Moore's Law:
Is it the end of Moore's Law?
Moore's Law is about to get wierd
Transistors won't shrink beyond 2021
Are the chips finally down for Moore's Law?
Moore's Law seen hitting big bump at 14nm
Another step toward the end of Moore's Law
IBM clears path to 5nm with silicon nanosheets
US chip initiative aims for 'Moore's Law inflection'
International technology roadmap for semiconductors (ITRS) 2015
The end of Moore's Law: a new beginning for information technology
The nanosheet transistor is the next and maybe last step in Moore's Law
'Moore's Law is dead': three predictions about the computers of tomorrow
Visualization of Moore's Law versus actual microprocessor transistor count 1971-2019
Extending Moore's Law:
Vortex laser offers hope for Moore's Law
Intel turns to photonics to extend Moore's law
3D-stacked CMOS takes Moore's Law to new heights
Valleytronics discovery could extend limits of Moore's Law
DARPA continues investment in post-Moore's technologies
Fundamental chemistry findings could help extend Moore's Law
Extreme minateurisation:
Smallest transistor-ever
Single-atom transistor is 'perfect'
Stirring-up atomtronics in a quantum circuit
Research holds promise for atomic-scale circuitry
Meet the high-performance single-molecule diode
Scientists grow atomically thin transistors and circuits
Microprocessors based on a layer of just three atoms
World's first parallel computer based on biomoloecular motors
One-atom-thin silicon transistors hold promise for super-fast computing
Smallest transistor switches current with a single atom in solid electrolyte
Computer scientists create reprogrammable molecular computing system
Tiny compound semiconductor transistor could challenge silicon's dominance
Parallel computation with molecular-motor-propelled agents in nanofabricated networks
Denser chip design:
3D chip-stacking breakthrough
Adding additional functionality to silicon chips
New research advances heterogeneous 3D chip design
Liquid cooling moves onto the chip for denser electronics
A process to make relieable 3D chips developed at EPFL
Novel chip technology to power GRAPE-8 supercomputer
IBM Research debuts 2nm test chip with 50 billion transistors
New research could trigger revolution in computer electronics manufacturing
Ultralow-power devices:
Designing electric and magnetic order for low-energy computing
Ultralow power transistors that could function for years without a battery
Adiabatic quantum-flux-parametron: towards building extremely energy efficient circuits and systems
Next-generation materials:
Bringing silicon to life
Exotic forms of silicon
Computing faster with quasi-particles
Beyond silicon: transistors without silicon
Could black phophorous be the next silicon?
Engineers unlock potential for faster computing
China sets sights on superconducting computer
A landscape of the new dark silicon design regime
Smallest Swiss Cross - made from 20 single atoms
Tuning quantum materials for science & technology
Diamonds closer to becoming ideal semiconductors
Closing the gap: on the road to terahertz electronics
Physicists discover new quantum electronic material
Building nanomaterials for next-generation computing
Scientists push 'valleytronics' one step closer to reality
New species of electrons can lead to better computing
Accidental discovery dramatically improves conductivity
Liquid metal breakthrough ushers new wave of electronics
DARPA pledges another $300M for post-Moore's readiness
Zero Field Switching (ZFS) effect in a nanomagnetic device
Electronics advance moves closer to a world beyond silicon
Ultra-thin ferroelectric material for next-generation electronics
Quick-change materials break the silicon speed limit for computers
Physicists discover new type of material that may speed computing
New materials for computer chips could reduce energy consumption
Scientists discover new magnet with nearly massless charge carriers
Magnetic antiparticles offer new horizons for information technologies
The materials breakthrough that might lead to computers 1000x faster
Gadget genius:- nanotechnology breakthrough is big deal for electronics
How the Gordon Bell Prize winners used Summit to illuminate transistors
NRL researchers discover novel materials for cooling of electronic devices
New ultrathin semiconductor materials exceed some of silicon's 'secret' powers
Semiconductor-free microelectronics are now possible, thanks to metamaterials
Multilingual circuit links sound, light and radio waves: Optomechanical transducer
Integration of novel materials with silicon chips makes new 'smart' devices possible
Complex materials can self-organize into circuits, may form basis for multifunction chips
Semiconducting properties of Si-III might lead to unpredictable technological advancement
Bridging superconductor & semiconductor technology for the next generation supercomputers
After 85-year search, massless particle with promise for next-generation electronics discovered
New forms of computing:
To infinity and beyond
Consider the 'anticrystal'
Analog computing returns
Radical next-gen computing
Future computers that are 'normally off'
New step towards computers of the future
One step closer to a new kind of computer
A computer that operates on water droplets
Future computers: digital, quantum, biological
Future computing: digital, quantum, biologocal
Metamaterial theory that acts as an analog computer
The prototype of a chemical computer detects a sphere
Crystal ball gazing - IBM's vision of the future of computing
Physicists write with light and turn crystal into an electrical circuit
Navigating the seismic shift of post-Moore computer systems design
Unusual quantum liquid on crystal surface could inspire future electronics
Photonics:
World's first photonic router
Computing at the speed of light
Scalable optical learning operator
A switch for light-wave electronics
Opening a new route to photonics
Roadmap on multimode photonics
Roadmap on topological photonics
Manipulating quantum light on a chip
Performing computational logic with light
Developng technologies that run on light
White lightning for the electronics industry
Step towards 'holy grail' of silicon photonics
Fujitsu demos silicon photonics server links
The world's fastest nanoscale photonic switch
Superfast flourescence sets new speed record
Breakthrough for photonic-electronic microchips
2022 roadmap on integrated quantum photonics
Photons open the gateway for quantum networks
Engineers take major step toward photonic circuits
Researchers clear the way for fast plasmonic chips
IBM advances silcon photonics, quantum computing
Using optical chaos to control the momentum of light
New research lights the way for super-fast computers
The future of quantum dot photonic integrated circuits
A low-energy optical circuit for a new era of technology
Silicon photonics will revolutionize data centers in 2015
Photonic research to drive future computing technology
Developing smarter, faster machine intelligence with light
NEC develops silicon integrated optical switch technology
Breakthrough heralds super-efficient light-based computers
Researchers develop photonic processor using polarisation
Silicon Integrated nanophotonics technology: from lab to fab
Material could bring optical communications onto silicon chips
New technique to help produce next generation photonic chips
Trapping light that doesn't bounce off track for faster electronics
Light-enabled microprocessor holds promise for faster computers
Record-breaking chip can transmit entire Internet's traffuc per second
Breakthrough optics pave way for new class of intriguing technologies
Breakthrough in photonics could allow for faster and faster electronics
Powering future optical microsystems with chip-scale integrated photonics
Plasmonic device offers broadband modulation to optical links at 100Gbit/s
Engineers demo first processor that uses light for ultrafast communications
New half-light half-matter particles may hold the key to a computing revolution
Polarization-selective reconfigurability in hybridized-active-dielectric nanowires
Scientists invent new way to control light, critical for next gen of super computing
New silicon chip for helping build quantum computers and securing our information
Pioneering research develops new way to capture light - for the computers of tomorrow
Reserachers perform simple calculations by shining light patterns through a translucent cube
IEEE photonics society's optical interconnects conference to explore next-gen supercomputers
Carbon Nanotubes:
Computing with carbon nanotubes
Reaiizing carbon nanotube integrated circuits
Future electronics based on carbon nanotubes
IBM bets on nanotubes to succeed silicon in 2020
IBM takes step toward nanotube-based computing
Researchers build carbon nanotube microprocessor
Future flexible electronics based on carbon nanotubes
Production of carbon nnanotube microprocessors gets scaled up
Stanford engineers build basic computer using carbon nanotubes
Spintronics:
Spintronics discovery
Spintronics just got faster
A new spin on electronics
The spintronics challenge
Gigantic ultrafast spin currents
Physicists discover new types of spin waves
Switched on: a breakthrough for spintronics
A mini-antenna for the data processing of tomorrow
Researchers create nanoscale spinning magnetic droplet
Move over, silicon switches: there's a new way to compute
New magnitic semiconductore material holds promise for Spinronics
Young scientists discovers magnetic material unnecessary to create spin current
Graphene:
A quantum of current
Adding hydrogen to graphene
Graphene circuit's wireless promise
Secret to 3D graphene? Just freeze it
Branching out: making graphene from gum trees
Advancing graphene for post-silicon computer logic
A graphene chip filters light to boost communications
Straintronics: engineers create piezoelectric graphene
Global recognition for a novel form of artificial graphene
Layered graphene sandwich for next generation electronics
Exotic 'second sound' phenomenon observed in pencil lead
Physicists discover new 2D material that could upstage graphene
Researchers advance graphene's potential as silicon's alternative
With a simple twist, a 'magic' material is mow the big thing in physics
Graphene transistor could mean computers that are 1,000 times faster
Electricity can flow through graphene at high frequencies without energy loss
Safety assessment of graphene-based materials: focus on human health and environment
Quantum dot devices:
Quantum dot solids: this generation's silicon wafer?
New state of quantum matter may have big impact on electronics
Techniques to improve carbon superlattices for quantum electronic devices
Solotronics: new quantum dots herald a new era of electronics operating on a single-atom level
Magnetism:
Magnetism and an electric field
Computing with magnetic 'tornadoes'
Modifying magnetic properties with electricity
Will magnets be the cure for what ails Moore's Law?
MIT researchers discover a new kind of magnetism
Taming mavericks: Stanford researchers use synthetic magnetism
Scientists reveal inner workings of magnets - a finding that could lead to faster computers
Experiments show magnetic chips could dramatically increase computing's energy efficiency
Biological Computing:
Breakthrough in organic electronics
How to make a computer from a living cell
Precise and programmable biological circuits
Biology will be he next great computing platform
The next step in DNA computing:GPS mapping?
Rare forms: novel structures built from DNA emerge
Embodied molecular computation: potential and challenges
Scientists use DNA to assemble a transistor from graphene
Super-fast computer made from DNA 'grows as it computes'
DNA 'origami' could help build faster, chaeaper computer chips
Researchers use single molecule of DNA to create smallest diode
Evidence of unprecedented high electronic conductivity in mammalian pigment based eumelanin
Breakthrough in molecular electronics paves the way for DNA-based computer circuits in the future