2015discoveries Stable long term operation of graphene devices achieved (Kopie 1 march 17th, 2015maps predict strength of structures:
2015stable long term operation of graphene devices achieved (Kopie 1 march 17th, 2015four Scientists With Major Contributions to Research at Brookhaven Lab Named American Physical Society Fellows March 17th, 201
Few studies explore toxicity of cellulose nanocrystals March 10th, 2015thin films Graphene meets heat waves March 9th, 2015ciqus researchers obtain high-quality perovskites over large areas by a chemical method March 4th,
researchers added glass cage-like coating and graphene oxide March 2nd, 2015researchers turn unzipped nanotubes into possible alternative for platinum:
or graphene based supercapacitors for attaching redox active material on the current collector. Without the mass of binding materials, the hybrid electrode is a good candidate to make lightweight supercapacitors."
#Printing 3-D graphene structures for tissue engineering: A new ink formulation allows for the 3-D printing of graphene structures Abstract:
Ever since single-layer graphene burst onto the science scene in 2004, the possibilities for the promising material have seemed nearly endless.
With its high electrical conductivity, ability to store energy, and ultra-strong and lightweight structure, graphene has potential for many applications in electronics, energy, the environment,
and even medicine. Now a team of Northwestern University researchers has found a way to print three-dimensional structures with graphene nanoflakes.
The fast and efficient method could open up new opportunities for using graphene printed scaffolds regenerative engineering and other electronic or medical applications.
Led by Ramille Shah assistant professor of materials science and engineering at Northwestern's Mccormick School of engineering and of surgery in the Feinberg School of medicine,
and her postdoctoral fellow Adam Jakus, the team developed a novel graphene-based ink that can be used to print large, robust 3-D structures."
"People have tried to print graphene before, "Shah said.""But it's been a mostly polymer composite with graphene making up less than 20 percent of the volume."
"With a volume so meager, those inks are unable to maintain many of graphene's celebrated properties.
But adding higher volumes of graphene flakes to the mix in these ink systems typically results in printed structures too brittle and fragile to manipulate.
Shah's ink is the best of both worlds. At 60-70 percent graphene, it preserves the material's unique properties,
including its electrical conductivity. And it's flexible and robust enough to print robust macroscopic structures.
the graphene flakes are mixed with a biocompatible elastomer and quickly evaporating solvents.""It's a liquid ink,
"Supported by a Google Gift and a Mccormick Research Catalyst Award, the research is described in the paper"Three-dimensional printing of high-content graphene scaffolds for electronic and biomedical applications,"published in the April
An expert in biomaterials, Shah said 3-D printed graphene scaffolds could play a role in tissue engineering and regenerative medicine as well as in electronic devices.
"The printed graphene structure is also flexible and strong enough to be sutured easily to existing tissues,
and graphene's electrical conductivity most likely contributed to the scaffold's biological success."Cells conduct electricity inherently--especially neurons,
"The graphene-based ink directly follows work that Shah and her graduate student Alexandra Rutz completed earlier in the year to develop more cell-compatible, water-based, printable gels.
The company has created a graphene-based product for the remediation of water contaminated by oil and hydrocarbons Abstract:
Directa Plus at 18th European Forum on Eco-innovation to present GENIUS, the innovative project that leads to the creation of a graphene-based product able to remove hydrocarbons from polluted water
project success stories, this afternoon from 2. 30 pm to 4. 30 pm, Directa Plus will present GENIUS, Graphene.
The creation of this graphene-based oil-adsorbent product, commercialized as Grafysorber, has been promoted by GENIUS project
which develops processes for the production of a new generation of graphene-based nanomaterials targeting existing global markets.
The headquarter is in Lomazzo (near Como), inside the Science and Technological Park of Comonext, where in June 2014 Directa Plus opened Le Officine del Grafene Graphene Factory, the largest European
pristine graphene nanoplatelets industrial production unit, based on a patented and approved technology. For more information, please click herecontacts:
Graphene Taking control of light emission: Researchers find a way of tuning light waves by pairing 2 exotic 2-D materials May 20th, 2015news and information SUNY Poly CNSE and NIOSH Launch Federal
Uncovering the real history of art using a graphene scanner Museum curators, art restorers, archaeologists and the broader public will soon be able to learn much more about paintings and other historic objects,
thanks to an EU project which has become a pioneer in noninvasive art exploration techniques, based on a graphene scanner.
Uncovering the real history of art using a graphene scanner Luxembourg Posted on May 21st,2015 Researchers working on INSIDDE,
have developed a graphene scanner that can explore under the surface of a painting, or through the dirt covering an ancient object unearthed in an archaeological dig,
Until graphene, considered to be one of the materials of the future came along it was difficult to generate terahertz frequencies to acquire such detail.
Graphene in this application acts as a frequency multiplier, allowing scientists to reveal previously hidden features such as brushstroke textures, pigments and defects,
Uncovering the real history of art using a graphene scanner May 21st, 2015directa Plus in Barcelona to present the innovative project GENIUS for oil spills cleanup activities:
The company has created a graphene-based product for the remediation of water contaminated by oil
Uncovering the real history of art using a graphene scanner May 21st, 2015effective Nano-Micelles Designed in Iran to Treat Cancer May 20th, 2015materials/Metamaterials Taking control of light emission:
2015wearables may get boost from boron-infused graphene: Rice U. researchers flex muscle of laser-written microsupercapacitors May 18th,
Uncovering the real history of art using a graphene scanner May 21st, 2015directa Plus in Barcelona to present the innovative project GENIUS for oil spills cleanup activities:
The company has created a graphene-based product for the remediation of water contaminated by oil
including those that are made with graphene electrodes.""It's amazing to be able to design a molecular circuit,
#Diffusion and Remote Detection of Hot-Carriers in Graphene Abstract: In a new article published in Nano Letters,
ICN2 researchers led by ICREA Prof Sergio O. Valenzuela have investigated hot carrier propagation across graphene using an electrical nonlocal injection/detection method.
and calorimetry and could have a strong impact in the performance of conventional graphene devices. Due to the weak electron-phonon coupling in graphene, 2d Dirac massless carriers can present a much more elevated temperature than the graphene lattice.
Such hot carriers propagate over long distances resulting in novel thermoelectric and optoelectronic phenomena. Researchers of the ICN2 have studied such hot carrier propagation
Diffusion and Remote Detection of Hot-Carriers in Graphene. The research, led by ICREA Prof Sergio O. Valenzuela, Group Leader of the Physics and Engineering of Nanodevices Group and Dr. Juan F. Sierra,
Juan de la Cierva postdoctoral researcher, is focused on hot-carrier propagation across monolayer graphene using a novel electrical method in a device with multiple metal leads.
which is a key parameter for the development of high-speed graphene based devices. This fact, apart from having a strong impact the performance of conventional graphene devices,
creates new opportunities for nanoscale bolometry and calorimetry.#####For more information, please click herecontacts: Alicia Labianwriteemail('icn. cat','alicia. labian';
2015central Florida Company Garmor Achieves Graphene Production Milestone: Garmor Inc, Increases Capacity for Manufacturing Graphene oxide at Customer Sites June 2nd, 2015chip Technology Moving sector walls on the nano scale June 6th, 2015fei Launches New
Dualbeam Plasma Focused Ion beam for Electrical Fault Isolation & Failure Analysis: New Helios PFIB EFI is integrated a fully deprocessing
News and information Diffusion and Remote Detection of Hot-Carriers in Graphene June 8th, 2015uab researchers design the most precise quantum thermometer to date:
to Help Designers Broaden the Use of FD-SOI for Low-power Applications June 8th, 2015diffusion and Remote Detection of Hot-Carriers in Graphene June 8th, 2015imaging FEI Launches New Dualbeam
2015discoveries Researchers analyze the structure of bird feathers to create hues without dye June 8th, 2015new composite material as CO2 sensor June 8th, 2015diffusion and Remote Detection of Hot-Carriers in Graphene June 8th,
2015diffusion and Remote Detection of Hot-Carriers in Graphene June 8th, 2015interviews/Book reviews/Essays/Reports/Podcasts/Journals/White papers Researchers analyze the structure of bird feathers to create hues without dye
June 8th, 2015new composite material as CO2 sensor June 8th, 2015diffusion and Remote Detection of Hot-Carriers in Graphene June 8th,
2015central Florida Company Garmor Achieves Graphene Production Milestone: Garmor Inc, Increases Capacity for Manufacturing Graphene oxide at Customer Sites June 2nd, 2015military Production of Nanocomposites by Using Direct Nano-Welding of Micromaterials in Iran June 4th,
2015new sensing tech could help detect diseases, fraudulent art, chemical weapons June 1st, 2015thin coating on condensers could make power plants more efficient:
Graphene layer one atom thick could quadruple rate of condensation heat transfer in generating plants June 1st,
Graphene and diamonds prove a slippery combination Abstract: Scientists at the U s. Department of energy's Argonne National Laboratory have found a way to use tiny diamonds
and graphene to give friction the slip, creating a new material combination that demonstrates the rare phenomenon of"superlubricity."
small patches of graphene-a two-dimensional single-sheet form of pure carbon-and a diamond-like carbon material to create superlubricity, a highly-desirable property in
as the graphene patches and diamond particles rub up against a large diamond-like carbon surface, the graphene rolls itself around the diamond particle, creating something that looks like a ball bearing on the nanoscopic level."
"The interaction between the graphene and the diamond-like carbon is essential for creating the'superlubricity'effect,
"By creating the graphene-encapsulated diamond ball bearings, or"scrolls",the team found a way to translate the nanoscale superlubricity into a macroscale phenomenon.
enough diamond particles and graphene patches prevent the two surfaces from becoming locked in state.
and rotated much more easily than a simple sheet of graphene or graphite, "Berman said.
A paper based on the study,"Macroscale superlubricity enabled by graphene nanoscroll formation, "appeared in the May 14 online issue of Science Express.
2015nanospace-Controlled Gold Material Created Using Molecular Technology June 9th, 2015graphene Diffusion and Remote Detection of Hot-Carriers in Graphene June 8th,
Graphene and diamonds prove a slippery combination June 10th, 2015govt. -Legislation/Regulation/Funding/Policy VP: Iran Ranks 15th in World in Producing Science, 7th in Nanotechnology June 13th,
Graphene and diamonds prove a slippery combination June 10th, 2015chip Technology Iranian Researchers Model, Design Optical Switches June 13th, 2015new boron compounds for organic light-emitting diodes:
Luminescent blue boron-containing nanographenes are highly promising materials for portable electronic devices June 10th, 2015rice researchers make ultrasensitive conductivity measurements:
Graphene and diamonds prove a slippery combination June 10th, 2015moving sector walls on the nano scale June 6th, 2015discoveries Nature Communications:
Graphene and diamonds prove a slippery combination June 10th, 2015sensors Designer electronics out of the printer:
2015world's thinnest lightbulb--graphene gets bright! Columbia engineers and colleagues create bright, visible light emission from one-atom thick carbon June 15th, 2015energy Designer electronics out of the printer:
Graphene and diamonds prove a slippery combination June 10th, 2015researchers analyze the structure of bird feathers to create hues without dye June 8th, 2015environmental Issues to Hamper Growth of Global Nanocomposites Market June 4th, 2015industrial Industrial Nanotech,
2015ultrafast heat conduction can manipulate nanoscale magnets June 8th, 2015diffusion and Remote Detection of Hot-Carriers in Graphene June 8th,
2015chemistry Graphene heat-transfer riddle unraveled June 17th, 2015nanoparticles naturally fall into left-and right-handed versions June 16th,
Graphene and diamonds prove a slippery combination June 10th, 2015govt. -Legislation/Regulation/Funding/Policy Toward nanorobots that swim through blood to deliver drugs (video) June 17th,
wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015$8. 5m Grant For Developing Nano Printing Technology:
wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015a new way to image surfaces on the nanoscale:
wrapping them in a protective layer of graphene could boost speeds by up to 30 percent June 18th, 2015$8. 5m Grant For Developing Nano Printing Technology:
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride Abstract: Physicists have found a way to control the length
"This collaborative team was one of two to first demonstrate polaritons in single-atom layers of carbon called graphene.
In graphene, infrared light launches ripples through the electrons at the surface of this metallike material called surface plasmon polaritons that the researchers were able to control using a simple electrical circuit.
By topping a stack of hbn with a single layer of graphene, the team has created an agile new material with hybrid polaritons that propagate throughout the crystalline slab
"Our structures are made from the new wonder material graphene and its cousin boron nitride, which endow them with several advantages compared to traditional metal-based metamaterials.
2015imaging Robust new process forms 3-D shapes from flat sheets of graphene June 23rd, 2015sweeping lasers snap together nanoscale geometric grids:
2015robust new process forms 3-D shapes from flat sheets of graphene June 23rd, 2015sweeping lasers snap together nanoscale geometric grids:
2015uk Graphene Open for Business with Asia June 23rd, 2015robust new process forms 3-D shapes from flat sheets of graphene June 23rd, 2015bacteria Cellulose,
Natural Polymers with Applications in Various Industries Synthesized in Iran June 22nd, 2015announcements n-tech Research Issues Report on Smart Coatings Market,
2015grants/Awards/Scholarships/Gifts/Contests/Honors/Records Robust new process forms 3-D shapes from flat sheets of graphene June 23rd,
2015world's thinnest lightbulb--graphene gets bright! Columbia engineers and colleagues create bright, visible light emission from one-atom thick carbon June 15th,
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th,
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015newly-Developed Biosensor in Iran Detects Cocaine addiction June 23rd,
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th,
2015uk Graphene Open for Business with Asia June 23rd, 2015robust new process forms 3-D shapes from flat sheets of graphene June 23rd,
2015announcements Scientists highlight the importance of nanoscale hybrid materials for noninvasive cancer diagnosis June 24th, 2015physicists fine-tune control of agile exotic materials:
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th,
Tunable hybrid polaritons realized with graphene layer on hexagonal boron nitride June 24th, 2015n-tech Research Issues Report on Smart Coatings Market, Free Download Available on Firms Website June 24th,
#Breakthrough graphene production could trigger revolution in artificial skin development A pioneering new technique could pave the way for the development of the first truly flexible lectronic skin Abstract:
low cost graphene could pave the way for the development of the first truly flexible'electronic skin,
Researchers from the University of Exeter have discovered an innovative new method to produce the wonder material Graphene significantly cheaper,
believes the new discovery could pave the way for"a graphene-driven industrial revolution"to take place.
"The vision for a'graphene-driven industrial revolution'is motivating intensive research on the synthesis of high quality and low cost graphene.
Currently, industrial graphene is produced using a technique called Chemical Vapour Deposition (CVD. Although there have been significant advances in recent years in this technique,
which grows graphene in an industrial cold wall CVD system, a state-of-the-art piece of equipment recently developed by UK graphene company Moorfield.
This so-called nanocvd system is based on a concept already used for other manufacturing purposes in the semiconductor industry.
This shows to the semiconductor industry for the very first time a way to potentially mass produce graphene with present facilities rather than requiring them to build new manufacturing plants.
This new technique grows graphene 100 times faster than conventional methods, reduces costs by 99
and look forward to seeing where it can take the graphene industry in the future.""Professor Seigo Tarucha from the University of Tokyo, coordinator of the Global Center of Excellence for Physics at Tokyo university and director of the Quantum Functional System Research Group at Riken Center
"The ability to manufacture high quality, large area graphene (at a low cost) is essential for advancing this exciting material from pure science and proof-of-concept into the realm of conventional and quantum electronic applications.
we are using Exeter CVD grown graphene instead of the exfoliated material in our graphene-based devices, whenever possible."
"The research team used this new technique to create the first graphene-based transparent and flexible touch sensor.
and energy harvesting devices could be transformed by the unique properties of graphene. The extremely cost efficient procedure that we have developed for preparing graphene is of vital importance for the quick industrial exploitation of graphene."
"At just one atom thick, graphene is the thinnest substance capable of conducting electricity. It is very flexible
and is one of the strongest known materials. The race has been on for scientists and engineers to adapt graphene for flexible electronics.
Professor Saverio Russo, co-author and also from the University of Exeter, added:""This breakthrough will nurture the birth of new generations of flexible electronics and offers exciting new opportunities for the realization of graphene-based disruptive technologies."
"In 2012 the teams of Prof Craciun and Profesor Russo, from the University of Exeter's Centre for Graphene science, discovered that sandwiched molecules of ferric chloride between two graphene layers make a whole new system that is the best known
transparent material able to conduct electricity. The same team have discovered recently that Graphexeter is also more stable than many transparent conductors commonly used by, for example, the display industry.
News and information Samsung's New Graphene technology Will Double Life Of Your Lithium-Ion Battery July 1st,
2015announcements Samsung's New Graphene technology Will Double Life Of Your Lithium-Ion Battery July 1st, 2015researchers from the UCA, key players in a pioneering study that may explain the origin of several digestive diseases June 30th,
2015interviews/Book reviews/Essays/Reports/Podcasts/Journals/White papers Samsung's New Graphene technology Will Double Life Of Your Lithium-Ion Battery July 1st,
#Graphene-based film can be used for efficient cooling of electronics Abstract: Researchers at Chalmers University of Technology have developed a method for efficiently cooling electronics using graphene-based film.
The film has a thermal conductivity capacity that is four times that of copper. Moreover, the graphene film is attachable to electronic components made of silicon,
which favours the films performance compared to typical graphene characteristics shown in previous, similar experiments.
Electronic systems available today accumulate a great deal of heat, mostly due to the ever-increasing demand on functionality.
professor at Chalmers University of Technology, were the first to show that graphene can have a cooling effect on silicon-based electronics.
That was the starting point for researchers conducting research on the cooling of silicon-based electronics using graphene.
When you try to add more layers of graphene, another problem arises, a problem with adhesiveness.
the graphene no longer will adhere to the surface, since the adhesion is held together only by weak Van der waals bonds."
"We have solved now this problem by managing to create strong covalent bonds between the graphene film and the surface,
The stronger bonds result from so-called functionalisation of the graphene, i e. the addition of a property-altering molecule.
it creates so-called silane bonds between the graphene and the electronic component (see picture). Moreover, functionalisation using silane coupling doubles the thermal conductivity of the graphene.
The researchers have shown that the in-plane thermal conductivity of the graphene-based film, with 20 micrometer thickness, can reach a thermal conductivity value of 1600 W/mk,
which is four times that of copper. Increased thermal capacity could lead to several new applications for graphene,
says Johan Liu.""One example is the integration of graphene-based film into microelectronic devices and systems,
such as highly Efficient light Emitting Diodes (LEDS), lasers and radio frequency components for cooling purposes. Graphene-based film could also pave the way for faster, smaller, more energy efficient, sustainable high power electronics."
"The research was conducted in collaboration with Shanghai University in China, Ecole Centrale Paris and EM2C CNRS in France,
2015thin films Graphene gets competition: Layered semiconducting black arsenic phosphorus as an alternative to silicon July 9th, 2015depletion and enrichment of chlorine in perovskites observed July 9th,
A team of scientists in Korea has devised a new method for making a graphene film for supercapacitors July 2nd,
2015graphene Super graphene helps boost chemotherapy treatment: Replacing silver coating on catheters with graphene increases treatment effect July 9th, 2015industrial Scale Production of Functionalised Graphitic Carbon nanomaterials July 9th, 2015bbc World Service to broadcast
Forum discussion on graphene July 6th, 2015hardware IRT Nanoelec Partners Achieve 3d Chip-stacking Technology & 3d Network-on-chip Framework for Digital Processing July 9th, 2015display technology
/LEDS/SS Lighting/OLEDS Surfing a wake of light: Researchers observe and control light wakes for the first time July 6th,
2015chip Technology Graphene gets competition: Layered semiconducting black arsenic phosphorus as an alternative to silicon July 9th, 2015irt Nanoelec Partners Achieve 3d Chip-stacking Technology & 3d Network-on-chip Framework for Digital Processing July 9th, 2015ultra-thin, all-inorganic molecular nanowires successfully compounded July 8th,
2015super graphene helps boost chemotherapy treatment: Replacing silver coating on catheters with graphene increases treatment effect July 9th, 2015photonics/Optics/Lasers Human color vision gives people the ability to see nanoscale differences July 9th
, 2015ultra-thin, all-inorganic molecular nanowires successfully compounded July 8th, 2015surfing a wake of light: Researchers observe and control light wakes for the first time July 6th,
#A tunable, highly sensitive graphene-based molecule sensor: Researchers at EPFL and ICFO have developed a reconfigurable sensor made from graphene to detect nanomolecules such as proteins and drugs;
the device exploits the unique electronic and optical properties of graphene Abstract: Many areas of fundamental research are interested in graphene owing to its exceptional characteristics.
It is made of one layer of carbon atoms, which makes it light and sturdy, and it is an excellent thermal and electrical conductor.
Its unique features make it potentially suitable for applications in a number of areas. Scientists at EPFL's Bionanophotonic Systems Laboratory (BIOS) together with researchers from ICFO-The Institute of Photonic Sciences in Barcelona, have harnessed now graphene's unique optical and electronic properties to develop a reconfigurable highly sensitive
molecule sensor. The results are described in an article appearing in the latest edition of the journal Science.
Focussing light to improve sensingthe researchers used graphene to improve on a well-known molecule-detection method:
This is where graphene comes in. If given the correct geometry graphene is capable of focussing light on a precise spot on its surface
and"hearing"the vibration of a nanometric molecule that is attached to it. In this study, researchers first pattern nanostructures on the graphene surface by bombarding it with electron beams and etching it with oxygen ions.
When the light arrives, the electrons in graphene nanostructures begin to oscillate. This phenomenon concentrates light into tiny spots,
which are comparable with the dimensions of the target molecules. It is then possible to detect nanometric compounds in proximity to the surface.
This is because graphene is an inert material for the elements to be detected and the reading mechanism uses light
Reconfiguring graphene in real time to see the molecule's structurein addition to identifying the presence of nanometric molecules,
Graphene is able to pick up the sound given off by each of the strings because it is able to identify a whole range of frequencies.
Researchers"tuned"the graphene to different frequencies by applying voltage which is not possible with current sensors.
Making graphene's electrons oscillate in different ways makes it possible to"read"all the vibrations of the molecule on its surface."
"We tested this method on proteins that we attached to the graphene. It gave us a full picture of the molecule,
A big step closer to using graphene for molecule sensingthe new graphene-based process represents a major step forward for the researchers, for several reasons.
Second, it stresses graphene's incredible potential in the area of sensing.#####Source: Daniel Rodrigo, Odeta Limaj, Davide Janner, Dordaneh Etezadi, F. Javier Garca De Abajo, Valerio Pruneri, Hatice Altug Mid-Infrared Plasmonic
Biosensing With Graphene science###For more information, please click herecontacts: Alina Hirschmannwriteemail('icfo. eu','alina. hirschmann';
News and information SUNY Poly CNSE to Present Cutting-edge Semiconductor Technology Developments at SEMICON West 2015 Conference July 10th, 2015super graphene can help treat cancer July 10th,
2015graphene Women in Graphene network launched July 10th, 2015super graphene can help treat cancer July 10th, 2015graphene-based film can be used for efficient cooling of electronics July 10th,
2015sensors Graphene gets competition: Layered semiconducting black arsenic phosphorus as an alternative to silicon July 9th, 2015ultra-thin, all-inorganic molecular nanowires successfully compounded July 8th, 2015down to the quantum dot:
Jlich researchers develop ultrahigh-resolution 3-D microscopy technique for electric fields July 7th, 2015new Biosensor Produced in Iran to Detect Effective Drugs in Cancer Treatment July 4th,
2015discoveries Super graphene can help treat cancer July 10th, 2015graphene-based film can be used for efficient cooling of electronics July 10th,
2015super graphene helps boost chemotherapy treatment: Replacing silver coating on catheters with graphene increases treatment effect July 9th, 2015materials/Metamaterials Super graphene can help treat cancer July 10th,
2015scientists Apply Magnetic nanoparticles to Eliminate Cancerous Cells July 10th, 2015super graphene helps boost chemotherapy treatment: Replacing silver coating on catheters with graphene increases treatment effect July 9th, 2015industrial Scale Production of Functionalised Graphitic Carbon nanomaterials July 9th, 2015announcements Women in Graphene network launched July 10th,
2015super graphene can help treat cancer July 10th, 2015graphene-based film can be used for efficient cooling of electronics July 10th,
2015scientists Apply Magnetic nanoparticles to Eliminate Cancerous Cells July 10th, 2015interviews/Book reviews/Essays/Reports/Podcasts/Journals/White papers Super graphene can help treat cancer July 10th,
2015graphene-based film can be used for efficient cooling of electronics July 10th, 2015scientists Apply Magnetic nanoparticles to Eliminate Cancerous Cells July 10th,
2015graphene gets competition: Layered semiconducting black arsenic phosphorus as an alternative to silicon July 9th, 2015nanobiotechnology UK study reveals new method to develop more efficient drugs July 8th,
2015research partnerships Graphene-based film can be used for efficient cooling of electronics July 10th, 2015tunneling out of the surface July 9th, 2015industrial Scale Production of Functionalised Graphitic Carbon nanomaterials July 9th,
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