Not exact matches
Materials like titanium
oxide, known as
semiconductors with the wide band - gap, are traditionally used to convert sunlight to chemical energy
for the photocatalytic reaction.
Based on complementary metal -
oxide -
semiconductor (COMS) technology — a standard low - cost, high - volume chip manufacturing technique used
for most processors and chips today — a group of researchers from IBM Research in Zurich, Switzerland, together with a consortium working under the EU - funded project «ADDAPT,» have demonstrated a novel optical receiver (RX) that can achieve an aggregate bandwidth of 160 Gb / s through four optical fibers.
If, however, researchers can grow the
oxides on large, commercially available
semiconductor wafers, they can then scale up
oxide 2DEGs
for real - world applications.
And what we do is, through kind of a combination, directed evolution and selection, kind of a Darwinian process, we force these viruses or encourage these viruses to work with materials that we are interested in —
semiconductor materials and metal
oxide materials
for electrodes.
Researchers have
for some time attempted to produce zinc
oxide with reliable p - type
semiconductor properties.
What proved possible included an extension of the Kyoto Protocol
for a period of either five or seven years (excluding Canada, Japan and Russia but adding nitrogen trifluoride, used in
semiconductor manufacture, to the list of gases covered — CO2, methane, nitrous
oxide, sulfur hexafluoride, perfluorocarbons), a Green Climate Fund to help low - income countries cope (albeit without any actual funds yet), an Adaptation Committee to coordinate such efforts globally, rules
for a global program to reduce deforestation and how to monitor such deforestation, and a Climate Technology Center that will help launch projects to reduce greenhouse gas emissions.
And as a basis
for gas sensors in particular, carbon nanotubes combine advantages (and avoid shortcomings) of more established materials, such as polymer - based organic electronics and solid - state metal -
oxide semiconductors.
HP disputes this characterization of titanium
oxide, saying there are established protocols
for applying it to
semiconductor material and that titanium
oxide is compatible with current complementary metal -
oxide -
semiconductor (CMOS) technology used to build integrated circuits.
For one, «HP's memristor is made using a titanium
oxide, which is not common to put on
semiconductors and appears to be difficult to manage today,» says Jim Handy, an analyst with the
semiconductor market research firm Objective Analysis in Los Gatos, Calif..
Researchers from North Carolina State University have solved a long - standing materials science problem, making it possible to create new
semiconductor devices using zinc
oxide (ZnO)-- including efficient ultraviolet (UV) lasers and LED devices
for use in sensors and drinking water treatment, as well as new ferromagnetic devices.
Thus, a laser - based technology
for reduction of graphene
oxide, conversion of the solution based metal
oxide precursor and patterning of graphene electrodes and metal
oxide semiconductor was developed.
Dr. Peden has written or contributed to more than 160 peer - reviewed scientific publications on the kinetics and mechanisms of automobile exhaust catalysis; the development of zeolite catalysts
for diesel engine emission control; hydrocarbon reforming over bimetallic catalysts; the structure of hydroprocessing catalysts; the development of novel, supported solid acid catalysts
for petroleum refining; the growth and properties of
oxide and
semiconductor thin films; and model studies of adhesion at metal / metal -
oxide interfaces.
For example, ultrathin and pin - hole free
oxide coatings have the potential to stabilize
semiconductor photoelectrodes that otherwise would be unstable in aqueous acid or base.
Computational materials discovery often involves making predictions
for an entire class of materials, such as metals, metal
oxides or
semiconductors.
His seminal contribution to the field of inorganic chemistry
for renewable energy is molecular engineering of ruthenium sensitizers, which convert solar energy through the use of high surface area nanocrystalline mesoscopic films of
oxide semiconductors.
It captures the reflected fingerprint between the OLED pixels via its complementary metal -
oxide semiconductor (CMOS), and its advanced signal - processing technology provides
for fast, accurate matching.
Tags
for this Online Resume: Electrochemistry, Nanomaterials, Characterization, Electrocatalyst, Fuel Cell, metal
oxide semiconductors, Surface Analysis, Photocatalyst