Results 331 to 340 of about 218,035 (381)
Nanomaterials reshape the pulmonary mechanical microenvironment: novel therapeutic strategies for respiratory diseases. [PDF]
Front Bioeng BiotechnolChen LZ, Zheng PF, Cai Q, Chen RN.
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Nanocrystal quantum dots: building blocks for tunable optical amplifiers and lasers
, 2001 Alexander Mikhailovsky +6 more
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Nanocrystal Quantum Dots: From Discovery to Modern Development.
ACS Nano, 2021This review traces nanocrystal quantum dot (QD) research from the early discoveries to the present day and into the future. We describe the extensive body of theoretical and experimental knowledge that comprises the modern science of QDs.
A. Efros, L. Brus
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Nature Materials, 2023
Colloidal nanocrystals are successfully used as nanoscale building blocks for creating hierarchical solids with structures that range from amorphous networks to sophisticated periodic superlattices. Recently, it has been observed that these superlattices exhibit collective vibrations, which stem from the correlated motion of the nanocrystals, with ...
Maximilian Jansen +2 more
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Colloidal nanocrystals are successfully used as nanoscale building blocks for creating hierarchical solids with structures that range from amorphous networks to sophisticated periodic superlattices. Recently, it has been observed that these superlattices exhibit collective vibrations, which stem from the correlated motion of the nanocrystals, with ...
Maximilian Jansen +2 more
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Monodisperse FePt nanoparticles and ferromagnetic FePt nanocrystal superlattices
Science, 2000Synthesis of monodisperse iron-platinum (FePt) nanoparticles by reduction of platinum acetylacetonate and decomposition of iron pentacarbonyl in the presence of oleic acid and oleyl amine stabilizers is reported.
Shouheng Sun +4 more
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Molecular-Level Insight into Semiconductor Nanocrystal Surfaces.
Journal of the American Chemical Society, 2021Semiconductor nanocrystals exhibit attractive photophysical properties for use in a variety of applications. Advancing the efficiency of nanocrystal-based devices requires a deep understanding of the physical defects and electronic states that trap ...
Carolyn L. Hartley +2 more
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Annual Review of Chemical and Biomolecular Engineering, 2012
Semiconductor nanocrystals are promising materials for low-cost large-area electronic device fabrication. They can be synthesized with a wide variety of chemical compositions and size-tunable optical and electronic properties as well as dispersed in solvents for room-temperature deposition using various types of printing processes.
Brian A. Korgel, Matthew G. Panthani
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Semiconductor nanocrystals are promising materials for low-cost large-area electronic device fabrication. They can be synthesized with a wide variety of chemical compositions and size-tunable optical and electronic properties as well as dispersed in solvents for room-temperature deposition using various types of printing processes.
Brian A. Korgel, Matthew G. Panthani
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Annual Review of Physical Chemistry, 1998
▪ Abstract Ordered arrays, or superlattices, of metallic, insulating, or semiconducting quantum dots, represent an exciting new class of materials. These superlattices are often referred to as artificial solids, in which the nanocrystals take the place of atoms in traditional solids, and the packing arrangement of the nanocrystals determines the unit
Collier, C. P. +2 more
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▪ Abstract Ordered arrays, or superlattices, of metallic, insulating, or semiconducting quantum dots, represent an exciting new class of materials. These superlattices are often referred to as artificial solids, in which the nanocrystals take the place of atoms in traditional solids, and the packing arrangement of the nanocrystals determines the unit
Collier, C. P. +2 more
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Synthesis and Characterization of Monodisperse Nanocrystals and Close-Packed Nanocrystal Assemblies
, 2000▪ Abstract Solution phase syntheses and size-selective separation methods to prepare semiconductor and metal nanocrystals, tunable in size from ∼1 to 20 nm and monodisperse to ≤5%, are presented.
C. Murray, C. Kagan, M. Bawendi
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