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[Anal. Chem.] Thickness measurement of nanoscale polymer layer on polymer substrates by attenuated total reflection infrared spectroscopy
For the first time, attenuated total reflection (ATR)-Fourier transform infrared (FT-IR) spectroscopy was utilized to measure the thickness (d(0)) of a nanoscale polymer layer on polymer substrate with significant credibility. First, a mathematical formula, A/A(0) = 1 - 2d(0)/d(p), was derived based on a self-defining subsection function (where d(p) was defined as depth of penetration of AT...
http://www.polymer.cn//ss/yangpeng/publicationsshow_2168.html |
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[Macromol. Rapid. Commun.] A simple method to fabricate a conductive polymer micropattern on an organic polymer substrate
Under UV irradiation Plus a photomask, a hydrophilic/hydrophobic hybrid polymer surface is created by sandwiching an ammonium persulfate solution between two polymer films. It is demonstrated that an effective conductive PANT micropattern can be fabricated on such a wettability patterned Surface. For PET, a stable negative micropattern could be formed directly by the selective deposition of...
http://www.polymer.cn//ss/yangpeng/publicationsshow_2162.html |
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Nucleation Effect of Thermotropic Liquid Crystalline Polymer on the Crystallization of Polycaprolactone. Polymers & Polymer Composites, 2010, 18(1), to appear.
Polymers & Polymer Composites, 2010, 18(2), 91-101.
ABSTRACT:
Polycaprolactone (PCL) has attracted much attention in recent years due to its good biodegradability and biocompatibility. As a semicrystalline polymer, the final properties of PCL materials highly depend on the bulk crystallization level. However, PCL shows lower crystallization temperature and rate than other alipha...
http://www.polymer.cn//ss/wudefeng/publicationsshow_1719.html |
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北京化工大学《Science》:可重构的铁磁性液滴新发现
关键字:液态磁铁,铁磁性液滴
7月19日,《Science》在线刊登了北京化工大学软物质高精尖中心最新研究成果 “Reconfigurable ferromagnetic liquid droplet” ,即可重构的铁磁性液滴,或称液态磁铁。该研究发现一种新型磁性液体,通过控制磁性纳米粒子在水油界面的自组装,最终成功引导铁磁流体从顺磁性转变成铁磁性。通俗来讲,磁铁不再一定是坚硬的固体,也可以是流动的液体。
磁性材料的广泛使用大大提升了人类的生活水平,小...
http://www.polymer.cn/sci/kjxw15815.html |
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Science最新评述:捻曲结构造就强大的人工肌肉纤维
关键字:人工肌肉
中科院青促会特邀述评人
刘遵峰(南开大学)
穆九柯(美国德克萨斯州立大学达拉斯分校)
自从工业革命以来,人类发明了内燃机、电机、气动或液压等动力装置,对人类文明的发展起到了至关重要的作用。生物体则采用肌肉纤维作为动力装置从而获得致动的效果。人工肌肉是在外界刺激下可获得伸缩或旋转等运动形式的单组分材料或器件。如何模拟生物肌肉,制备出人工肌肉纤维,是最近科学家致力于研究的热点...
http://www.polymer.cn/sci/kjxw15798.html |
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Nature点评:多篇Science及Nature发表的塑料回收之路
关键字:塑料回收
犹记得2018年底,Science、Nature和美国化学会C&EN各自发布年度重大事件,塑料污染均赫然在列。塑料污染,到底有多厉害?废弃塑料的循环回收利用之路,到底有多艰难?
2019年4月22日,Nature杂志发表观点文章,从近年来包括5篇Science及多篇Nature系列在内的多项前沿成果进行阐述,并重点点评了最新发表在Nature Chemistry期刊上的热固性塑料的循环回收利用新技术。
塑料回用到底有多...
http://www.polymer.cn/sci/kjxw15470.html |
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Science:浙江大学利用离子杂化多孔材料实现乙炔/乙烯的高效分离
为了解决高效的气体储存和分离中所遇到的挑战,迫切的促使科学家去重新探索去设计新型多孔材料。于是人们设计和合成了具有规则多孔、大的比表面积
新型多孔材料MOFs,这个多孔材料是无机有机杂化材料,是由金属离子或团簇与有机配体通过配位键组合在一起的,这些材料可以从第一原理进行设计,而且由
于其组成和结构固有多样性,可以对其孔径和孔的性质进行有效精准的调控。
浙江大学化学工程与...
http://www.polymer.cn/trading/news_detail_10428 |
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热烈庆祝捷克OZM 和 IDEA SCIENCE公司建立全方位合作关系
OZM公司与IDEA SCIENCE公司正式建立全方位合作关系,包括IDEA SCIENCE在中国和美国销售OZM生产的仪器,OZM公司在欧洲销售IDEA SCIENCE生产的仪器,以及双方在新领域的技术合作。 这标志着IDEA SCIENCE公司在安全评估领域(危险品鉴定分类,含能材料安全性和安定性测试仪,阻燃材料测试等)的又一次历史性的突破。 OZM公司位于捷克首都布拉格,是一家知识型公司,由一批富有经验的爆炸研究科学家和工程师组成的,他们在化学...
http://www.polymer.cn/trading/news_detail_3464 |
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Applied Surface Science: 聚乳酸共混物界面作用调控及其高韧高耐热改性
论文标题:Highly toughened and heat-resistant poly(l-lactide) materials through interfacial interaction control via chemical structure of biodegradable elastomer
摘要:
Three biodegradable elastomers with different chemical structures, i.e., polyurethane (PU),
poly(L-lactide)-b-polyurethane-b-poly(L-lactide) (LPUL) and poly(D-lactide)-b-polyurethane-b-poly(D-lactide) (DPUD) triblock...
http://www.polymer.cn/ss/jbzeng/newsshow_6187.html |
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Composites Science and Technology: 导电高分子复合材料的电磁屏蔽愈渗行为
Shi, Y. D., Li, J., Tan, Y. J., Chen, Y. F., & Wang, M. (2019). Percolation behavior of electromagnetic interference shielding in polymer/multi-walled carbon nanotube nanocomposites. Composites Science and Technology, 170, 70-76.
https://www.sciencedirect.com/science/article/pii/S0266353818317123
http://www.polymer.cn/ss/ming/newsshow_6015.html |
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