Graphene oxide paperGraphene oxide paper or graphite oxide paper is a material fabricated from graphite oxide. Micrometer thick films of graphene oxide paper are also named as graphite oxide membranes (in the 1960s) or (more recently) graphene oxide membranes. The membranes are typically obtained by slow evaporation of graphene oxide solution or by the filtration method. The material has exceptional stiffness and strength, due to the intrinsic strength of the two-dimensional graphene backbone and to its interwoven layer structure which distributes loads.
Quantum wireIn mesoscopic physics, a quantum wire is an electrically conducting wire in which quantum effects influence the transport properties. Usually such effects appear in the dimension of nanometers, so they are also referred to as nanowires. If the diameter of a wire is sufficiently small, electrons will experience quantum confinement in the transverse direction. As a result, their transverse energy will be limited to a series of discrete values.
Quantum spin Hall effectThe quantum spin Hall state is a state of matter proposed to exist in special, two-dimensional semiconductors that have a quantized spin-Hall conductance and a vanishing charge-Hall conductance. The quantum spin Hall state of matter is the cousin of the integer quantum Hall state, and that does not require the application of a large magnetic field. The quantum spin Hall state does not break charge conservation symmetry and spin- conservation symmetry (in order to have well defined Hall conductances).
Stress fieldA stress field is the distribution of internal forces in a body that balance a given set of external forces. Stress fields are widely used in fluid dynamics and materials science. Consider that one can picture the stress fields as the stress created by adding an extra half plane of atoms to a crystal. The bonds are clearly stretched around the location of the dislocation and this stretching causes the stress field to form.
BioceramicBioceramics and bioglasses are ceramic materials that are biocompatible. Bioceramics are an important subset of biomaterials. Bioceramics range in biocompatibility from the ceramic oxides, which are inert in the body, to the other extreme of resorbable materials, which are eventually replaced by the body after they have assisted repair. Bioceramics are used in many types of medical procedures. Bioceramics are typically used as rigid materials in surgical implants, though some bioceramics are flexible.
SuperplasticityIn materials science, superplasticity is a state in which solid crystalline material is deformed well beyond its usual breaking point, usually over about 400% during tensile deformation. Such a state is usually achieved at high homologous temperature. Examples of superplastic materials are some fine-grained metals and ceramics. Other non-crystalline materials (amorphous) such as silica glass ("molten glass") and polymers also deform similarly, but are not called superplastic, because they are not crystalline; rather, their deformation is often described as Newtonian fluid.
Sonde ionique focaliséeLa sonde ionique focalisée, plus connue sous le nom du sigle anglais FIB (Focused ion beam), est un instrument scientifique qui ressemble au microscope électronique à balayage (MEB). Mais là où le MEB utilise un faisceau d'électrons focalisés pour faire l'image d'un échantillon, la "FIB" utilise un faisceau d'ions focalisés, généralement du gallium. Il est en effet facile de construire une source à métal liquide (LMIS, de l'anglais liquid metal ion source). Contrairement aux MEB, les FIB sont destructives.
Ballistic conductionIn mesoscopic physics, ballistic conduction (ballistic transport) is the unimpeded flow (or transport) of charge carriers (usually electrons), or energy-carrying particles, over relatively long distances in a material. In general, the resistivity of a material exists because an electron, while moving inside a medium, is scattered by impurities, defects, thermal fluctuations of ions in a crystalline solid, or, generally, by any freely-moving atom/molecule composing a gas or liquid.
NanotubeUn nanotube est une structure cristalline particulière, de forme tubulaire, creuse et close, composée d'atomes disposés régulièrement en pentagones, hexagones et/ou heptagones, obtenue à partir de certains matériaux, en particulier le carbone et le nitrure de bore. Des nanotubes de carbone se forment naturellement lors de combustions incomplètes : on en a trouvé dans la suie, mais après leur découverte dans des produits synthétiques en 1952 et leur redécouverte en 1979 et 1991.
Vantablackthumb|alt=Vantablack|Feuille d'aluminium froissée couverte de Vantablack. Le Vantablack (ou peu fréquemment Vantanoir) est une matière inventée en 2012 faite de nanotubes de carbone agencés verticalement et serrés les uns contre les autres comme les arbres d'une forêt. Déposé à la surface d'un objet, il lui conférait la couleur noire la plus profonde jamais obtenue, avec un coefficient d'absorption de 99,965 %, jusqu'à ce que ce record soit dépassé en 2019 .
