronic era. An important milestone was the creation of heterostructures based on graphene and other two-dimensional ...
T. Georgiou +14 more
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Nature Nanotechnology, 2010
Graphene has changed from being the exclusive domain of condensed-matter physicists to being explored by those in the electron-device community. In particular, graphene-based transistors have developed rapidly and are now considered an option for post-silicon electronics.
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Graphene has changed from being the exclusive domain of condensed-matter physicists to being explored by those in the electron-device community. In particular, graphene-based transistors have developed rapidly and are now considered an option for post-silicon electronics.
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Artificial Synapses Emulated by an Electrolyte‐Gated Tungsten‐Oxide Transistor
Advances in Materials, 2018Considering that the human brain uses ≈1015 synapses to operate, the development of effective artificial synapses is essential to build brain‐inspired computing systems.
Jing-Ting Yang +8 more
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ACS Nano
Biological voltage-gated ion channels, which behave as life's transistors, regulate ion transport precisely and selectively through atomic-scale selectivity filters to sustain important life activities. By this inspiration, voltage-adaptable ionic transistors that use ions as signal carriers may provide an alternative information processing unit beyond
Tingting Mei +6 more
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Biological voltage-gated ion channels, which behave as life's transistors, regulate ion transport precisely and selectively through atomic-scale selectivity filters to sustain important life activities. By this inspiration, voltage-adaptable ionic transistors that use ions as signal carriers may provide an alternative information processing unit beyond
Tingting Mei +6 more
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Electronics and Power, 1969
In recent years, new knowledge of the solid state and the scientific study of surfaces and interfaces have resulted in a rapid development of the thin-film field-effect transistor. The t.f.t. can be formed on inexpensive substrates, such as glass and paper, and its future could lie in its use as a really cheap device of moderate performance, made with ...
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In recent years, new knowledge of the solid state and the scientific study of surfaces and interfaces have resulted in a rapid development of the thin-film field-effect transistor. The t.f.t. can be formed on inexpensive substrates, such as glass and paper, and its future could lie in its use as a really cheap device of moderate performance, made with ...
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Kondo effect in a single-electron transistor
Nature, 1997How localized electrons interact with delocalized electrons is a central question to many problems in sold-state physics. The simplest manifestation of this situation is the Kondo effect, which occurs when an impurity atom with an unpaired electron is ...
D. Goldhaber-Gordon +6 more
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Reactance Transistor and Transistor Parameters
IETE Journal of Research, 1966ABSTRACTOperation of the reactance transistor has been analysed in this paper by taking the physical parameters of the transistor into consideration. Since the inherent non-linearities of the transistor have been accounted for, it is pointed out that some of the assumptions not very clearly defined in literature may be dispensed with.Experimental ...
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"One Transistor, Two Transistors, Three"
IEEE Solid-State Circuits Magazine, 2013There are 24 hours in a day; and, then there?s the night!? This, I had just learned, was always going to be the answer to the question, ?How can we possibly finish this project by then??
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Transistor Electronics: Imperfections, Unipolar And Analog Transistors
Proceedings of the IEEE, 1952The electronic mechanisms that are of chief interest in transistor electronics are discussed from the point of view of solid-state physics. The important concepts of holes, electrons, donors, acceptors, and deathnium (recomibination center for holes and electrons) are treated from a unified viewpoint as imperfections in a nearly perfect crystal.
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1983
Field-effect transistors are a more recent development than bipolar transistors, and make use of a completely different mechanism to achieve amplification of a signal. Field-effect transistors (FETs) are unipolar, and involve only one type of charge carrier (electrons or holes) in their operation.
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Field-effect transistors are a more recent development than bipolar transistors, and make use of a completely different mechanism to achieve amplification of a signal. Field-effect transistors (FETs) are unipolar, and involve only one type of charge carrier (electrons or holes) in their operation.
openaire +1 more source