Hongsheng Gao scite author profile

This review summarizes the current state of polymer composites used as dielectric materials for energy storage. The particular focus is on materials: polymers serving as the matrix, inorganic fillers used to increase the effective dielectric constant, and various recent investigations of functionalization of metal oxide fillers to improve compatibility with polymers. We review the recent literature focused on the dielectric characterization of composites, specifically the measurement of dielectric permittivity and breakdown field strength. Special attention is given to the analysis of the energy density of polymer composite materials and how the functionalization of the inorganic filler affects the energy density of polymer composite dielectric materials.

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Nanoindentation of Silver Nanowires

Gao

et al. 2003

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The hardness and elastic modulus of a silver nanowire was measured using a nanoindenter. It was found that the silver nanowire has comparable hardness and elastic modulus to bulk silver. An array of nanoscale indents was successfully made on the wire by directly indenting the wire. The shape and size of the indents are controllable. The nanoindentation approach permits the direct machining of nanowires without the complications of conventional lithography.

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Nanomechanical characterization of single-walled carbon nanotube reinforced epoxy composites

et al. 2004

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Nanomechanical properties of single-walled carbon nanotube (SWNT) reinforced epoxy composites with varying weight percentage (0, 1, 3, and 5 wt%) of nanotubes were measured by nanoindentation and nanoscratch techniques. Hardness and elastic modulus were measured using a nanoindenter. Scratch resistance and scratch damage were studied using the AFM tip sliding against the SWNT reinforced sample surfaces. Nanoindentation/nanoscratch deformation and fracture behaviour was studied by in situ imaging of the indentation impressions/scratch tracks. Viscoelastic properties of the nanocomposites were measured using nanoindentation dynamic mechanical analysis tests. The reinforcing mechanisms are discussed with reference to the nanotube dispersion, interfacial bonding, and load transfer in the SWNT reinforced polymer composites.

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Nanoindentation of Cu₂O Nanocubes

Li¹,

Gao²,

Murphy³

et al. 2004

Nano Lett.

179

109

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Nanoindentation tests were performed directly on solid and hollow cuprous oxide (Cu 2 O) nanocubes. The hardness and elastic modulus of solid Cu 2 O nanocubes were measured and compared with the values of bulk Cu 2 O. It is found that the hollow cube top wall acts as a membrane that bends under an indentation load. The Cu 2 O nanocubes are more ductile rather than brittle. Deformation behavior and fracture mechanics are discussed in conjunction with the structure of the Cu 2 O nanocube.

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Elastic modulus of amorphous SiO2 nanowires

Gao

2006

144

106

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Amorphous SiO2 nanowires with diameter ranging from 50 to 100 nm were synthesized using chemical vapor deposition (CVD) under an argon atmosphere at atmospheric pressure. Nanoscale three-point bending tests were performed directly on individual amorphous SiO2 nanowires using an atomic force microscope (AFM). Elastic modulus of the amorphous SiO2 nanowires was measured to be 76.6±7.2GPa, which is close to the reported value of the bulk SiO2 and thermally grown SiO2 thin films, but lower than that of plasma-enhanced CVD SiO2 thin films. The amorphous SiO2 nanowires exhibit brittle fracture failure in bending.

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High-pressure torsion-induced grain growth in electrodeposited nanocrystalline Ni

et al. 2006

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Deformation-induced grain growth has been reported in nanocrystalline (nc) materials under indentation and severe cyclic loading, but not under any other deformation mode. This raises an issue on critical conditions for grain growth in nc materials. This study investigates deformation-induced grain growth in electrodeposited nc Ni during high-pressure torsion (HPT). Our results indicate that high stress and severe plastic deformation are required for inducing grain growth, and the upper limit of grain size is determined by the deformation mode and parameters. Also, texture evolution suggests that grain-boundary-mediated mechanisms played a significant role in accommodating HPT strain.

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A super pan-genomic landscape of rice

et al. 2022

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Pan-genomes from large natural populations can capture genetic diversity and reveal genomic complexity. Using de novo long-read assembly, we generated a graph-based super pan-genome of rice consisting of a 251-accession panel comprising both cultivated and wild species of Asian and African rice. Our pan-genome reveals extensive structural variations (SVs) and gene presence/absence variations. Additionally, our pan-genome enables the accurate identification of nucleotide-binding leucine-rich repeat genes and characterization of their inter- and intraspecific diversity. Moreover, we uncovered grain weight-associated SVs which specify traits by affecting the expression of their nearby genes. We characterized genetic variants associated with submergence tolerance, seed shattering and plant architecture and found independent selection for a common set of genes that drove adaptation and domestication in Asian and African rice. This super pan-genome facilitates pinpointing of lineage-specific haplotypes for trait-associated genes and provides insights into the evolutionary events that have shaped the genomic architecture of various rice species.

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Interface affected zone for optimal strength and ductility in heterogeneous laminate

et al. 2018

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Interfaces have been reported to significantly strengthen and toughen metallic materials. However, there has been a long-standing question on whether interface-affected-zone (IAZ) exists, and how it might behave. Here we report in situ high-resolution strain mapping near interfaces in a copper-bronze heterogeneous laminate, which revealed the existence of IAZs. Defined as the zone with strain gradient, the IAZ was found to form by the dislocations emitted from the interface. The IAZ width remained largely constant with a magnitude of a few micrometers with increasing applied strain. Interfaces produced both back stress strengthening and work hardening, which led to both higher strength and higher ductility with decreasing interface spacing until adjacent IAZs started to overlap, after which a tradeoff between strength and ductility occurred, indicating the existence of an optimum interface spacing for the best mechanical properties. These findings are expected to help with designing laminates and other heterogeneous metals and alloys for superior mechanical properties.

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Hongsheng Gao

Polymer Composite and Nanocomposite Dielectric Materials for Pulse Power Energy Storage

Nanoindentation of Silver Nanowires

Nanomechanical characterization of single-walled carbon nanotube reinforced epoxy composites

Nanoindentation of Cu₂O Nanocubes

Elastic modulus of amorphous SiO2 nanowires

High-pressure torsion-induced grain growth in electrodeposited nanocrystalline Ni

A super pan-genomic landscape of rice

Interface affected zone for optimal strength and ductility in heterogeneous laminate

Contact Info

Product

Resources

About

Hongsheng Gao

Polymer Composite and Nanocomposite Dielectric Materials for Pulse Power Energy Storage

Nanoindentation of Silver Nanowires

Nanomechanical characterization of single-walled carbon nanotube reinforced epoxy composites

Nanoindentation of Cu2O Nanocubes

Elastic modulus of amorphous SiO2 nanowires

High-pressure torsion-induced grain growth in electrodeposited nanocrystalline Ni

A super pan-genomic landscape of rice

Interface affected zone for optimal strength and ductility in heterogeneous laminate

Contact Info

Product

Resources

About

Nanoindentation of Cu₂O Nanocubes