New research on the two-dimensional (2D) material graphene has allowed researchers to create smart adaptive clothing which can lower the body temperature of the wearer in hot climates.
One of the largest problems with cancer treatment is the development of resistance to anticancer therapies. A research team found that repurposing a commonly used chemotherapy drug using a nanoparticle was more effective than both a solution of the pure drug and other available treatments.
Molecular switches are the molecular counterparts of electrical switches and play an important role in many processes in nature. Nanotechnologist now produced a photographic film at the atomic level and thus tracked the motion of a molecular building block.
New research on the two-dimensional material graphene has allowed researchers to create smart adaptive clothing which can lower the body temperature of the wearer in hot climates.
Researchers have developed an ultra-thin nanostructure gold film with the potential to revolutionise next-generation bio-sensing chips.
Graphdiyne is as flat and thin as graphene, which is the one-atomic-layer-thin version of graphite, but it has a higher porosity and adjustable electronic properties. Researchers describe its simple bottom-up synthesis from tailor-made precursor molecules.
В рамках проекта "Академия - университетам" 17 июня 2020 г. профессор Дмитрий Анатольевич Иванов (ФФФХИ МГУ) представил лекцию «Современные физические методы исследования материалов» в дистанционном формате.
В рамках проекта "Академия - университетам" 18 июня 2020 г. академик Азиз Мансурович Музафаров представил лекцию «Силиконы - дорога в будущее» в дистанционном формате.
В рамках проекта "Академия - университетам" 19 июня 2020 г. академик Вячеслав Михайлович Бузник представил лекцию «Лед – двуликий материал» в дистанционном формате.
Новосибирская компания «Оксиал» стала крупнейшим в мире производителем графеновых одностенных нанотрубок. И хотя продает она не более трети синтезируемого материала, объемы производства намерена наращивать в расчете на будущий спрос со стороны тех потребителей, которые начнут массово скупать ее продукцию для промышленного применения
To make solar electricity affordable on a large scale, scientists and engineers worldwide have long been trying to develop a low-cost solar cell, which is both highly efficient and easy to manufacture with high throughput.
Graphite intercalation compounds (GICs) are formed by the insertion of arrays of guest species between the layered sheets of the graphite host. This can greatly modify the electronic properties of the graphite and can lead to interesting phenomena, for example, superconductivity.
Scientists at the California Institute of Technology (Caltech) have conducted experiments confirming which of three possible mechanisms is responsible for the spontaneous formation of three-dimensional (3-D) pillar arrays in nanofilms (polymer films that are billionths of a meter thick).
The ability to image single biological molecules in a living cell is something that has long eluded researchers; however, a novel technique, using the structure of diamond, may well be able to do this and potentially provide a tool for diagnosing, and eventually developing a treatment for, hard-to-cure diseases such as cancer
Engineers at Brown University and in India have a promising new approach to treating heart-attack victims. The researchers created a nanopatch with carbon nanofibers and a polymer.
Researchers from the University of Iowa Roy J. and Lucille A. Carver College of Medicine have found that inhaled carbon black nanoparticles create a double source of inflammation in the lungs.
Scientists from NPL, in collaboration with Linköping University, Sweden, have shown that regions of graphene of different thickness can be easily identified in ambient conditions using Electrostatic Force Microscopy (EFM).
Bio-SANS probes "disease-relevant" peptide at tenths of billionths of a meter
The humble alga, hated by boaters and pool owners, may someday help provide us with the raw machinery to power our appliances.
A UCF scientist specializing in nanotechnology has earned a national award and is a contender for a new kind of 'Nobel Prize' for sustainability.