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Branch of nanotechnology
Molecular-scale electronics, also called single-molecule electronics, is a branch of nanotechnology that uses single molecules, or nanoscale collections
Molecular-scale_electronics
Branch of chemistry and electronics
limits of small-scale conventional silicon integrated circuits. Molecular scale electronics, also called single-molecule electronics, is a branch of nanotechnology
Molecular_electronics
Use of nanotechnology in electronic components
Molecular electronics is a technology under development brings hope for future atomic-scale electronic systems. A promising application of molecular electronics
Nanoelectronics
Technology with features near one nanometer
anisotropic superparamagnetic materials such as magnetic nano chains. Molecular scale electronics seeks to develop molecules with useful electronic properties
Nanotechnology
Hypothetical end-of-the-world scenario
nanotechnologies Nanosystems: Molecular Machinery, Manufacturing, and Computation describes manufacturing systems that are desktop-scale factories with specialized
Gray_goo
American physical chemist (1942–2026)
interplay between molecular structure and molecular properties. He is widely credited as the "father of molecular-scale electronics" thanks to his groundbreaking
Mark_Ratner
Computing network of nanomachines, at nanoscale
based on novel nanomaterials. Recent advancements in carbon and molecular electronics have opened the door to a new generation of electronic nanoscale
Nanonetwork
Overview of and topical guide to nanotechnology
Nanoparticles Molecular self-assembly Self-assembled monolayer Supramolecular assembly DNA nanotechnology Nanoelectronics Molecular scale electronics Nanolithography
Outline_of_nanotechnology
Design and manufacture of artificial nucleic acid structures
proteins to determine structures. Potential applications in molecular scale electronics and nanomedicine are also being investigated. The conceptual
DNA_nanotechnology
American physicist
theoretical condensed matter physicist known for her research on molecular scale electronics and non-equilibrium quantum systems. Other topics in her research
Aditi_Mitra
Electrically conductive molecular chains
DNA lacks electronic connectivity and is unsuited for connecting molecular electronics components. Some varieties of carbon nanotubes (CNTs) are conducting
Molecular_wire
Technology
the societal implications of molecular nanotechnology. Any sort of material designed and engineered at the nanometer scale for a specific task is a smart
Molecular_nanotechnology
Field of study in molecular properties
successes of molecular engineering have come in the fields of immunotherapy, synthetic biology, and printable electronics (see molecular engineering applications)
Molecular_engineering
Molecule that performs a logical operation
conditions are met. Molecular scale electronics Molecular machine Chemical computer Host-guest chemistry Molecular switch Photoswitch Molecular memory Quantum
Molecular_logic_gate
Hypothetical material
Baxter and Alastair Reynolds. Limits of computation Molecular scale electronics Molecular electronics Computon Amato, Ivan (23 August 1991). "Speculating
Computronium
Surname list
theoretical condensed matter physicist known for her research on molecular scale electronics and non-equilibrium quantum systems Amit Mitra, politician and
Mitra_(surname)
Emerging technology field
delivery. This method for manufacturing on nanotechnology scale is in use in the electronics industry since 2008. So, practical nanorobots should be integrated
Nanorobotics
Very small light-emitting device
laser device, with the advantage of operating at the nanoscale. Built by molecular-beam epitaxy, nanowire lasers offer the possibility for direct integration
Nanowire_laser
Award
towards the goal of constructing atomically precise products through molecular machine systems. Input on prize candidates comes from both Foresight Institute
Feynman Prize in Nanotechnology
Feynman_Prize_in_Nanotechnology
interest include fundamental properties of oxide ceramics at nanometer length scales, and fast-ion conductor (advanced superionic conductor)/electronic conductor
Nanoionics
Computer using carbon nanotube transistors
PMID 24067711. S2CID 205235321. Moore, Samuel K. (14 December 2020). "Scaled-Down Carbon Nanotube Transistors Inch Closer to Silicon Abilities Solution
Carbon_nanotube_computer
Wire with a diameter in the nanometres
Conducting nanowires offer the possibility of connecting molecular-scale entities in a molecular computer. Dispersions of conducting nanowires in different
Nanowire
Used to create structures that only measure nanometers
nanometer-scale structures on various materials. The modern term reflects on a design of structures built in range of 10−9 to 10−6 meters, i.e. nanometer scale
Nanolithography
Engineering on the nanoscale
colloidal materials. 1959: Richard Feynman gave the first lecture on molecular technology and engineering or just nanoengineering. 1981: Gerd Binnig
Nanoengineering
Form of chemical reactor
manufactures products on a nanotechnological scale. The term nanoreactor refers to an isolated system on the nanometer scale that is used to run chemical reactions
Nanoreactor
Intersection of nanotechnology and biology
systems are inherently nano in scale; nanoscience must merge with biology in order to deliver biomacromolecules and molecular machines that are similar to
Nanobiotechnology
Academic journal
by the Institute of Electrical and Electronics Engineers IEEE Communications Society covering research on molecular and biological signal processing. It
IEEE Transactions on Molecular, Biological and Multi-Scale Communications
IEEE_Transactions_on_Molecular,_Biological_and_Multi-Scale_Communications
Term for chemical syntheses
advanced mechanosynthesis regards its potential use in assembly of molecular-scale devices. Such techniques appear to have many applications in medicine
Mechanosynthesis
group. Nanocellulose based materials have limitation in cost for large-scale production and its specificity. Current research is based on the synthesis
Nanotechnology for water purification
Nanotechnology_for_water_purification
Fictional uses of nanotechnology
nanotechnology is commonplace. Nanoscale warfare, fabrication at the molecular scale, and self-assembling islands all exist. The morphing technology in
Nanotechnology_in_fiction
Movement of ions in an electrical field
Electromigrated nanogaps have been proposed for use as electrodes in molecular scale electronics and as quantum tunneling sensors. Researchers have used feedback
Electromigration
Study of light on the nanometer scale
the study of the behavior of light on the nanometer scale, and of the interaction of nanometer-scale objects with light. It is a branch of optics, optical
Nanophotonics
Class of devices for nanoscale functionality
positional assembly. These approaches utilize the concepts of molecular self-assembly and/or molecular recognition. This allows fabrication of much smaller structures
Nanoelectromechanical_systems
Electrical circuits operating on the nanometer scale
Nanocircuits are electrical circuits operating on the nanometer scale where quantum mechanical effects become important. One nanometer is equal to 10−9
Nanocircuitry
Subgenre of science fiction
Molecular self-assembly Self-assembled monolayer Supramolecular assembly DNA nanotechnology Solid lipid nanoparticle Nanoelectronics Molecular scale electronics
Nanopunk
Israeli physicist
there in 2003. Her doctoral dissertation, Self-Assembly of Molecular-Scale Electronics by Genetic Recombination, was jointly supervised by Erez Braun
Kinneret_Keren
Thin sheet made of aggregated carbon nanotubes
showing promise as vehicle armor, personal armor, and next-generation electronics and displays. Buckypaper is a macroscopic aggregate of carbon nanotubes
Buckypaper
Branch of microscopy
the final STM images, usually using a black and white or an orange color scale. In constant interaction mode (often referred to as "in feedback"), a feedback
Scanning_probe_microscopy
Tata Institute of Fundamental Research Center for Excellence in Nano-Electronics, Department of Electrical Engineering, IIT Bombay Nanoscale Research
List of nanotechnology organizations
List_of_nanotechnology_organizations
Sub-discipline of electrical engineering
very large-scale integration. It deals with fabrication of ICs and various electronic components. In designing an integrated circuit, electronics engineers
Electronics_engineering
assessing the safety of nanometre scale molecular arrangements for many years and many substances comprising nanometre scale particles have been in use for
Regulation_of_nanotechnology
Nanotechnology foundry
A nanofoundry is considered to be a foundry that performs on a scale similar to nanotechnology. This concept makes it similar to the role that the nanofactory
Nanofoundry
Materials with granular size 1 to 100 nm
and atomic or molecular structures. A bulk material should have constant physical properties regardless of its size, but at the nano-scale this is often
Nanomaterials
American chemist (1933–2022)
considered to have potential applications in nanomaterials and molecular scale electronics. Robert Curl's 1985 paper entitled "C60: Buckminsterfullerine"
Robert_Curl
enhancement, nanomedicine, better food production methods, nutrition and large-scale infrastructure auto-fabrication. Nanotechnology's reduced size may allow
Impact_of_nanotechnology
well as the feasibility of the applications envisioned by advocates of molecular nanotechnology, and with governments moving to promote and fund research
History_of_nanotechnology
Study of friction, wear, adhesion and lubrication phenomena at the nanoscale
20th century. In 1969 the very first method to study the behavior of a molecularly thin liquid film sandwiched between two smooth surfaces through the SFA
Nanotribology
MOS field-effect transistor with more than one gate
IBM, TSMC, UC Berkeley, Infineon Technologies, Intel, AMD, Samsung Electronics, KAIST, Freescale Semiconductor, and others, and the ITRS predicted correctly
Multigate_device
Lancaster University, UK). The driving idea in UE (also called molecular-scale electronics) is that properly designed "electroactive" molecules, of between
Unimolecular_rectifier
Working group to develop a common framework for nanoscale and molecular communication
The IEEE P1906.1 - Recommended Practice for Nanoscale and Molecular Communication Framework is a standards working group sponsored by the IEEE Communications
IEEE_P1906.1
Extremely small sensors
nanosensors; these include top-down lithography, bottom-up assembly, and molecular self-assembly. There are different types of nanosensors in the market
Nanosensor
Nanoparticles Molecular self-assembly Self-assembled monolayer Supramolecular assembly DNA nanotechnology Nanoelectronics Molecular scale electronics Molecular logic
Carbon nanotube metal matrix composite
Carbon_nanotube_metal_matrix_composite
Study of the toxicity of nanomaterials
The biological systems are themselves still not completely known at this scale. Visualisation methods such as electron microscopy (SEM and TEM) and atomic
Nanotoxicology
Radio transmitter using nanotechnology
articles on Nanoelectronics Single-molecule electronics Molecular-scale electronics Molecular logic gate Molecular wires Solid-state nanoelectronics Nanocircuitry
Nanoradio
Measure of a civilization's evolution
The Kardashev scale (Russian: шкала Кардашёва, romanized: shkala Kardashova) is a method of measuring a civilization's level of technological advancement
Kardashev_scale
Field of materials science
science of molecular computers. Electronics portal Annealing Bioplastic Carbon nanotube Circuit deposition Conductive ink Flexible electronics Laminar Melanin
Organic_electronics
Electrically neutral group of two or more atoms
molecules Molecular biology Molecular design software Molecular engineering Molecular geometry Molecular Hamiltonian Molecular ion Molecular modelling
Molecule
at the atomic scale/resolution. Numerical methods of solution of these models are called molecular dynamics (MD), and sometimes molecular mechanics (especially
Nanomechanics
Physical quantity
Molecular Conductance ( G = I / V {\displaystyle G=I/V} ), or the conductance of a single molecule, is a physical quantity in molecular electronics. Molecular
Molecular_conductance
Field of chemistry
nanoscale. In supramolecular electronics, assemblies of pi-conjugated systems on the 5 to 100 nanometer scale are prepared by molecular self-assembly with the
Supramolecular_electronics
American multinational computational software company
on chips (SoCs), printed circuit boards, as well as develops large-scale molecular modelling applications and toolkits for pharmaceutical drug developers
Cadence_Design_Systems
Research and education center
nanotech or nano) is the study of manipulating matter on an atomic and molecular scale. Generally, nanotechnology deals with structures sized between 1 and
Center for Nanotechnology in Society
Center_for_Nanotechnology_in_Society
simple hydrodynamic systems and absent from the Hagen–Poiseuille equation. Molecular dynamic simulations better characterize the flow of water molecules through
Nanotube_membrane
Diode that emits light from an organic compound
technologies List of flat panel display manufacturers Molecular electronics – Branch of chemistry and electronics Organic light-emitting transistor – Form of transistor
OLED
Environmental remediation process
identified around 70 nanoremediation projects worldwide at pilot or full scale. During nanoremediation, a nanoparticle agent must be brought into contact
Nanoremediation
Molecular Electronics (ME) Any system with atomically precise electronic devices of nanometer dimensions, especially if made of discrete molecular parts
Glossary_of_nanotechnology
Environmentally-oriented nanotechnology
environment friendly technologies utilized to synthesize particles in nano scale; on the other hand it refers to the nanoparticles synthesis mediated by
Green_nanotechnology
physics Molecular radiation Molecular scale electronics Molecular sieve Molecular tagging velocimetry Molecular term symbol Molecular vibration Molecule Molecule-based
Index_of_physics_articles_(M)
Disciplines into which the field of engineering is conventionally divided
Electrical engineering comprises the study and application of electricity, electronics and electromagnetism. Materials engineering is the application of material
List_of_engineering_branches
Branch of engineering
application of equipment, devices, and systems that use electricity, electronics, and electromagnetism. It emerged as an identifiable occupation in the
Electrical_engineering
IEEE award
Award in Nanotechnology is given by the Institute of Electrical and Electronics Engineers Nanotechnology Council for research in nanotechnology. The
Pioneer Award in Nanotechnology
Pioneer_Award_in_Nanotechnology
Electronic devices created by various printing methods
2006-11-30. "iNEMI | International Electronics Manufacturing Initiative". www.inemi.org. Printed Organic and Molecular Electronics, edited by D. Gamota, P. Brazis
Printed_electronics
Organic polymers that conduct electricity
mostly operating at the scale of less than 100 nanometers, "molecular" electronic processes can collectively manifest on a macro scale. Examples include quantum
Conductive_polymer
Research center in Toulouse, France
Metallurgy M3: Multi-Scale and Multi-functional Materials SINanO: Surfaces, Interfaces and NanoObjects MEM: Materials and devices for Electronics and Magnetism
Centre for Materials Elaboration and Structural Studies
Centre_for_Materials_Elaboration_and_Structural_Studies
List of publications of the Institute of Electrical and Electronics Engineers
Institute of Electrical and Electronics Engineers (IEEE) constitute around 30% of the world literature in the electrical and electronics engineering and computer
List_of_IEEE_publications
Interlocked molecular structure resembling a dumbbell
Rotaxane-based molecular machines have been of initial interest for their potential use in molecular electronics as logic molecular switching elements
Rotaxane
Very small devices that incorporate moving components
than with larger scale mechanical devices. MEMS technology is distinguished from molecular nanotechnology or molecular electronics in that the latter
MEMS
SI prefix denoting 10 to the -9th power
of 10−9 or 0.000000001. It is frequently encountered in science and electronics for prefixing units of time and length. The prefix derives from the Greek
Nano-
Scientific field of study
archaeology. Atomic, molecular, and optical physics (AMO) is the study of matter—matter and light—matter interactions on the scale of single atoms and
Physics
Chemical compound
nylon 46 has been successfully applied in the following applications and electronics and electrical end-markets. As early as the 1930s, when Wallace Carothers
Nylon_46
Solutions Windows OpenFOAM OpenFOAM Foundation Windows, macOS, Linux OpenSees PEER Center / community Windows, Linux, Unix-like SimScale SimScale GmbH Web
List of civil engineering software
List_of_civil_engineering_software
Possible future digital logic technologies
field-effect transistor Graphene nanoribbons Molecular electronics Spintronics — many variants Future low-energy electronics technologies, ultra-low dissipation
Beyond_CMOS
Iranian–British physicist and professor of quantum engineering
the University of Warwick. He is known for his work in theory of molecular electronics and quantum, phonon and spin interference for quantum energy conversion
Hatef_Sadeghi
Void between celestial bodies
fluxes of energetic electrons that can permanently damage satellite electronics, interfering with shortwave radio communication and GPS location and
Outer_space
Application of molecular-scale engineering to heart medicine
Heart nanotechnology is the "Engineering of functional systems at the molecular scale" ("Nanotechnology Research"). Nanotechnology deals with structures
Heart_nanotechnology
Indian physicist and nanoscientist
an Indian physicist and nanoscientist known for his research in molecular electronics, unconventional computing, and biophysics of consciousness. He is
Anirban_Bandyopadhyay
Engineering discipline that deals with control systems
some hydro plants is the governor. Later on, previous to modern power electronics, process control systems for industrial applications were devised by
Control_engineering
One quintillionth of a second
chemical bonds and molecular vibration happen in femtoseconds. Observing the motion of electrons happens on the attosecond scale. The number of electrons
Attosecond
Small piece of a single crystal used to initiate growth of a larger crystal
random flow. This random flow permits for the possibility of two or more molecular compounds to interact. This interaction can potentiate intermolecular
Seed_crystal
Chemical semiconductor compound
may be used in the electrodes and electronics of implants in living organisms. Epitaxy Lithium-ion battery Molecular-beam epitaxy Schottky diode Semiconductor
Gallium_nitride
Generalized version of classical Green's function
publisher (link) Tewary, V. K. (22 October 2009). "Extending the time scale in molecular dynamics simulations: Propagation of ripples in graphene". Physical
Multiscale_Green's_function
Branches of science that involve the scientific study of life
genetics. Some focus on the micro scale (e.g., molecular biology, biochemistry), while others focus on larger scales (e.g., cytology, immunology, ethology
List_of_life_sciences
American engineer of Indian origin
Society (EDS) and the Electronics Packaging Society (EPS). "Copper-Copper Thermal Compression Bonding Scheme for Heterogeneous Wafer-scale Integration," IEEE
Subramanian_Iyer
Sub-field of quantum physics and optics
Quantum optics is a branch of atomic, molecular, and optical physics and quantum chemistry that studies the behavior of photons (individual quanta of
Quantum_optics
Chemical engineer
doi:10.1021/cm9701163. Wilson, Elizabeth (19 December 2011). "Molecular Electronics: Schön's Fraud". C&EN. Retrieved 23 February 2013. Arnaud, Celia
Zhenan_Bao
Software engineering approach to designing and developing information systems
Facebook and Airbnb started using the phrase data engineer. Due to the new scale of the data, major firms like Google, Facebook, Amazon, Apple, Microsoft
Data_engineering
Computing using molecular biology hardware
Membrane computing Molecular electronics Peptide computing Parallel computing Quantum computing Transcriptor Wetware computer Molecular logic gate Church
DNA_computing
Biological molecules for computations
Biotechnology Computational gene Computer DNA computing Human biocomputer Molecular electronics Nanotechnology Nanobiotechnology Organoid intelligence Peptide computing
Biological_computing
American chemist
process, and graphene as a scaffolding gel. Tour worked in molecular electronics and molecular switching molecules. He pioneered the development of the
James_Tour
Type of field-effect transistor
to realize low-cost, large-area electronic products and biodegradable electronics. OFETs have been fabricated with various device geometries. The most
Organic field-effect transistor
Organic_field-effect_transistor
MOLECULAR SCALE-ELECTRONICS
MOLECULAR SCALE-ELECTRONICS
Male
English
Short form of English Caleb, CALE means "dog" or "rabid."
Surname or Lastname
English
English : from Middle English sale ‘hall’, a topographic name for someone living at a hall or manor house, or a metonymic occupational name for someone employed at a hall or manor house.English : from Middle English salwe ‘sallow’ (a tree, a kind of willow), hence a topographic name for someone who lived by a sallow tree, or a habitational name from for example Sale in Greater Manchester, named from the old dative form of this word, in atte sale.French (Salé) : from Old French salé ‘salty’, hence a topographic or occupational name for someone who lived by or worked in a salt marsh, or, in a figurative sense, a nickname for an amusing or witty person.
Boy/Male
Tamil
Balance scale, Zodiac sign libra
Biblical
the scape-goat
Boy/Male
Hindu, Indian, Marathi
Scale Holder
Boy/Male
English American Hebrew
Bold; Surname derived from Charles.
Boy/Male
Arabic, Muslim
Balance; Scales
Boy/Male
Bengali, Hindu, Indian, Kannada, Marathi, Telugu
Balance Scale; Zodiac Sign Libra
Surname or Lastname
English (Devon)
English (Devon) : variant of Small.
Girl/Female
African, Bengali, Gujarati, Hindu, Indian, Kannada, Kenyan, Malayalam, Marathi, Sanskrit, Sindhi, Tamil, Telugu
Small; Atom; Black; Molecule; Seed
Boy/Male
Indian
Balance, Scales
Boy/Male
American, Arabic, Australian, British, Chinese, Christian, English, Hebrew
Dog; Bold; Surname Derived from Charles; Courageous
Boy/Male
Muslim
Balance, Scales
Girl/Female
African, Arabic
Scale
Boy/Male
African, Arabic, Swahili
Expensive; Scare; Costly
Boy/Male
Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi, Tamil, Telugu
Seventh Note on Indian Musical Scale
Boy/Male
Muslim
Balance, Scales
Surname or Lastname
English
English : variant of Seal 1–4; it is also established as a surname in Ireland.
Boy/Male
Shakespearean
Henry VI, Part 2' Lord Scales.
Boy/Male
Biblical
The scape-goat.
MOLECULAR SCALE-ELECTRONICS
MOLECULAR SCALE-ELECTRONICS
Boy/Male
Tamil
Satya Prakash | ஸதà¯à®¯ பà¯à®°à®•ாஷ
Light of truth
Boy/Male
Tamil
Darshish | தரà¯à®·à¯€à®·Â
Contemplation, Examination
Boy/Male
Indian, Sanskrit
Weapon of the Gods
Girl/Female
German English French
CountIy.
Male
English
Medieval pet form of English Gilbert, GIB means "pledge-bright."
Boy/Male
Hindu
Excellent
Girl/Female
German, Swedish
Pearl
Girl/Female
Tamil
Beautiful eyes, A woman with Lovely eyes
Male
Yiddish
(×§Ö¸×פֶּעל) Yiddish pet form of Hebrew Yaaqob, KOPPEL means "supplanter."
Male
English
Older spelling of German Karl, CARL means "man."Â
MOLECULAR SCALE-ELECTRONICS
MOLECULAR SCALE-ELECTRONICS
MOLECULAR SCALE-ELECTRONICS
MOLECULAR SCALE-ELECTRONICS
MOLECULAR SCALE-ELECTRONICS
n.
A scale insect. (See below.)
a.
Composed of scales lying over each other; as, a scaly bulb; covered with scales; as, a scaly stem.
a.
Having feathers which in form, color, or arrangement somewhat resemble scales; as, the scaled dove.
a.
Resembling scales, laminae, or layers.
a.
Scale-winged.
pl.
of Scala
a.
Covered or abounding with scales; as, a scaly fish.
v. t.
To weigh or measure according to a scale; to measure; also, to grade or vary according to a scale or system.
n.
The graduated series of all the tones, ascending or descending, from the keynote to its octave; -- called also the gamut. It may be repeated through any number of octaves. See Chromatic scale, Diatonic scale, Major scale, and Minor scale, under Chromatic, Diatonic, Major, and Minor.
v. t.
To strip or clear of scale or scales; as, to scale a fish; to scale the inside of a boiler.
a.
Without scales, or with the scales removed; as, scaled herring.
imp. & p. p.
of Scale
n.
A basis for a numeral system; as, the decimal scale; the binary scale, etc.
a.
Having only one eye; with one eye only; as, monocular vision.
n.
A small appendage like a rudimentary leaf, resembling the scales of a fish in form, and often in arrangement; as, the scale of a bud, of a pine cone, and the like. The name is also given to the chaff on the stems of ferns.
adv.
With molecules; in the manner of molecules.
a.
Pertaining to, connected with, produced by, or consisting of, molecules; as, molecular forces; molecular groups of atoms, etc.
a.
Resembling a scale; also, covered with scales; scaly.
n.
Hence, any layer or leaf of metal or other material, resembling in size and thinness the scale of a fish; as, a scale of iron, of bone, etc.
a.
Scurvy; paltry; as, scald rhymers.