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Hierarchical Approaches to Catalytic Preparation of Advanced PP Materials
关键字:polyolefin, high performance, hierarchical approaches, catalytic preparation
In this oral presentation I will summarize our research results on the hierarchical approaches to catalytic preparation of advanced PP materials.
http://www.polymer.cn/research/dis_info14139 |
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Effect of Critical Molecular Weight of PEO in Epoxy/PEO Blends as Characterized by Advanced DSC and Solid-state NMR
Polymer blends which combine the merits of each component play an important role in polymer industry, understanging the miscibility and dynamics between components is the key to high performance polymer blends.
http://www.polymer.cn/research/dis_info11966 |
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Three-Dimensional Array Expression of Multi-Layer Weave for Advanced Composite Materials
关键字:Composite, Array Expression, Multi-Layer Weave
In this paper, the principle, method and step in encoding arbitrary multi-layer weave have been put forward by establishing its three-dimensional array expression which shows both the structure of fabrics and the laws of weavng&nb...
http://www.polymer.cn/research/dis_info1602 |
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Liquid crystalline Graphene Oxide based Advanced Materials
关键字:Graphene oxide, Liquid crystal, thermo gravimetric analysis
There is an extensive thrust to develop liquid crystal of graphene oxide and it’s advanced
materials in the fields of physics, chemistry and materials science. Graphene is a single atomic
plane of graphite, constructed with sp2 hybridized carbon atoms in a perfect hexagonal lattice. This thinnest known material is now receiving great attention, because of its unique attributes such as immense...
http://www.polymer.cn/research/sy_info16992 |
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Liquid crystalline Graphene Oxide based Advanced Materials
关键字:Graphene oxide, Liquid crystal, thermo gravimetric analysis
There is an extensive thrust to develop liquid crystal of graphene oxide and it’s advanced
materials in the fields of physics, chemistry and materials science. Graphene is a single atomic
plane of graphite, constructed with sp2 hybridized carbon atoms in a perfect hexagonal lattice. This thinnest known material is now receiving great attention, because of its unique attributes such as immense...
http://www.polymer.cn/research/dis_info18487 |
| |
Hierarchical Approaches to Catalytic Preparation of Advanced PP Materials
关键字:polyolefin, high performance, hierarchical approaches, catalytic preparation
In this oral presentation I will summarize our research results on the hierarchical approaches to catalytic preparation of advanced PP materials.
http://www.polymer.cn/research/dis_info14139 |
| |
Effect of Critical Molecular Weight of PEO in Epoxy/PEO Blends as Characterized by Advanced DSC and Solid-state NMR
Polymer blends which combine the merits of each component play an important role in polymer industry, understanging the miscibility and dynamics between components is the key to high performance polymer blends.
http://www.polymer.cn/research/dis_info11966 |
| |
Three-Dimensional Array Expression of Multi-Layer Weave for Advanced Composite Materials
关键字:Composite, Array Expression, Multi-Layer Weave
In this paper, the principle, method and step in encoding arbitrary multi-layer weave have been put forward by establishing its three-dimensional array expression which shows both the structure of fabrics and the laws of weavng&nb...
http://www.polymer.cn/research/dis_info1602 |
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【Chinese Physics B】Deposition of Cu seed layer film by supercritical fluid deposition for advanced interconnects
The deposition of a Cu seed layer film is investigated by supercritical fluid deposition (SCFD) using H2 as a reducing agent for Bis(2,2,6,6-tetramethyl-3,5- heptanedionato) copper in supercritical CO2 (scCO2). The effects of deposition temperature, precursor, and H2 concentration are investigated to optimize Cu deposition. Continuous metallic Cu films are deposited on Ru substrates at 190 °C w...
http://www.polymer.cnt//ss/zhaobin/publicationsshow_13811.html |
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【Journal of Materials Science: Materials in Electronics】Deposition of Cu–Mn alloy film from supercritical carbon dioxide for advanced interconnects
Cu–Mn alloy films for microelectronic interconnects were deposited by H2 reduction of bis(2,2,6,6-tetramethyl-3,5-heptanedionato)-copper(II) [Cu(tmhd)2] and bis(penta-methylcyclopentadienyl)-manganese [Mn(pmcp)2] in supercritical carbon dioxide (scCO2). 20-nm thick and continuous Cu–Mn films with a smooth surface were deposited at the temperature of 210 °C. Manganese was found to be segregate...
http://www.polymer.cnt//ss/zhaobin/publicationsshow_13810.html |
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