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Cellulose Fibrils as Reinforcement Materials: Process and Characterization
关键字:Cellulose fibrils
http://www.polymer.cn/Industry/industry2376.html |
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【Small 2018, 14, 1802234】Cucurbit[8]uril-Based Polymers and Polymer Materials
Cucurbit[8]uril (CB[8]) is unique and notable in the cucurbit[n]uril family, since it has a relatively large cavity and thus is able to simultaneously accommodate two guest molecules. Typically, an electron-deficient first guest and an electronrich second guest can be bound by CB[8] to form a stable 1:1:1 heteroternary supramolecular complex. Additionally, two homo guests can also be stron...
http://www.polymer.cnt//ss/zouhua/publicationsshow_14010.html |
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Advanced Thermal Interface Materials for Thermal Management
Advanced Thermal Interface Materials for Thermal Management.
http://www.polymer.cnt//ss/yuwei/publicationsshow_13698.html |
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[ES Materials & Manufacturing]New Functions of Polyaniline
Owing to the excellent electrical conductivity and unique chemical structures, conducting polymer polyaniline (PANI) has been widely utilized in many application fields. In this review, the state-of-art current research status on the recent developed new functions of PANI in the applications including environmental remediation, giant magnetoresistance (GMR) sensors, coupling agents, metamaterial...
http://www.polymer.cnt//ss/gujunwei/publicationsshow_13527.html |
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High H2 Adsorption by Coordination-Framework Materials
A series of coordination frameworks with different pore sizes (see structure of one; Cu blue, C gray, H white, O red) are prepared from CuII ions and carboxylate ligands of various lengths. Comparison of their sorption properties reveals that smaller pores allow higher densities of adsorbed H2, whereas larger pores allow higher maximum H2 storage capacities.
http://www.polymer.cnt//ss/zhaoxuebo/publicationsshow_9809.html |
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[J. Mater. Chem. B] Blood compatible materials: state of the art
Devices that function in contact with blood are ubiquitous in clinical medicine and biotechnology. These devices include vascular grafts, coronary stents, heart valves, catheters, hemodialysers, heart-lung bypass systems and many others. Blood contact generally leads to thrombosis (among other adverse outcomes), and no material has yet been developed which remains thrombus-free indefinitely and ...
http://www.polymer.cnt//ss/gchen/publicationsshow_9740.html |
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Methods for estimating Weibull parameters for brittle materials
A Monte Carlo simulation is used to obtain the statistical properties of the Weibull parameters estimated by the linear regression, weighted linear regression, maximum likelihood and moments methods, respectively.Results reveal that the estimated Weibull modulus is always biased, which has a much lower accuracy than the scale parameter. The mean square error is adopted as a criterion for the com...
http://www.polymer.cnt//ss/zhoujiancheng/publicationsshow_9137.html |
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A theoretical analysis of local thermal equilibrium in fibrous materials
The internal heat exchange between each phase and the Local Thermal Equilibrium (LTE) scenarios in multi-phase fibrous materials are considered in this paper. Based on the two-phase heat transfer model, a criterion is proposed to evaluate the LTE condition, using derived characteristic parameters. Furthermore, the LTE situations in isothermal/adiabatic boundary cases with two different heat source...
http://www.polymer.cnt//ss/qulijun/publicationsshow_8901.html |
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Bioinspired One-Dimensional Materials for Directional Liquid Transport
One-dimensional materials (1D) capable of transporting liquid droplets directionally, such as spider silks and cactus spines, have recently been gathering scientists’ attention due to their potential applications in microfluidics, textile dyeing, filtration, and smog removal. This remarkable property comes from the arrangement of the micro- and
nanostructures on these organisms’ s...
http://www.polymer.cnt//ss/zhengyongmei/publicationsshow_7431.html |
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Bioinspired Layered Materials with Superior Mechanical Performance
Bioinspired Layered Materials with Superior Mechanical Performance
http://pubs.acs.org/doi/full/10.1021/ar400279t
http://www.polymer.cnt//ss/cheng/publicationsshow_6690.html |
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