International Research Awards on Advanced Nanomaterials and Nanotechnology
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Tuesday, June 27, 2023
8th Edition of International Research Awards on Advanced Nanomaterials and Nanotechnology
International Research Awards on Advanced Nanomaterials and Nanotechnology
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8th Edition of International Research Awards on Advanced Nanomaterials and Nanotechnology
#Nanotech #nanotechnology #Nanomaterials #Nanomedicine #Nanoparticles #Synthesis and Self Assembly of Nanomaterials #Nanoscale characterisation #Nanophotonics & Nanoelectronics #Nanobiotechnology #Nanocomposites #Nanomagnetism #Nanomaterials for Energy #Computational Nanotechnology #Commercialization of Nanotechnology #Nanotheranostics #Nanosensors and Actuators #Theranostic Device
International Conference on Advanced Nanomaterials and Nanotechnology
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Thursday, June 22, 2023
Mr. Sarath Chandra K | National Institute of Technology Rourkela | India | Best Researcher Award
Mr. Sarath Chandra K | National Institute of Technology Rourkela | India | Best Researcher Award
International Research Awards on Advanced Nanomaterials and Nanotechnology
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Assoc Prof Dr.CH V V RAMANA | Vignan's Institute of information technology, Visakhapatnam | India | Outstanding Scientist Award
Assoc Prof Dr.CH V V RAMANA | Vignan's Institute of information technology, Visakhapatnam | India | Outstanding Scientist Award
International Research Awards on Advanced Nanomaterials and Nanotechnology,
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Wednesday, June 21, 2023
Prof. Xiaouyan Ji | Tianjin University | China | Best Researcher Award | Nanotechnology Conferences
International Research Awards on Advanced Nanomaterials and Nanotechnology
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Tuesday, June 20, 2023
Nanocrystalline Electrolyte Materials For Low Temperature Solid Oxide Fuel Cells | Nanotechnology Conferences
International Research Awards on Advanced Nanomaterials and Nanotechnology
Blog: https://Prof Dr. A. Samson Nesaraj | Kalasalingam Academy of Research and Education | India | Outstanding Scientist Award
International Research Awards on Advanced Nanomaterials and Nanotechnology
Blog: https://Dr. Bhaludra Chandra Sekhar Singh | Ambo University | Ethiopia | Best Researcher Award
#Nanotech #nanotechnology #Nanomaterials #Nanomedicine #Nanoparticles #Synthesis and Self Assembly of Nanomaterials #Nanoscale characterisation #Nanophotonics & Nanoelectronics #Nanobiotechnology #Nanocomposites #Nanomagnetism #Nanomaterials for Energy #Computational Nanotechnology #Commercialization of Nanotechnology #Nanotheranostics #Nanosensors and Actuators #Theranostic Device
International Conference on Advanced Nanomaterials and Nanotechnology
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Monday, June 19, 2023
Nanoscale electronics and quantum computing | Nanotechnology Conferences
Nanoscale electronics refers to the miniaturization of electronic components and systems to the nanometer scale. This field focuses on the fabrication and manipulation of nanoscale materials and structures to create electronic devices with unique properties and improved performance. Nanoscale electronics has already led to advancements such as smaller and faster transistors, higher density memory devices, and more efficient sensors. Quantum computing, on the other hand, involves harnessing the principles of quantum mechanics to perform computations. Quantum computers use quantum bits or qubits, which can exist in multiple states simultaneously due to superposition and can be entangled with each other, enabling parallel computation and exponential processing power for certain types of problems.
#Nanotech #nanotechnology #Nanomaterials #Nanomedicine #Nanoparticles #Synthesis and Self Assembly of Nanomaterials #Nanoscale characterisation #Nanophotonics & Nanoelectronics #Nanobiotechnology #Nanocomposites #Nanomagnetism #Nanomaterials for Energy #Computational Nanotechnology #Commercialization of Nanotechnology #Nanotheranostics #Nanosensors and Actuators #Theranostic Device
International Conference on Advanced Nanomaterials and Nanotechnology
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Dr. Mostafa Elshafie | Nagoya University | Japan | Best Researcher Award
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Friday, June 16, 2023
Dr. Jin-Oh Jeong | Wake Forest Institute for Regenerative Medicine | United States | Best Researcher Awards
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Wednesday, June 14, 2023
Dr. Sasikala Nellutla | Kamala Institute of Technology and Science | India | Best Researcher Award
Video: https://youtu.be/m2NnNED05Ew
Dr. Sasikala Nellutla Received Doctorate in 2020 from KL University. She is Presently working as Professor in Electronics & Communication Engineering Department In Kamala Institute of Technology and Science, Singapuram, Karimnagar in India.Congratulation on your best researcher award by scienceFather. She has a Teaching Experience of 21 years. She is a Member of 13 Professional Bodies. She has Published 24 Papers in National and International Journals and conferences.she is Interested in areas like Digital Image Processing & Computer Vision, Space & Satellite Technology. She has Contributed to the Research in the area of image processing and computer vision for Indian Railways. Congratulations for Best wishes for your Future.
Dr. Sasikala Nellutla Received Doctorate in 2020 from KL University. She is Presently working as Professor in Electronics & Communication Engineering Department In Kamala Institute of Technology and Science, Singapuram, Karimnagar in India.Congratulation on your best researcher award by scienceFather. She has a Teaching Experience of 21 years. She is a Member of 13 Professional Bodies. She has Published 24 Papers in National and International Journals and conferences.she is Interested in areas like Digital Image Processing & Computer Vision, Space & Satellite Technology. She has Contributed to the Research in the area of image processing and computer vision for Indian Railways. Congratulations for Best wishes for your Future.
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International Conference on Advanced Nanomaterials and Nanotechnology
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Dr. L. SUGI Mohanraj | A.K.T Memorial College of Engineering and Technology | Kaallakurichi, India | Best Researcher Award
Video Link: https://youtu.be/JSH0SLt6TLw
Dr. L. SUGI Mohanraj | A.K.T Memorial College of Engineering and Technology | Kaallakurichi, India | Best Researcher Award Dr. L. SUGI Mohanraj is working as A.K.T Memorial College of Engineering and Technology, Kaallakurichi. In India. She has a UG degree from Thiruvalluvar University, PG degree from Bharathidasan university, M.Phil degree from Bharathidasan university and Ph.D degree from Bharathidasan university. She got 8 best oral presentation awards and 4 research papers published in elsevier publications. She has working experience in engineering college 8 years and Arts and Science college 2 years total 10 years.
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#Nanotech #nanotechnology #Nanomaterials #Nanomedicine #Nanoparticles #Synthesis and Self Assembly of Nanomaterials #Nanoscale characterisation #Nanophotonics & Nanoelectronics #Nanobiotechnology #Nanocomposites #Nanomagnetism #Nanomaterials for Energy #Computational Nanotechnology #Commercialization of Nanotechnology #Nanotheranostics #Nanosensors and Actuators #Theranostic Device
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Monday, June 12, 2023
Nanostructured catalysts for efficient chemical reactions | Nanotechnolo...
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The world's fastest electron microscope
Electron microscopes give us insight into the tiniest details of materials and can visualize, for example, the structure of solids, molecules or nanoparticles with atomic resolution. However, most materials in nature are not static. They constantly interact, move and reshape between initial and final configurations.
One of the most general phenomena is the interaction between light and matter, which is omnipresent in materials such as solar cells, displays or lasers. These interactions are defined by electrons pushed and pulled around by the oscillations of light, and the dynamics are extremely fast: light waves oscillate at attoseconds, the billionth of a billionth of a second.
Until now, it has been very difficult to directly visualize these extremely fast processes in space and time, but that is exactly what a team of physicists from the University of Konstanz has now succeeded in. They recorded movies with attosecond time resolution in a transmission electron microscope, providing new insights into the functionality of nanomaterials and dielectric meta-atoms.
Generation of ultrashort electron pulses
"If you look closely, almost all phenomena in optics, nanophotonics or metamaterials occur on time scales below one oscillation period of a light wave," explains Peter Baum, physics professor and head of the Light and Matter Group at the University of Konstanz. "To film the ultrafast interactions between light and matter, we therefore need a time resolution of attoseconds."
To achieve such an extreme recording speed, Baum's research group uses the fast oscillations of a continuous-wave laser to convert the electron beam of an electron microscope into a sequence of ultrashort electron pulses.
In this process, a thin silicon membrane creates a periodic acceleration and deceleration of the electrons. "This modulation causes the electrons to catch up with each other. After some time, they convert into a train of ultrashort pulses," explains David Nabben, doctoral student and first author of the study. Another laser wave creates the interaction with the sample object. The ultrashort electron pulses are then used to measure the object’s response to the laser light, frozen in time like in a stroboscope. In the end, the researchers obtain a movie of the processes with attosecond time resolution.
Investigation of nanophotonic phenomena
In their study, the scientists present several examples of time-resolved measurements in nanomaterials. The experiments show, for example, the emergence of chiral surface waves that can be controlled by the researchers to travel in a specific spatial direction, or characteristic time delays between different modes of radiation from nanoantennas. What is more, the scientists not only investigate such surface phenomena, but also film the electromagnetic processes inside a waveguide material.
The results are highly interesting for further developments in nanophotonics, but also demonstrate the very broad application range of the new attosecond electron microscopy. "The direct measurement of the electromagnetic functionality of materials as a function of space and time is not only of great value for fundamental science, but also opens up the way for new developments in photonic integrated circuits or metamaterials," Nabben summarizes the impact of the results.
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Monday, June 5, 2023
Making the Structure of 'Fire Ice' with Nanoparticles
Making the structure of 'fire ice' with nanoparticles
Cage structures made with nanoparticles could be a route toward making organized nanostructures with mixed materials, and researchers at the University of Michigan have shown how to achieve this through computer simulations.
The finding could open new avenues for photonic materials that manipulate light in ways that natural crystals can’t. It also showcased an unusual effect that the team is calling entropy compartmentalization.
“We are developing new ways to structure matter across scales, discovering the possibilities and what forces we can use,” said Sharon Glotzer, the Anthony C. Lembke Department Chair of Chemical Engineering, who led the study published in Nature Chemistry ("Entropy compartmentalization stabilizes open host–guest colloidal Clathrates"). “Entropic forces can stabilize even more complex crystals than we thought.”
The cages of the host network of bipyramid particles are shown in blue on the left side, becoming increasingly transparent toward the right. The red bipyramid particles are guest particles, trapped in the cages of the clathrate
While entropy is often explained as disorder in a system, it more accurately reflects the system’s tendency to maximize its possible states. Often, this ends up as disorder in the colloquial sense. Oxygen molecules don’t huddle together in a corner—they spread out to fill a room. But if you put them in the right size box, they will naturally order themselves into a recognizable structure.
Nanoparticles do the same thing. Previously, Glotzer’s team had shown that bipyramid particles—like two short, three-sided pyramids stuck together at their bases—will form structures resembling that of fire ice if you put them into a sufficiently small box. Fire ice is made of water molecules that form cages around methane, and it can burn and melt at the same time. This substance is found in abundance under the ocean floor and is an example of a clathrate. Clathrate structures are under investigation for a range of applications, such as trapping and removing carbon dioxide from the atmosphere.
The full particle shapes are shown on the left, with the blue particles forming the cage network structure and the red acting as guests. On the right, the cages are traced out with blue dots at each point or truncated point on the particles and gray lines connecting them. (Image: Sangmin Lee, Glotzer Group)
Unlike water clathrates, earlier nanoparticle clathrate structures had no gaps to fill with other materials that might provide new and interesting possibilities for altering the structure’s properties. The team wanted to change that.
“This time, we investigated what happens if we change the shape of the particle. We reasoned that if we truncate the particle a little, it would create space in the cage made by the bipyramid particles,” said Sangmin Lee, a recent doctoral graduate in chemical engineering and first author of the paper.
He took the three central corners off each bipyramid and discovered the sweet spot where spaces appeared in the structure but the sides of the pyramids were still intact enough that they didn’t start organizing in a different way. The spaces filled in with more truncated bipyramids when they were the only particle in the system. When a second shape was added, that shape became the trapped guest particle.
Glotzer has ideas for how to create selectively sticky sides that would enable different materials to act as cage and guest particles, but in this case, there was no glue holding the bipyramids together. Instead, the structure was completely stabilized by entropy.
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