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Online
Intermolecular
@IMIMaterials
Intermolecular, the trusted partner for advanced materials innovation, helps leading companies accelerate and de-risk materials decisions. #MaterialsInnovation
San Jose, CA
Joined June 2016
587 Following
321 Followers
953 Posts
The human brain is known as one of the most complicated objects. However, scientists at @LosAlamosNatLab have made a new interface-type memristive device, which can be used to build artificial synapses for next-gen neuromorphic computing. https://t.co/jdqZWT6gIT #Neuromorphic
Nanowire thin films are composed of thin layers of nanostructured objects. They have received significant attention for several advanced applications due to their physical and chemical properties. https://t.co/S0yL331d75 #ThinFilms
A new study reveals that scientists have successfully split phonons paving the path for a new type of quantum computer called linear mechanical quantum computers. https://t.co/CVYubtJpWi #QuantumComputers #Phonons
Who to follow
EMD Electronics
@EMD_Electronics
We are the company behind the companies, advancing digital living. The account is intended for US and Canadian visitors.
Beneq Corporation
@beneqcorp
Beneq is the home of ALD. We design and manufacture ALD equipment products for R&D, semiconductor device fabrication, batch production, spatial ALD, & R2R ALD.
Merck Electronics
@Merck_Elec
At the Electronics business of Merck, we are the company behind the companies advancing digital living. Not intended for US and Canadian visitors.
Researchers from Shimane University recently developed an innovative polarization-angle-resolved Raman microscope. This new device helps analyze the molecular structure of materials. https://t.co/q6b3YnQWdd #Materials #Ferroelectric
Quantum computing is a cutting-edge technology that has the potential to revolutionize many industries, such as sustainable energy.
Here at Intermolecular, we have in-house capabilities to achieve materials and device sustainability goals. https://t.co/3EF1YtCRQa #Sustainability
Researchers from various universities recently discovered that water can interact directly with the carbon’s electrons: a quantum phenomenon that is very unusual in fluid dynamics. https://t.co/GlOtty2QYt #Electrons #Quantum
A team from @UW recently detected atomic ‘breathing’ for quantum computing breakthrough. https://t.co/OZ8rNSvbUg #QuantumComputing #Atomic
Researchers predict that supercomputers will be able to outperform standard computers within the next 2 years. https://t.co/TovUvG1rkT #Supercomputers #QuantumComputing
Researchers @UniofBath recently discovered that modified graphene could transform the production of hydrogen peroxide for industrial use. https://t.co/FY34GJS0P7 #Graphene #Materials
Researchers recently looked into the sensing characteristics of drop-cast thin films of various materials with different compositions to determine the most sensitive thin film for NO2 detection. https://t.co/S0yL331d75 #ThinFilms #Materials
Quantum computers are promising but are also prone to error. However, researchers from @UChicago recently developed a new method to monitor the noise around a quantum system and adjust the qubits, to minimize error. https://t.co/e1HgBxYu1A #QuantumComputing
Researchers from the @tokyotech_en recently proposed a unique technique for creating superior Cs3Cu2I5 thin films. Read more here: https://t.co/TVvJhJEtSP
#ThinFilms #Materials
Meet Navnidhi Upadhyay, Senior Device Engineer here at Intermolecular. He works at the intersection of electrical engineering, material science and computer science to innovate and engineer next-gen memory devices and materials. https://t.co/Ofsn2lmXoL #MaterialScience
Researchers from UK universities recently exposed high-quality graphene to magnetic fields at room temperature and measured its response. This revealed that graphene can record levels of magnetoresistance without a need to push the temp down towards zero. https://t.co/gdkWfBwTEz
Check out this inspiring Q&A with Ukarian materials architect Andriy Zakutayev. Like Intermolecular, Zakutayev is focused on using materials to help develop power-efficient devices. https://t.co/96QmAhkPTd #MaterialScience #Memory #Engineering
A research team from @UMich developed a ferroelectric semiconductor platform for AI and IoT computing systems. They used ferroelectric semiconductor materials over conventional silicon-based architectures to sustain electrical polarization. https://t.co/4T0OrT9TsR
A research team from DGIST used intense light on the surface of a copper wire to synthesize #graphene. This method increased the production rate, lowered the cost of the high-quality transparent-flexible electrode materials, and enabled mass production. https://t.co/0V8Fu4f2nn
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