网址：//www.xcmww.com/py 结婚，2019年1月30日10:57:38+0000 恩努斯 每小时 一 https://wordpress.org/？V= 4.9 //www.xcmww.com/py/2019/01/30/paper-of-the-month-synthesis-of-star-thermoresponsive-twiphilic-block-colomate-nano-assembles-and-the-effect-of-topology-on-their-thermoresponse/ 结婚，2019年1月30日10:57:38+0000 阿提娜·阿纳斯塔萨基，网络作家 本月论文 多元化学 聚合物 高分子化学新利手机客户端 热响应 //www.xcmww.com/py/？P＝8711 曹等。报道了星形热响应型亲温嵌段共聚物的合成。 <p style=“text-align:justify”><a href=“//www.xcmww.com/py/file/2019/01/c8py01617h-ga1.jpg”><img class=“大小中等wp-image-8712-AlignCenter”src=“http://blog.rsc.org/py/文件/2019/2019/01/c8py01617h-ga1-300x152.jpg”alt=“c8py01617h”width=“300”height=“152”srcsset=“//www.xcmww.com/py/file/2019/2019/01/c8py01617h-ga1-300x152.300x152.jpg 300w，一个//www.xcmww.com/py/files/2019/01/c8py01617h-ga1-768x389.jpg 768w，//www.xcmww.com/py/files/2019/01/c8py01617h-ga1-1024x518.jpg 1024w“尺寸=”（最大宽度：300px）100vw，300px“/>.<a><p><p style=“text-align:justify”>Thermo-responsive polymers can be used in a wide range of applications ranges from drug delivery to bioengineering duing to their unique capability of undercing a solution to unsolid transition in response to an external thermal spirations含有热响应嵌段的两亲性嵌段共聚物可自组装成核冠纳米组件，其中核冠由疏水嵌段组成，且电晕由热响应嵌段形成。张汉和他的同事对研究热响应相变对拓扑结构的依赖性很感兴趣。为了实现这一目标，采用可逆加成-断裂链转移（RAFT）分散聚合方法，通过聚合诱导的自组装，合成了定义明确的多臂星形嵌段共聚物纳米组件。嵌段共聚物的第一部分由热响应聚（N-异丙基丙烯酰胺）（PNIPAM）组成，第二部分为疏水性聚苯乙烯（PS）。通过仔细修改臂数（n=1，2，3和4）疏水块的聚合度和聚合条件，（PNIPAM-B-PS）聚合度和链密度相似的纳米组件，尽管拓扑结构不同，获得了。随后采用一系列表征技术，比较研究这些材料的反应性，包括浑浊度分析，动态光散射，可变温度¹h核磁共振和流变分析。作者发现，PNIPAM链的拓扑结构对其热响应相变有显著影响，随着臂数的增加，热响应相变减少。这可以归因于合成的恒星纳米组件中的粒子间和粒子内链纠缠。因此可以得出结论，热响应聚合物的拓扑结构可显著影响其热响应性，并且在设计此类材料的合成时应考虑到这一点。<p><p><p><p style=“text-align:center”><strong>此论文免费阅读和下载，直到2月27日！<strong>><p>><p>><p>><p>><a href=“https://pubs.rsc.org/en/content/articlepdf/2019/py/c8py01617h”>synthesis of star thermoresponsibility twiphilic block共聚物nano assembles and the effect of topology on their thermoresponse</a>，聚合化学。<em><strong><strong><em>，在2019年，<strong>10<strong>，403-411，<strong>doi：<strong>10.1039/<span class=“list_uU item-数据”>C8PY01617h</span><p>；<p><p><p><p><强>关于；Web编者强><p><p><p><p><a a href http://blob.rsc.org/py/2016/2016/08/Athina_.PNg“><img g class=“size全wwp-image-7667 Align左侧”src http://blog.rsc.org http://blog.RSc.org/http http://blob.RSc.org/2010/10.10310.10310.10310.10310.1039/<10.10310.10310.1039 Tasaki“width=”138“宽”height=“150”/>医生阿西娜·阿纳斯塔萨基是一名编辑委员会成员，也是高分子化学的网络作家。新利手机客户端自2019年1月起，she joined the Materials Department of ETH Zurich as an Assistant Professor to establish her independent research group.</p><p> </p><div class="lightsocial_container"><a class="lightsocial_a" 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technorati”/>=<a class=“light social\u a”href=“http://twitter.com/home”？status=reading+http%3a%2f%2fwww.xcmww.com%2fpy%2f2019%2f01%2f17%2feeuropean-biopolymer-summit-2019%2f“><img class=“light social\u img”src=“//www.xcmww.com/py/wp-content/plugins/light-social/twitter.png”alt=“post on twitter”title=“post on twitter”/>=<a class=“light social\u a”href=“http://www.google.com/buzz/post”？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2019%2f01%2f17%2feropean-biopolymer-summit-2019%2f“><img class=“light social”img“src=“//www.xcmww.com/py/wp-content/plugins/light-social/google-buzz.png”alt=“google buzz（aka）。google reader）“title=”google buzz（aka.google reader）“/>.<a>.<div> //www.xcmww.com/py/2019/01/02/paper-of-the-month-synthesis-of-sheet-coil-helix-and-coil-sheet-helix-triblock-coloms-by-combining-romp-with-paddle-mediated-isocyanide-polymation/ 结婚，2019年1月2日17:20:04+0000 阿提娜·阿纳斯塔萨基，网络作家 本月论文 //www.xcmww.com/py/？P＝8694 波马里科等。报道了片状螺旋和片状螺旋三嵌段共聚物的合成。 <p><a href=“//www.xcmww.com/py/files/2019/01/c8py01361f-ga1.jpg”><img class=“wp-image-8698 AlignCenter”src=“//www.xcmww.com/py/files/2019/01/c8py01361f-ga1-300x125.jpg”alt=“c8py01361f”width=“535”height=“223”srcset=“//www.xcmww.com/py/files/2019/01/c8py01361f-ga1-300x125.jpg 300w，//www.xcmww.com/py/files/2019/01/c8py01361f-ga1-768x321.jpg 768w，//www.xcmww.com/py/files/2019/01/c8py01361f-ga1-1024x427.jpg 1024w“尺寸=”（最大宽度：535px）100vw，535px“/>.<a><p><p style=“text-align:justify”>natural proteins are composited of distinct secondary structure elements such as sheets，螺旋和线圈。正是这些不同的拓扑结构的结合使蛋白质发挥其功能。由于这些结构的特性，这些材料的合成类似物对聚合物化学界也很有兴趣。新利手机客户端然而，一个共价系统，其中，螺旋线，而线圈组组合在一个线性系统中还没有实现。朝着这个方向，WeckElacqua和同事们开发了一种新的方法，在不影响序列控制的前提下，将三种不同的结构以高保真度共价连接在一起。这是通过将片状和卷状单体的序贯开环复分解聚合（ROMP）与钯介导的共价卷片式螺旋（ABC）和卷片式螺旋（BAC）域的异氰酸酯聚合相结合来实现的。将成卷单体的起始片通过ROMP聚合后，引入第二单体并随后聚合，得到由片材和线圈结构组成的二嵌段。然后用含有异氰酸盐聚合引发剂的特殊转移剂终止ROMP。含有线圈片和片线圈块的遥爪二嵌段共聚物，可作为P-螺旋形成单体聚合的大引发剂。像这样的，顺序共聚和大引发的结合使三种不同的聚合物链共价连接。重要的是，在三嵌段共聚物的合成过程中，所有单独的块保留其二级结构，如圆二色性和荧光光谱所示。作者确信，这项工作可以扩展到三嵌段和多嵌段共聚物的不同阵列的形成，从而使一系列新的应用成为可能。<p><p><strong>tips/comments directly from the authors:<strong><p><p style=“text-align:justify”>1.当合成拓扑多样的嵌段共聚物时，通常需要使用不同的聚合技术。如果是这样，谨慎选择和设计聚合物骨架是关键。第一，选择要使用的单体类别。这将告知所需聚合方法的类型，随后，要设计的启动器。<p><p style=“text-align:justify”>2。开环复分解聚合（ROMP）是一种广泛使用的可控聚合方法，它不仅可以控制分子量，但也可以采用迭代式或串联式ROM，这对于顺序控制的嵌段共聚物是可取的。在嵌段共聚物合成的每个步骤之后执行<sup>31的核磁共振波谱，尤其是在创建螺旋块的最后一步之前，是至关重要的。它确保整个过程中只存在一种钯物种。<p><p style=“text-align:justify”>4。钯（II）介导的异氰酸酯聚合是一种稳健的技术；在合成引发剂时有很高的官能团耐受性。它允许对多用途催化剂进行工程设计，如本手稿中的催化剂。<p style=“text-align:justify”>5。拓扑多样的聚合物骨架，比如床单，螺旋，和线圈，从仿生学的角度在人工合成领域获得了很多兴趣。明智地选择聚合物骨架，以及块长度，能够提供特征化技术，如圆二色性，荧光，以及X射线散射，以深入了解拓扑结构。<p><p style=“text-align:justify”>6。我们可以回答任何问题并解决您可能遇到的任何问题–请联系mw125@nyu.edu或eze31@psu.edu.<p><p><p><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/py/c8py01361f！divabstract“>通过将ROMP与钯介导的异氰酸盐聚合相结合，合成片状螺旋和片状螺旋三嵌段共聚物聚合化学。<em><strong><strong><em>，<em>><strong>2018，<strong>9，<strong>5655-5659，<强>doi：<强>10.1039/C8PY01361f<p><p>；<p><p><p><强强>约约Web作者强><p><p><p><p><p><b b b><强>2018 2018，<强强>2018，<强>2018，<强强>2018，<强>2018，<stron强>9，，<强>9，<强>5655-5655-5655-5655-5659，，<强>doi：<强>doi：：<强>10.10310.1039/10.1039/C8888888888888888na anastasaki“宽度=”138“height=”150“/>.<a>dr.阿提娜·阿纳斯塔萨基是一位高分子化学的网络作家。新利手机客户端She is currently an Assistant Professor at ETH Materials Department.</p><div class="lightsocial_container"><a class="lightsocial_a" 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//www.xcmww.com/py/2018/12/19/6th-world-reporture-summit-2019/ 结婚，2018年12月19日11:18:43+0000 Garima Sharma开发编辑 会议 //www.xcmww.com/py/？P＝8685 参加2019年第六届世界弹性体峰会，在里昂举行，法国将于2019年3月27日和28日听取其专家演讲人关于传统弹性体生产的案例研究，在专门的会议上，主要议题将包括：–弹性体市场动态–增强弹性体行业的可持续性和循环经济–基于自然和生物的··················· <p>加入<a href=“https://www.wplgroup.com/aci/event/reportures conference/”><strong>6th world reporture summit 2019</strong><a>，在里昂举行，法国，2019年3月27日和28日，在其专门会议期间听取专家演讲人关于传统弹性体生产的案例研究“alt=”第六届世界弹性体峰会“width=”732“height=”161“srcset=”//www.xcmww.com/py/files/2018/12/6th-orporate-300x66.jpg 300W，//www.xcmww.com/py/files/2018/12/6th-orporate-768x170.jpg 768W，//www.xcmww.com/py/files/2018/12/6th-orporate-1024x227.jpg 1024W，//www.xcmww.com/py/files/2018/12/6th-orporate.jpg 1220w“尺寸=”（最大宽度：732px）100vw，732px“/>.<a><p><strong><u>关键主题将包括：<u><strong><p>–Elasters Market Dynamics<br/>–Improving Sustainability&Circular Economy in the Elaster Industry<br/>–Natural&Bio-Based Rubbers<br/>–Current Regulation Shaping the Industry<br/>–Traditional Elasters Production<br/>–Approva Overallch to recycled repartures<br/>–repartures production technologies<br/>–a deeper look into hormapic repartures<br/>–maximized tyre design&production<br/>–the future of the automotive industry<br/>–other&non-traditional applications for reparturers<p><p>please see more details on the<a href=“https://www.wplgroup.com/aci/活动/弹性体会议/“>会议网站</a>and download the conference<a href=“https://www.wplgroup.com/aci/event/reportures conference/cbde6 agenda/”><strong>agenda</strong><a><p><div>for more information&registration，联系<strong>rafael krupa</strong>on<strong>+48 61 646 7040</strong>or email:<strong><a href=“mailto:rafael@acieu.net”>rafael@acieu.net</a><strong><div><p><p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f12%2f19%2f6th-world-ermobile-summit-2019%2f&title=6th+world+ermobile+summit+2019“><img 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class=“lightsocial”img“src=“//www.xcmww.com/py/wp-content/plugins/light-social/technorati.png”alt=“bookmark this on technorati”title=“bookmark this on technorati”/>=<a class=“lightsocial_a”href=“http://twitter.com/home”？status=reading+http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f12%2f19%2f6-world-reporture-summit-2019%2f“><img class=“light social\u img”src=“//www.xcmww.com/py/wp-content/plugins/light-social/twitter.png”alt=“post on twitter”title=“post on twitter”/>=<a class=“light social\u a”href=“http://www.google.com/buzz/post”？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f12%2f19%2f6-world-reporture-summit-2019%2f“><img class=“light social”img“src=”//www.xcmww.com/py/wp-content/plugins/light-social/google-buzz.png“alt=”google buzz（aka）。google reader）“title=”google buzz（aka.google reader）“/>.<a>.<div> //www.xcmww.com/py/2018/11/23/paper-of-the-month-choosing-the-ideal-photoinitiator-for-free-raderal-photopolymations-predictions-based-on-simulations-using-established-data/ FRI，2018年11月23日17:01:09+0000 阿提娜·阿纳斯塔萨基，网络作家 本月论文 //www.xcmww.com/py/？P＝8676 艾贝尔等。报道一种能预测自由基光聚合引发剂效率的工具。 <p><a href=“//www.xcmww.com/py/files/2018/11/c8py01195h-ga1.jpg”><img class=“wp-image-8678 AlignCenter”src=“//www.xcmww.com/py/files/2018/11/c8py01195h-ga1-300x161.jpg”alt=“c8py01195h”width=“328”height=“176”srcset=“//www.xcmww.com/py/files/2018/11/c8py01195h-ga1-300x161.jpg 300w，//www.xcmww.com/py/files/2018/11/c8py01195h-ga1-768x411.jpg 768w，//www.xcmww.com/py/files/2018/11/c8py01195h-ga1-1024x549.jpg 1024w“尺寸=”（最大宽度：328px）100vw，328px“/>.<a><p><p style=“text-align:justify”>a major requirement to synthesis polyment materials via photopolymerizations is the efficiency of the photoinitiator.这是因为引发聚合物链的量对自由基聚合的结果至关重要。据报道，影响这种效率的因素很多，包括紫外线-可见光吸收特性，辐射波长，离解量子产率和一级自由基对单体的反应性。为了能够“按需”访问各种光引发剂的性能，Gescheidt及其同事开发了一种工具，用于预测各种类型1（α-解理）光引发剂的引发效率。为了实现这一目标，对光引发剂性能的系统分析揭示了吸收特性的相互作用，离解量子产率，光强度，辐照波长和动力学。重要的是要注意，重要的副反应，如氧猝灭也被考虑在内。作者的模拟结果表明，在理想条件下，任何光引发剂都能以近乎完美的方式发挥作用。然而，氧猝灭机制与光引发剂的光物理性质的微妙性相结合，将一种非常适合的光引发剂与一种不太有用的光引发剂区分开来。作者得出的结论是，本征光引发剂特性（即引发剂的吸收光谱，离解的量子产率，一级自由基对单体的速率常数）；主要的副反应如氧猝灭，以及所用光源的发射特性（即辐射波长，光强度）是实现最佳启动性能的关键。正如作者在结论中所指出的，这种工具不仅对有经验的研究人员有用，而且还可以作为教育指导。相应的动力学方案可在作者的网站上免费提供，并可由任何用户进行调整。<p><p><p><p><strong>tips/comments directly from the author s:<strong><p>1.单一性质不足以合理地分类光起始剂。吸光度之间微妙的相互作用，量子产率，光源的动力学和特性才是最重要的。<p>2.选择合适的光引发剂很大程度上取决于所需的应用（例如本体聚合或涂层）。在这里，引发自由基的数目决定了聚合的效率及其稳定性。氧气抑制。<p>3.配方的光学密度与辐照波长相结合，控制固化层的厚度。必须了解所用光源的确切特性（发射带，强度）因为这会严重影响生成的自由基的数量和起始速率。<p>4.模拟依赖于实验参数，直接确定的（例如速率常数（<em>polym.化学，2018年<strong>9<strong>，38–47）和量子产率（<em>光化学。光生物素SCI.<2018，<strong>17<strong>，660–669），并提供复杂过程的总体图，如光诱导聚合的起始。<p>5.我们很高兴回答关于我们的启动模式的任何问题或评论–请联系G.Gescheidt-demner@Tugraz.at.<p><p>.<p style=“text-Align:Center”><strong>免费阅读，直到12月24日.<p><p>.<p><p><a href=“https://pubs.rsc.or g/en/content/articlepdf/2018/py/c8py01195h”>选择理想的光引发剂for free自由基光聚合：基于使用已建立数据的模拟的预测聚合化学。<em><strong><strong><em>，在2018年，<strong>9，<strong>5107-5115，<strong>doi:<strong>10.1039/c8py01195h<p><p><p><p><strong>about the web writer.<strong><p><p><a href=“//www.xcmww.com/py/files/2016/08/athina_0.png”><img class=“size full wp-image-7667 AlignLeft”src=“//www.xcmww.com/py/files/2016/08/athina_0.png”alt=“Dr Athina Anastasaki”width=“138”height=“150”/>=<a>dr.阿提娜·阿纳斯塔萨基是一位高分子化学的网络作家。新利手机客户端她目前是一名全球玛丽·居里研究员，与加州大学的克雷格·霍克教授一起工作，圣巴巴拉（UCSB）。2019年1月，she will join the ETH Materials Department as an Assistant Professor to establish her independent group.</p><p> </p><p> </p><p> </p><div class="lightsocial_container"><a class="lightsocial_a" 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Hydrogels（DN凝胶）由两个互穿网络组成，它们通过共价和可逆相互作用结合在一起，并通过重组其结构来抵抗高变形。特别是磁混合水凝胶，由于其在外磁场中触发水凝胶性质的可能性，引起了人们的广泛关注。方丹Montembault及其合作者通过开发一种新型的热响应混合双交联聚合物网络材料，在引发Diels-Alder（DA）反应后，对该领域做出了进一步的贡献。这种方法的核心是使用氧化铁纳米颗粒作为纳米交联剂，使用二呋喃功能化聚（环氧乙烷）作为热可逆DA反应的二烯伙伴。网络的热可逆性由Sup> 1 </SUP>核磁共振（NMR）谱和流变学研究证实，在加热样品时表现出快速的凝胶/液体状态转变。重要的是，比较了含和不含氧化铁纳米粒子的三维网络的流变特性。研究表明，在网络中氧化铁纳米粒子的存在确保了凝胶状结构在还原DA反应后保持。这些特征归因于通过共价结合的氧化铁纳米颗粒建立二次网络。Diels-Alder反应与氧化铁纳米颗粒的独特结合，可生成新的可逆网状网络，为磁热疗刺激介导的进一步应用铺平道路。<p><p style=“text-align:justify”><a href=“//www.xcmww.com/py/files/2018/10/c8py01006d-ga1.jpg”><img class=“wp-image-8667-aligncenter“src=”//www.xcmww.com/py/files/2018/10/c8py01006d-ga1-300x88.jpg“alt=”c8py01006d“width=”493“height=”145“srcset=”//www.xcmww.com/py/files/2018/10/c8py01006d-ga1-300x88.jpg 300w，//www.xcmww.com/py/files/2018/10/c8py01006d-ga1-768x225.jpg 768W，//www.xcmww.com/py/files/2018/10/c8py01006d-ga1-1024x300.jpg 1024w“尺寸=”（最大宽度：493px）100vw，493px“/><a><p><p style=“text-align:justify”><strong>提示/评论directly from the authors:<strong><p><1.通过结合Kabachnik Fields反应和“click”铜催化1,3-偶极环加成来合成二呋喃功能化二膦酸封端聚（环氧乙烷）的策略是一种通用方法，并且聚（环氧乙烷）主链可以被一系列可能带来新特性的聚合物所取代。<p＞2。3d网络的形成<em>via<em>Diels-Alder（da）与三马来酰亚胺的反应是热可逆的，与DA反应相比，具有更快的还原DA（RDA）反应速率，导致3D网络的破坏比其形成更容易。<p>3.需要磷酸基团的存在来允许通过与氧化铁纳米颗粒的相互作用和形成3D双交联网络进行交联。<p>4.即使在RDA反应后，3D网络仍保持不变，证明了氧化铁纳米粒子作为穿过强双淹没铁氧磷键的交叉点。此外，凝胶状结构至少保持在逾渗阈值的限制下，</P>＜P＞5。双交联凝胶的粘弹性特性表明，双交联会导致更硬的凝胶。<p><p><p><p style=“text-align:center”><strong>read the full article for free until 26th十一月！<br/><strong>><p>><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/py/c8py01006d！divabstract“>使用磁性氧化铁纳米颗粒作为交叉点的热响应混合双交联网络</a>，聚合化学。<em><strong><strong><em>，在2018年，9，462-4650，<strong>doi:<strong>10.1039/c8py01006d<p><p><p><p><strong>about the web writer.<strong><p><p><a href=“//www.xcmww.com/py/files/2016/08/athina_0.png”><img class=“size full wp-image-7667 AlignLeft”src=“//www.xcmww.com/py/files/2016/08/athina_0.png”alt=“Dr Athina Anastasaki”width=“138”height=“150”/>=<a>dr.Athina Anastasaki是聚合物化学的网页作者。新利手机客户端她目前是一名全球玛丽·居里研究员，与加州大学的克雷格·霍克教授一起工作，圣巴巴拉（UCSB）。2019年1月，她将以助理教授的身份加入ETH材料部，以建立自己的独立小组。<p><p><p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f29%2fpaper of the month使用磁性氧化铁纳米粒子作为交叉点的热响应混合双交联网络%2f&title=paper+of+the+month%3a+热响应+混合+双交联+网络+使用+磁性+铁+氧化物+纳米粒子+as+crossing+points“><img class=“lightsocial_img“src=”//www.xcmww.com/py/wp-content/plugins/light-social/digg.png“alt=”digg this“title=”digg this“/><a>；<a class=”light social_a“href=”http://www.reddit.com/submit？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f29%2fpaper of the month使用磁性氧化铁纳米粒子作为交叉点的热响应混合双交联网络%2f&title=paper+of+the+month%3a+热响应+混合+双交联+网络+使用+磁性+铁+氧化物+纳米粒子+as+crossing+points“><img class=“lightsocial_img“src=”//www.xcmww.com/py/wp-content/plugins/light-social/reddit.png“alt=”reddit this“title=”reddit this“/><a>；<a class=”light 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//www.xcmww.com/py/2018/10/08/polymer-新利手机客户端chemistry-steacheship-now-open-for-nominations/ //www.xcmww.com/py/2018/10/08/polymer 新利手机客户端chemistry演讲者现已开始提名/回复 周一，2018年10月8日08:55:37+0000 Garima Sharma开发编辑 讲师 //www.xcmww.com/py/？P＝8645 你知道一个早期的职业研究员，他对聚合物化学领域的贡献值得承认吗？新利手机客户端现在是你提出他们值得称赞的机会了！聚合物化学很高兴新利手机客户端地宣布，其2019年演讲的提名现已被接受。该年度奖项成立于2015年，旨在表彰早期的[…] <p><strong>你知道一个早期的职业研究者，他对聚合物化学领域的贡献值得表扬吗？<p>now is your chance to put them forward for the accolade them should新利手机客户端！现在是你提出他们应得的荣誉的机会了！<p><p><a href=“http://www.rsc.org/journals books databases/about journals/polymer chemistry/”><strong><em>polymer chemistry</em>>is pleasured to announced that now being accepted for its 2019 sterneship.该年度奖项成立于2015年，旨在表彰对聚合物化学领域做出重大贡献的早期职业科学家。<p>该奖项的接受者将被要求在2019年的国际会议上演讲，新利手机客户端在那里他们也将被授予奖项。The<em>polymer c新利手机客户端hemistry edition office will provide financial support to the recipient for travel and accommodation costs.<p><p>The recipient will also be asked to contribution a lead article to the journal and will have their work showcasted free of charge on the front cover of the issue in which their article is published=“attachment_”style=“width:498px”class=“wp caption aligncenter”><a href=“//www.xcmww.com/py/files/2018/10/cyrille-boyer-2.jpeg”><img class=“wp-image-8646”src=“//www.xcmww.com/py/files/2018/10/cyrille-boyer-2-300x225.jpeg”alt=“cyrille-boyer教授”width=“488”height=“366”srcsset=“//www.xcmww.com/py/files/2018/10/cyrille-博伊尔-2-300x225.jpeg 300W，//www.xcmww.com/py/files/2018/10/cyrille-boyer-2-768x576.jpeg 768w，//www.xcmww.com/py/files/2018/10/cyrille-boyer-2.jpeg 1024w“尺寸=”（最大宽度：488px）100vw，488px“/><a><p class=“wp caption text”>Left to right:教授Cyrille Boyer with Dr Athina Anastasaki，Emily Pentzer教授（<em>Polymer Chemistry新利手机客户端<em>Associate Editor）和Markus Muellner博士-<p><div><p><strong>Previous Winners-<p>2018–<a href=“https://research.unsw.edu.au/people/professor cyrille andre boyer”><strong>cyrille boyer=<strong><a>，新南威尔士大学澳大利亚法国</p><p>2016–<strong><a href=“http://www.chem.zju.edu.cn/~huangfeihe/redir.php”？目录编号：8579“>Feihe Huang<a><strong>，浙江大学，中国比利时候选人应符合以下标准：<p><ul><li>be an independent researcher，完成博士和博士后研究后，积极从事聚合物化学领域的研究，新利手机客户端并且对这一领域做出了重大贡献（这应该是在获得博士学位或同等学位的15年内，但对于那些已经休假的人会给予适当的考虑，例如育儿假，或遵循备选研究路径）.<li>><ul>><p>><strong>selection.<strong>><p>><ul>><li>合格的提名候选人将被通知他们的提名，并将被要求提供3篇他们认为代表他们当前研究的最新文章。<li>所有符合条件的提名候选人将由入围名单小组进行评估，由<em>聚合物化学咨询委员会和以前的讲师获得者组成。<li>入围者小组将考新利手机客户端虑候选人提供的文章以及他们的简历和提名信。<li>入围者将由<em>聚合物化学编辑委员会进一步评估，并且胜利者将根据匿名投票来选择。.<li>选择不仅仅基于定量测量。将考虑推荐信和候选人简历中提供的所有信息，包括研究成果和创意，对聚合物化学界的贡献，新利手机客户端创新，合作和团队合作，出版历史，以及与<em>聚合物化学的接触。<em><li><ul><p><新利手机客户端strong>提名</strong><p><ul><li>提名必须作出<em>via</em>email to<a href=“mailto:polymers rsc@rsc.org”><strong>polymers rsc@rsc.org<strong><a>，并且应该包括一份简短的简历和一份简短的提名信-<li>不允许自我提名-<li>提名者不需要是高级研究人员，我们鼓励所有职业级别的人提名，作为皇家化学学会的一部分，新利手机客户端我们相信<a href=“http://www.rsc.org/about us/our strategy/inclusion diversity/”><strong>我们有责任促进包容性和可访问性，以便提高多样性</strong>。在可能的情况下，我们鼓励每个提名者考虑提名所有性别的候选人，种族，和背景。<li><li>在规定的资格标准之外的候选人可能仍然被考虑。<li><li>提名信的长度应达到1页。他们应特别强调提名人作为独立研究人员对该领域所做的贡献，以及评审团应考虑的任何职业中断或其他职业道路。同一封信中的多人提名一名候选人是被接受的。<li><ul><p><p><p style=“text-align:center”>提名应提交不迟于<strong>15<sup>th<sup>2018年12月</strong><p><p><p><div class=“lightsocial\u container”><a class=“lightsocial\u a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f08%2fpolymer chemistry讲师现在开始提名%2f&title=polymer+chemistry+2019+讲师席+now+open+for+提名%21“><img class=“light social\u img”sr新利手机客户端c=“//www.xcmww.com/py/wp-content/plugins/light-social/digg.png”alt=“digg this”title=“digg”/>_ a“href=”http://www.reddit.com/submit？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f08%2fpolymer chemistry讲师现在开始提名%2f&title=polymer+chemistry+2019+讲师席+now+open+for+提名%21“><img class=“light social\u img”src=“//www.xcmww.com/py/wp-content/plugins/light-social/reddit.png”alt=“reddit this”title=“reddit”/>社交网站a 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Delicious”title=“在del上加入书签Icious“/><a><a class=“lightsocial_a”href=“http://www.linkedin.com/sharearticle”？mini=true&url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f08%2fpolymer chemistry讲师现在开始提名%2f&title=polymer+chemistry+2019+讲师现在+open+for+提名%21&summary=&source=“><img class=“light social\uimg”src=“//www.xcmww.com/py/wp-content/plugins/light-social/linkedin.png”alt=“sha on linkedin”title=“sha关于linkedin“/>.<a><a class=“lightsocial_a”href=“http://www.technorati.com/faves”？add=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f08%2fpolymer chemistry sterneship now open for nominations%2f“><img class=“light social\u img”src=“//www.xcmww.com/py/wp-content/plugins/light-social/technorati.png”alt=“bookmark this on technorati”title=“bookmark this on technorati”/>=<a class=“light social\u a”href=“http://twitter.coM/home？status=reading+http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f08%2fpolymer chemistry studeship now open for nominations%2f“><img class=“light social\u 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//www.xcmww.com/py/？P＝8628 沃雷尔等。报告了有机介质中硫醇硫酯交换的有用指南。 <p style=“text-align:justify”>硫醇酯交换是动态共价化学中的常见反应。新利手机客户端这种反应在水介质中得到了广泛的优化，有助于生物化学和其他生物相关应用的广泛应用。新利手机客户端然而，这种反应在材料和聚合物科学中的应用目前尚不充分。新利手机客户端这可能是因为大多数聚合物/材料系统需要有机介质来进行各自的合成。为了克服这一障碍，扩大硫醇硫酯交换的范围和应用，Bowman及其同事在各种有机溶剂中探索了小分子和聚合物类似物中的这种动态交换。使用硫醇和碱的p<em>k<em><sub>a<sub>硫酯的电子性质，溶剂的极性，考察了温度和催化剂亲核性的影响。通过明智地选择和优化所有这些参数，作者能够调节小分子和随后的网络聚合物中的硫醇硫酯交换，以减少施加应力或改变聚合后材料的形状。所有这些发现都得到了彻底的报告和解释，通过制定一个令人印象深刻的“用户指南”，可以对聚合物/材料界的大量从业者有用。作者预计，非常强大的可调谐和响应的交换反应将进一步使聚合物/材料科学家开发新的智能材料，并为进一步的应用铺平道路。<p><a href=“//www.xcmww.com/py/files/2018/10/c8py01031e-ga.jpg”><img class=“wp-image-8638 AlignCenter”src=“//www.xcmww.com/py/files/2018/10/c8py01031e-ga-300x138.jpg“alt=”thiol thioester exchange“width=”361“height=”166“srcset=”//www.xcmww.com/py/files/2018/10/c8py01031e-ga-300x138.jpg 300w，//www.xcmww.com/py/files/2018/10/c8py01031e-ga-768x353.jpg 768W，//www.xcmww.com/py/files/2018/10/c8py01031e-ga-1024x471.jpg 1024w“尺寸=”（最大宽度：361px）100vw，361px“/><a><p><p>.<p><p style=“text-align:justify”><strong>提示/评论directly from the authors:.<strong><p>1.当比较一组不同的硫酯与不同的硫酯交换时，作者发现，在热力学上，硫酯的酰基倾向于停留在最高pk<sub>a<sub>的硫醇上，并且将迅速交换以达到这个最低值。<p>2。较高pk<sub>a<sub>a的碱催化剂形成更多的硫代酯，因此在两个小分子系统和交联聚合物中更快速地促进硫代酯交换，一切都是一样的。碱性催化剂，如果在较大浓度下使用，是，然而，发现能显著延缓自由基硫醇烯反应生成交联聚合物。这可以通过优化自由基引发剂的浓度来克服。-热的，或–redox）关于碱。<p><p>3.发现N值较高的亲核催化剂（有关该参数计算的更多详细信息，请参阅Herbert Mayr的工作）可在小分子系统和交联聚合物中更快地促进硫醇硫酯交换，一切都是一样的。与碱性催化剂不同，亲核催化剂在产生交联聚合物的自由基硫醇烯反应中没有表现出类似的延迟。由于在硫醇-硫酯交换反应中形成极性中间体，极性溶剂/基质最有效地促进这种动态交换，尤其是在碱基较弱的情况下。<p>5.由于硫醇硫酯交换反应的能量势垒较低，温度对交换结果影响不大，然而，它确实改善了动力学。<p>6.如果读者对这种反应有任何未回答的问题，将其放入聚合物基质的方案，或其他一般性问题，请将他们引导到<a href=“mailto:brady.worrell@gmail.com”>brady.worrell@gmail.com</a>并且我们将到达它的底部。<p><p>.<p><p style=“text-align:center”><strong>read the full article for free until 30th October.<strong><p><p><p><p><a href=“http://pubs.rsc.org/en/content/articlelanding/2018/py/c8py01031e！DivAbstract“>有机介质中硫醇硫酯交换的用户指南：范围，局限性，以及在材料科学中的应用新利手机客户端聚合化学。<em><strong><strong><em>，在2018年，9，45 23-45 34doi:10.1039/c8py01031e</p><p><p><strong>about the web writer</strong><p><a href=“//www.xcmww.com/py/files/2016/08/athina_0.png”><img class=“size full wp-image-7667 AlignLeft”src=“//www.xcmww.com/py/files/2016/08/athina_0.png”alt=“athina”width=“138”height=“150”/>=<a>dr.阿提娜·阿纳斯塔萨基是一位高分子化学的网络作家。新利手机客户端她目前是一名全球玛丽·居里研究员，与加州大学的克雷格·霍克教授一起工作，圣巴巴拉（UCSB）。2019年1月，她将以助理教授的身份加入ETH材料部，建立自己的独立小组。<p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f02%2fpaper-of-the-month-a-user-guide-to-the-thiol-thio酯-exchange-in-organic-media-scope-limitations-and-applications-in-material-science%2f&title=paper+of+the+the+month%3a+a+user%e2%80%99s+guide+to+the+thiol th新利手机客户端io酯+exchange+in+organic+media%3a+scope%2c+limitations%2c+and+applications+in+mateL+Science“><img class=“light social_img”src=“//www.xcmww.com/py/wp-content/plugins/light-social/digg.png”alt=“digg this”title=“digg this”/>=<a><a class=“light 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class=“lightsocial_a”href=“http://www.google.com/buzz/post”？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f10%2f02%2fpaper-of-the-month-a-users-guide-to-the-thiol-thio酯-exchange-in-organic-media-scope-limitations-and-applications-in-material-science%2f“><img class=“light social”img“src=”//www.xcmww.com/py/wp-content/plugins/light-social/google_buzz.png“alt=”google buzz（aka）。google reader）“title=”google buzz（aka.google reader）“/>.<a>.<div> //www.xcmww.com/py/2018/10/02/paper-of-the-month-a-users-guide-to-the-thiol-thio酯-exchange-in-organic-media-scope-limitations-and-applications-in-material-scie新利手机客户端nce/feed/ 零 //www.xcmww.com/py/2018/10/01/welcome-to-our-new-associate-editors/ //www.xcmww.com/py/2018/10/01/Welcome to our new associate editors/response 周一，2018年10月1日13:48:43+0000 Garima Sharma开发编辑 编辑部 //www.xcmww.com/py/？P＝8613 我们很高兴地宣布菲利普杜普雷兹教授（根特大学）和霍尔格弗雷教授（约翰内斯古登堡大学美因茨分校）为聚合物化学的新副主编！新利手机客户端 <p>filip graduat<a href=“//www.xcmww.com/py/files/2018/10/duprez5.jpg”><img class=“wp-image-8614 AlignLeft”src=“//www.xcmww.com/py/files/2018/10/duprez5.jpg”alt=“professor filip du prez”width=“156”height=“208”/>=<a>ed from his research studies in macromolecular chemistry f新利手机客户端rom ghent（比利时）and lehigh（美国）university in 1996，之后，他在蒙彼利埃大学和根特大学进行博士后研究。1999，他最终成为了根特大学内聚合物化学研究小组的研究领导者。新利手机客户端现在，他领导了一个由25名研究人员和ugent组成的研究小组<a href=“http://www.chemtech.ugent.be/en/”>Valorization Consortium Chemtech</a>a s full professor.<p>filip's current research focuss on the development of new polymer structures，探索强大的聚合物功能化方法，设计高价值应用的聚合物材料。他的团队使用一种高度跨学科的方法，在某些情况下开发出工业上适用的聚合物材料。他的主要研究主题是1）聚合物功能化到绝对控制，2）动态和自愈聚合物材料，如玻璃聚合物和3）增加可再生聚合物的功能。<p><p>read some of his recent<em>polymer chemistry<em>articles below！<p><p><a href=“http://pubs.rsc.org/en/content/articlelanding/201新利手机客户端8/py/c8py01191e！DivAbstract“>通过二甘油脂双乙酰胺的多变性进行的多囊缩醛<<br/>Andrea Hufendiek，Sophie Lingier，Pieter Espeel，Stefaan de Wildeman and Filip E.du prez<br/><strong><em>polym.化学。<em><strong>，2018，高级文章<<p><a href=“http://pubs.rsc.org/en/content/articlelanding/2016/py/c6py01144f！DivAbstract“>Admet and Tad Chemistry:a Sus新利手机客户端tainable Alliance.<a><strong><br/>.<strong>l.Vlaminck，K。德布鲁伊克，O.T_R_N_和F.e.du prez<strong><br/><strong><strong><em>polym.化学。<em><strong>，2016，<strong>7<strong>，5655-5663<<p><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/py/c7py01488k！DivAbstract“>聚二甲基硅氧烷可淬火玻璃化物</a><br/><span class=“Article_uu author-link”>Tyler Stukenbroeker，.<span><span class=“Article_uu author-link”>Wendi Wang，.<span><span class=“Article_u author-link”>Johan M.winne，.<span class=“article_uu author-link”>filip e.du prez，<span><span class=“article_uu author-link”>Renaud Nicola_160;and<span><span class=“article_u author-link”>Ludwik Leibler<span><br/><span class=“list_u item-data”><i><strong>polym.化学。<strong><i>，2017，<strong>8<strong>，6590-6590-6593<span><p><p><p><p><p><a a href=“http://blog.rsc.org/py/文件/2018/10/4830 U Holger-frey U F2c-900-New.jpg“><img g class<img class=“wp-image-8615-6590 65 93<span><span><p><p><p><p><p><p><<p><<p><p><p><p><p><p><p><p><p><a a a http http://blog.RSc.RSc.org/2018/2018/2018/2018/10/10/4830/4830-霍尔格-霍尔格-霍尔格-霍尔格-霍尔格-frepy/files/2018/10/4830？霍尔格-frey f2c-900-new-225x300.JPG 225W（新-225x300.JPG 225W）//www.xcmww.com/py/files/2018/10/4830偅holger-frey偅f2c-900-new-768x1024.jpg 768W，//www.xcmww.com/py/files/2018/10/4830诳holger-frey_f2c-900-new.jpg 900w“尺寸=”（最大宽度：150px）100vw，150px“/></a><p><p><a href=“https://www.ak-frey.chemie.uni mainz.de/”>holger-frey</a>is a chaired professor at the institute of organic che新利手机客户端mistry，约翰内斯·古登堡大学（Johannes Gutenberg University Mainz）和350篇同行评议论文的作者对当前聚合物科学不同领域的原始出版物和评论进行了评议。新利手机客户端自2017年6月起，他就成为了《聚合物化学》的编辑委员会成员，现在他已担任副编辑一职。<p><p>他的兴趣范新利手机客户端围很广，通常包括离子聚合技术，超支化材料（聚醚，聚酯聚碳酸酯）硅基聚合物，多功能聚乙二醇，用于药物运输的嵌段共聚物和聚合物纳米结构。目前，他的研究兴趣集中在通过氧阴离子开环聚合制备的新型功能性聚合物上。使用CO<Sub>2作为单体的新方法，以及生成梯度和多嵌段结构的非常规碳阴离子聚合物合成方法，例如，作为分散剂或热塑性弹性体。<p><p><strong>.<strong>阅读下面他最近的一些文章！<p><p><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/py/c7py00173h！DivAbstract“>”Clickable Peg“via阴离子共聚合of ethylene oxide and glycidyl propargyl ether<a><br/>Jana Herzberger，Daniel Leibig，Jens Langhanki，Christian Moers，Till Opatz and Holger Frey<br/><strong><em>polym.化学。<em><strong>，2017，<strong>8<strong>，1882-1887<<p><a href=“http://pubs.rsc.org/en/content/articlelanding/2016/py/c6py01335j！DivAbstract“>两亲性核壳聚合物中客分子的可调动态疏水性附着物<<br/>J_rg Reichenwallner，Anja Thomas，Lutz Nuhn，Tobias Johann，Annette Meister，Holger Frey and Dariush Bandberger<br/><strong><em>polym.化学。<em><strong>，2016年，<strong>7<strong>，5783-5798<<p><a href=“https://pubs.rsc.org/en/content/articlelanding/2015/py/c5py01162k！DivAbstract“>基于二茂铁缩水甘油醚的水溶性和氧化还原反应性超支化聚醚共聚物<<br/>Arda Alkan，Rebecca Klein，Sergii i i.Shylin，Ulrike Kemmer Jonas，Holger Frey和Frederik R.wurm<br/><strong><em>polym.化学。<em><strong>，2015，<strong>6<strong>，7112-7118</p><p><p><p><strong><br/>as<em>polymer chem新利手机客户端istry<em>associate 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social_img”src=“//www.xcmww.com/py/wp-content/plugins/light-social/google_buzz.png”alt=“google buzz（aka）。google reader）“title=”google buzz（aka.google reader）“/>.<a>.<div> //www.xcmww.com/py/2018/10/01/welcome-to-our-new-associate-editors/feed/ 零 //www.xcmww.com/py/2018/09/13/welcome-to-our-new-associate-editor-professor-zi-chen-li/ //www.xcmww.com/py/2018/09/13/Welcome to our new associate editor zi chen li/回复 清华大学，2018年9月13日14:23:43+0000 Garima Sharma开发编辑 编辑部 新学者 //www.xcmww.com/py/？P＝8603 我们很高兴地欢迎李子辰教授（北京大学）担任高分子化学新副主编！新利手机客户端子陈丽获得了学士学位。1987年毕业于山东大学，获理学硕士学位。化学研究所学位，新利手机客户端中国科学院院士1990。1995，他在……年获得了高分子化学博士学位。新利手机客户端 <p><strong>我们很高兴地欢迎李子辰教授（北京大学）担任高分子化学的新副主编。新利手机客户端<strong><p><a href=“//www.xcmww.com/py/files/2018/09/picture.jpg”><img class=“wp-image-8604 AlignLeft”src=“//www.xcmww.com/py/files/2018/09/picture-230x300.jpg”alt=“professor zi chen li”width=“155”height=“202”srcsset=“//www.xcmww.com/py/files/2018/09/picture-230x300.jpg 230W，//www.xcmww.com/py/files/2018/09/picture-768x1001.jpg 768W，//www.xcmww.com/py/files/2018/09/picture-786x1024.jpg 786w，//www.xcmww.com/py/files/2018/09/picture.jpg 1300w“尺寸=”（最大宽度：155px）100vw，155px“/><a><p><p style=“text-align:justify”>zi chen li received his b.a.1987年毕业于山东大学，获理学硕士学位。化学研究所学位，新利手机客户端中国科学院院士1990。1995，他在北京大学傅绵礼教授的指导下完成了高分子化学博士学位。在博士研新利手机客户端究期间，他留在早稻田大学，日本作为交换生一年。在北大和早稻田大学两年（1995-1996）博士后研究后，1997年，他成为北大的教员，2002年被提升为教授。<p><p style=“text-align:justify”>他的主要研究兴趣目前包括新的聚合方法，刺激反应聚合物及其生物医学应用，聚合物的受控降解和单体的回收。<p><p>要了解他的研究，请阅读下面的文章！<p><p><p><p><a href=“http://pubs.rsc.org/en/content/articlelanding/2018/py/c8py00798e！D新利手机客户端ivAbstract“>通过1,4-氧噻帕-7-酮的活性开环聚合合成聚（ε-己内酯）的活性氧响应类似物<<br/>Linggao Li，Qiyuan Wang，Ruiliang Lyu，Li Yu，Shan Su，Fu Sheng Du and Zi Chen Li<br/><strong><em>polym。化学。<em><strong>，2018，高级文章<<p><a href=“http://pubs.rsc.org/en/content/articlelanding/2018/py/c8py00620b！DivAbstract“>ROS响应型聚（ε-己内酯）与悬垂硫醚和硒化基序傅圣渡and zi chen li<br/><strong><em>polym.化学。<em><strong>，2018，<strong>9<strong>，3762-3773<<p><a href=“http://pubs.rsc.org/en/content/articlelanding/2016/py/c5py01999k！DivAbstract“>氧化和温度双响应聚合物，基于苯基硼酸和N-异丙基丙烯酰胺基序</a><br/>Mei Zhang，Cheng Cheng Song，Ran Ji，Zeng Ying Qiao，Chao Yang，Fang Yi Qiu，De Hai Liang，Fu Sheng Du and Zi Chen Li<br/><strong><em>Polym.化学。<em><strong>，2016，<strong>7<strong>，1494-1504<p><p><p><p style=“text-align:center”><strong>as a<em>polymer chemi新利手机客户端stry<em>associate editor，子陈将处理提交给期刊的材料。为什么不把你的下一篇论文提交给他的编辑办公室？<strong><p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f09%2f13%2fwelcome to our new associate+editor+professor+zi chen+li“><img class=“lightsocial\u img”src=“//www.xcmww.com/py/wp-content/plugins/light-social/digg.png”alt=“digg this”title=“digg”/>=<a><a class=“lightsocial\u a”href=“http://www.reddit.com/submit？”url=http%3a%2f%2fwww.xcmww.com%2fpy%2f2018%2f09%2f13%2fwelcome to our new 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