Angela Belcher combines chemistry, molecular biology and electrical engineering to understand how living things make molecular - scale materials and incorporate their tricks into new organic -
inorganic hybrid technologies.
«Therefore,» said Park, «acid - free methods of synthesizing organic -
inorganic hybrid materials are needed for optical thin - film applications.»
She is working on a special type of solar cell that is made of organic -
inorganic hybrid perovskites.
The paper is titled «Atomically thin two - dimensional organic -
inorganic hybrid perovskites.»
Here a team of European researchers applied a supramolecular approach to form self - assembled organic molecular lattices with a controlled geometry and atomic precision on top of graphene, inducing 1D periodic potentials in the resulting organic -
inorganic hybrid heterostructures.
Researchers at the U.S. Department of Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley Lab) have successfully grown atomically thin 2D sheets of organic -
inorganic hybrid perovskites from solution.
In the past couple of years, organic -
inorganic hybrid perovskites have been solution - processed into thin films or bulk crystals for photovoltaic devices that have reached a 20 - percent power conversion efficiency.
Not exact matches
The institute foresees that materials science will increasingly include the combining of biotechnology and nanotechnology and the creation of
hybrid materials that are neither organic nor
inorganic.
Research scientists at INM have combined the benefits of organic and
inorganic electronic materials in a new type of
hybrid inks.
Hybrid perovskites are crystalline materials made of a mixture of both
inorganic and organic ions.
Inorganic thin - layer and
hybrid films alike have layers with different refractive indexes to help tune the wavelengths of light that pass through the film (or touch screen).
The
hybrid films showed less depreciation in flexibility after 10,000 bending cycles than the
inorganic layered films.
The paper by polymer scientists Soo - Young Park and A-Ra Cho of Kyungpook National University in Daegu, South Korea, describes a method to create a type of so - called «
hybrid» film, composed of both
inorganic and organic materials.
«These materials are quantum
hybrid materials, possessing physical properties of both organic semiconductors and
inorganic semiconducting quantum wells.
The article «
Hybrid inorganic - organic capsules for efficient intracellular delivery of novel siRNAs against influenza A (H1N1) virus infection» was published in Scientific Reports.
This «
hybrid» system combines the excellent visible light absorption properties and the great stability of
inorganic semiconductors with the efficacy of molecular catalysts.
This gives unprecedented potential to understand and control the
inorganic - organic interfaces that are relevant to
hybrid inorganic - biological materials,» says Academy Professor Hannu Häkkinen from the Nanoscience Center at the University of Jyväskylä.
Hybrid organic -
inorganic perovskites have been recently proposed as alternative materials for X - and γ - photon direct detection, thanks to their high Z atoms, combined with high charge mobility4.
Resume: In the field of renewable energy production, porous Si / eumelanin
hybrids are a novel interesting class of organic —
inorganic materials for photovoltaic applications.
In the field of renewable energy production, porous Si / eumelanin
hybrids are a novel interesting class of organic —
inorganic materials for photovoltaic applications.
For perovskite solar cells world record efficiencies have been obtained from compositional engineering of the
hybrid organic -
inorganic perovskite light absorber material.
His other topics of research concern the field of supramolecular chemistry, crystal engineering and fabrication of
hybrid organic —
inorganic functional materials like coordination polymers based on organometallic nodes or open metal — organic frameworks with controllable size and morphology with potential applications in storage and separation of gases and small organic molecules.
Widely regarded as one the most influential and significant artists in post-war Poland and Paris, Alina Szapocznikow (1926 - 1973) has helped to deconstruct and re-imagine traditional sculpture, solidifying her pioneering vision of the human body, and her distinctively radical
hybrids of the organic and
inorganic.
This entropic quality of the work also manifests itself in the use of organic matter which, by melting with
inorganic substance, be it natural or artificial, generates disturbing
hybrids, unstable artifacts constantly subject to mutation.
She infused a completely new set of materials: those she concocted and heavily documented in the laboratory of her studio — such as tinted polyester resin and polyurethane expanding foam — creating a post-human form of lamps that used casts made directly from her lips, to every day resources — pantyhose, newspaper clippings, photographs, with straw and resin, grass and foam — resulting in distinctly radical
hybrids of the organic and
inorganic.
Researchers at Harvard have created a
hybrid water splitting — biosynthetic system based on a biocompatible Earth - abundant
inorganic catalyst system to split water into molecular hydrogen and oxygen (H2 and O2) at low driving voltages.
«The key to this research is the
hybrid composite material — combining
inorganic semiconductor nanoparticles with organic compounds.