//www.xcmww.com/me 清华大学，2018年11月15日13:56:51+0000 en - us 每小时 一 https://wordpress.org/?v=4.9.9 //www.xcmww.com/me/2018/11/15/top-10-most-read-msde-articles-q3-2018/ //www.xcmww.com/me/2018/11/15/top-10-most-read-msde-articles-q3-2018/回复 清华大学，2018年11月15日13:56:51+0000 欧利山编辑助理 前10名 //www.xcmww.com/me/？P＝828 本月在MSDE中看到了过去12个月的以下文章，这些文章是2018年7月至9月阅读量最大的前十篇文章。为什么不看看今天的文章，在下面写下你的想法和评论呢？深入学习化学反应预测大卫·福希，亚伦·穆德，尤金·古特曼，穆罕默德·塔瓦科利，格雷戈·乌尔本，弗朗西斯·刘，南希·休恩，大卫[…] <p>本月在MSDE中看到了过去12个月的以下文章，这些文章是在2018年7月至9月期间阅读最多的前十篇文章。<p><p>Why not take a look at the articles today and blog your thinks and comments below.<p><p><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me0107j！DivAbstract“><strong>Deep Learning for Chemical Reaction Prediction<strong><a><br/>David Fooshee，Aaron Mood，Eugene Gutman，Mohammadamin Tavakoli，Gregor Urban，Frances Liu，Nancy Huynh，David van Vranken and Pierre Baldi<br/><em>Mol.系统。Des。eng.</em>，2018、3、442-452<br/><strong>doi<strong>：10.1039/c7me0107j<p><p class=“capsule_uu title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me00096k！DivAbstract“><strong>Enabling precision manufacturing of active pharmaceutical components:Workflow for seeded cooling continuous crystalisations</strong><a><br/><span class=“Article_uuu author-link”>Cameron J.brown，</span><span class=“Article_uu author-link”>Thomas McGlone，</span><span class=“Article_uu author-link”>Stephanie Yerdelen，.<span><span class=“Article_uu author-link”>Vijay srirambattla，.<span><span class=“Article_uu author-link”>Fraser Mabbott，.<span class=“Article_u author-link”>Rajesh Gurung，.<span class=“Article_u author-linK > Maria L.Briuglia，.<span class=“Article_uu author-link”>Bilal Ahmed，.<span><span class=“Article_uu author-link”>Hector Polyzois，.<span><span class=“Article_uu author-link”>John McGinty，.<span><span class=“Article_uu author-link”>Francesca Perciballi，.<span class=“Article_uu author-link”>Dimitris Fysikopoulos，.<span class=“Article_uuAuthoR-Link“>P_L Macfhionnghaile，.<span><span class=“Article_uu author-link”>Humera Siddique，.<span><span class=“Article_u author-link”>Vishal Raval，.<span><span class=“Article_u author-link”>Tom_s.哈林顿，</span><span class="article__author-link">Antony D。Vassileiou，.<span class=“Article_uu author-link”>Murray Robertson，.<span class=“Article_uu author-link”>Elke Prasad，.<span><span class=“Article_uu author-link”>Andrea Johnston，.<span><span class=“Article_u author-link”>Blair Johnston，.<span class=“Article_u author-link”>Alison Nordon，.<span class=“Article_u author-link”>贾吉特Ssrai，<span><span class=“article_uu author-link”>gavin halbert，<span><span class=“article_u author-link”>joop h.ter horst，.<span class=“article_uu author-link”>chris j.价格，</span><span class="article__author-link">Chris D。瑞利，.<span class=“Article_uu author-link”>Jan Sefcik and.<span class=“Article_uuu author-link”>Alastair J.佛罗伦萨<br/><i>mol.系统。Des。Eng。< / i >,2018、3、518-549<br/><span class=“list_uu item-label”><strong>doi<strong>：.<span class=“list_u item-data”>10.1039/c7me0096k<span><br/><p><p class=“capsule_uu title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me0090a！DivAbstract“><strong>A solution processible dissymmetric pooletic organic cage<strong>><br/><span class=“Article_uuu author-link”>A.G.slater，<span><span class=“article_u author-link”>m.一个。,< / span > < span class = " article__author-link " > M。e.Briggs，<span><span class=“article_uu author-link”>k.e.jelfs and.<span class=“Article_uu author-link”>a.一。库珀< br / > <我>摩尔。系统。Des。Eng。< / i >,2018、3、223-227<br/><span class=“list_uu item-label”><strong>doi<strong>：.<span class=“list_u item-data”>10.1039/c7me0090a</span><p class=“capsule_uu title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me000977a！divabstract“><strong>zsm-5结晶中无机和有机结构定向剂的协同效应.<strong><a><br/><span class=“Article_uuu author-link”>aseem chawla，.<span><span class=“Article_uu author-link”>rui li，.<span class=“Article_uu author-link”>rishabh jain，.<span class=“Article_u author-link”>r.John Clark， </span><span class="article__author-link">James G。Sutjianto，<span><span class=“article_u author-link”>jeremy c.palmer and</span><span class=“article_uu author-link”>jeffrey d.Rimer<br/><i>Mol.系统。Des。Eng。< / i >,2018、3、159-170<br/><span class=“list_uu item-label”><strong>doi<strong>：<span><span class=“list_uu item-data”>10.1039/c7me00097a<span><br/><span><p class=“capsule_uu title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c8me00017d！DivAbstract“><strong>催化单链聚合纳米粒子at work:from ensegle to single particle dynamics.<strong><a><br/><span class=“Article_uuu author-link”>YiLiu Liu，.<span><span class=“Article_uuu author-link”>Petri Turunen，<span style=“font-size:13.3333px”>.<span><span class=“Article_u author-link”>bas f.M。de waal，.<span class=“article_u author-link”>kerstin g.空白，alan e.Rowan，.<span class=“article_uu author-link”>Anja R.一个。Palmans和</span><span class="article__author-link">E。W迈耶<br/><i>mol.系统。Des。Eng。< / i >,2018、3、609-618<br/><span class=“list_uu item-label”><strong>doi<strong>：.<span class=“list_u item-data”>10.1039/c8me00017d<span><br/><p><p class=“capsule_uu title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0055c！DivAbstract“><strong>通过表面功能化调节酶样纳米颗粒的催化活性-<strong><a><br/><span class=“Article_uuu author-link”>Roberto Cao Mil_n，.<span><span class=“Article_uu author-link”>Luke D.他，-<span class=“article_uu author-link”>Spencer shorkey，-<span class=“article_u author-link”>Gulen y.汤加，.<span class=“article_uu author-link”>li sheng wang，.<span class=“article_u author-link”>xianghi zhang，.<span><span class=“article_u author-link”>imad uddin，.<span><span class=“article_u author-link”>riddha das，.<span class=“article_u author-link”>mine sulak and.<span class=“article_u author-link”>vincent m.Rotello<br/><i>Mol.系统。Des。Eng。< / i >,2017、2、624-628<br/><span class=“list_uu item-label”><strong>doi<strong>：.<span class=“list_u item-data”>10.1039/c7me0055c<span><br/><span><p class=“capsule_uu title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me00092h！DivAbstract“><strong>抗病毒RNAi纳米粒可保护虾免受白斑病的侵袭</strong><a><br/><span class=“Article_uuu author-link”>shai ufaz，.<span><span class=“Article_uu author-link”>adi balter，.<span><span class=“Article_uuu author-link”>chen tzror，.<span class=“Article_u author-link”>shai einbender，.<span class=“arTicle_uuu author-link“>ori koshet，.<span class=“Article_uu author-link”>Janna Shainsky Roitman，.<span><span class=“Article_uu author-link”>zvi yaari and and span><span class=“Article_uu author-link”>avi schroeder.<span><br/><i>mol.系统。Des。Eng。< / i >,2018、3、38-48<br/><span class=“list_uu item-label”><strong>doi<strong>：<span><span class=“list_u item-data”>10.1039/c7me0092h<span><p class=“capsule_u title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me00094d！DivAbstract“><strong>统计模型能够预测各种化学功能和实验条件下的离子液体粘度。<strong><a><br/><span class=“Article_uuu author-link”>Wesley Beckner，<span><span class=“Article_uu author-link”>Coco M.Mao and.<span class=“Article Uuu author-link”>jim pfaendtner.<span><br/><i>mol.系统。Des。Eng。< / i >,2018、3、253-263<br/><span class=“list_uu item-label”><strong>doi<strong>：.<span class=“list_u item-data”>10.1039/c7me00094d<span><p class=“capsule_uu title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me00086c！DivAbstract“><strong>ph-responsive glycolymer nandoms for targeted delivery of anti-cancer drugs.<strong><a><br/><span class=“Article_uuu author-link”>Gokhan Yilmaz，<span><span class=“Article_u author-link”>Emine Guler，<span><span class=“Article_uu author-link”>Caner Geyik，<span><span class=“Article_u author-link”>Bilal Demir，</span><span class=“Article_uuu author-link”>Melek Ozkan，<span><span class=“Article_uu author-link”>Dilek Odaci Demirkol，<span><span class=“Article_uu author-link”>Serdar Ozcelik，<span><span class=“Article_uu author-link”>Suna Timur and<span><span class=“Article_u author-link”>C.Remzi bec < br / > <我>摩尔。系统。Des。Eng。< / i >,2018、3、150-158<br/><span class=“list_uu item-label”><strong>doi</strong>：.<span class=“list_u item-data”>10.1039/c7me0086c</span><p><p class=“capsule_uu title fixpadv--m”><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00069c！DivAbstract“><strong>Beyond native block共聚物morphologies.<strong>><br/><span class=“Article_uuu author-link”>Gregory S.doerk and.<span class=“article_uu author-link”>kevin g.Yager<br/><i>Mol.系统。Des。Eng。< / i >,2017、2、518-538<br /><span class="list__item-label"><strong>DOI</strong>: </span><span class="list__item-data">10.1039/C7ME00069C</span><br /></span></p><p class="capsule__title fixpadv--m"><span class="article__author-link"><br /></span><span class="article__author-link"> </span></p><div 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wieliczko.<p><img class=“wp-image-1031 size full”src=“//www.xcmww.com/rscamericas/files/2018/10/039_frontiersofme_092718-E1540493978683.jpg”alt=“”width=“4878”height=“2636”/>.<p><p>Chicago，IL - 9月27日:芝加哥大学分子工程研究所与美国国家科学基金会合作，新利手机客户端化学工程师和分子系统设计与工程学会主办了芝加哥大学的“分子工程前沿”，伊利诺斯州。（图片来源：芝加哥大学的Randy Belice。））芝加哥大学分子工程研究所。<p>Beyond Publishing High-Quality Journals，英国皇家化学学会(Royal Societ新利手机客户端y of Chemistry)的目标是将来自不同职业阶段的研究人员以及来自世界各地的研究人员聚集在一起，进行积极的思想交流。首届<a href=“http://www.rsc.org/events/detail/32972/frontiers-of-molecular-engineering”target=“blank”rel=“noopener”>frontiers of molecular engineering sympaium<a>由<em><a href=“http://www.rsc.org/journals-books-databases/about-journals/msde/”target=“blank”rel=“noopener”>molecular systems design&芝加哥大学分子工程研究所（IME）主办。这是第一次同类研讨会，汇集了新兴分子工程领域的世界领导者，分享他们的最新工作，讨论创新的关键挑战。<p><h3><strong>developing a diversity，跨学科社区Andy Ferguson路加福音Connal,马库斯·穆勒,帕特里克·斯泰顿，Neil Hammond和Kristi Kiick.（照片来源：芝加哥大学的Randy Belice。））芝加哥大学分子工程研究所<p>as a joint venture between the Royal Society of Chemical and the一，新利手机客户端第一本同类杂志，跨越化学和化学工程的界限。新利手机客户端博士。Neil Hammond执行编辑，和博士。Laura Fisher<em>MSDE</em>，与编辑委员会合作，发展杂志和社区，它迎合跨实验，理论,物理计算研究，生物学，新利手机客户端化学,工程，材料科学，新利手机客户端与国际编辑委员会一起反映了该领域的多样性。在为期两天的活动中，25名研究人员聚集在一起，讨论他们的发现和分子工程的未来。从研究生到经验丰富的研究科学家。发言者来自世界各地的机构，包括芝加哥大学，阿贡国家实验室,斯坦福大学，麻省理工学院加州大学伯克利分校，澳大利亚国立大学,伦敦帝国理工学院和Coll_ge de France.<em>.<em>以及Laura和Neil，几乎所有的<a href="http://www.rsc.org/events/detail/32972/frontiers of ular-engineering" target="_blank" rel="noopener">编委会成员</a>出席并为研讨会的成功做出了贡献，包括Juan de Pablo，克莱尔·Adjiman路加福音Connal,安德鲁•梅洛安德鲁•弗格森参孙Jenekhe,Kristi Kiick和Patrick Stayton.<p><hr/><blockquote><p><em>“我们操纵分子的能力的进步导致了使用分子原理的概念，以工程解决方案解决社会问题。”<em><p><blockquote><hr/><p>The chair of the editional board，<strong><a href=“https://ime.ucchicago.edu/de_pablo_lab“>juan de pablo</a></>Liew，IME分子工程家庭教授，UCHICAGO国家实验室副总裁，研讨会开幕，注意到操纵分子能力的进步“导致了使用分子原理来设计解决社会挑战的方法的概念。”会议包括一个小组讨论，重点讨论了在三个关键分子工程研究所（董事会成员）如何教授和研究分子工程。f=“https://www.imperial.a c.uk/people/c.adjiman”target=“ou blank”rel=“noopener”>claire adjiman</a><strong>，伦敦帝国理工学院化学工程教授兼分子科学与工程研究所副所长，新利手机客户端和<strong><a href=“https://bioe.uw.edu/portfolio-items/stayton/”target=“ou blank”rel=“noopener”>patrick stayton<a><strong>，华盛顿大学分子工程与科学研究所特聘教授兼所长，新利手机客户端已加入<strong><a href=“https://ime.ucchicago.edu/tirrell_lab”>Matthew Tirrell</a><strong>，院长兼首席执行官普里茨克主持小组讨论过去，现在，以及分子工程的未来。<p><div id=“attachment_1053”class=“wp caption aligncenter”><p><img class=“wp-image-1053 size full”src=“//www.xcmww.com/rscamericas/files/2018/10/me-panel-discussion.png”alt=“”width=“1607”height=“663”/><p><p class=“wp caption text”>left to right:editional board chair juan de pablo and board membersPatrick Stayton和Claire Adjiman加入IME总监Matthew Tirrell，参加2018年9月27日分子工程前沿研讨会的小组讨论。（照片来源：芝加哥大学的Randy Belice。）？芝加哥大学分子工程研究所3><p><a href=“https://www.rit.edu/kgcoe/staff/poornima-padmanabhan”target=“ou blank”rel=“noopener”><strong>poornima padmanabhan</strong>>a>is an assistant professor of chemical engineering at the rochester institute of technology，还有她<a href=“https://pubs.rsc.org/en/content/articlelanding/2018/sm/c8sm000002f”！divabstract“target=”撘blank“rel=”noopener“>纸张<a>on万有引力坍缩of glogylal gels was featured on the cover of<em><a href=”http://www.rsc.org/journals-books-databases/about-journals/soft-matter/“target=”撘blank“rel=”noopener“>Soft matter</a><em>Early this year.强调新兴分子工程领域的跨学科性，她说，她参加这次活动是为了“了解前沿科学，为我的研究获得新的想法”。分子工程的前沿领域开始深入讨论与这一新的科学研究领域交叉的关键新利手机客户端问题。主要侧重于基础材料科学的专题介绍，新利手机客户端强调医疗保健和环境方面的全球挑战。<p><p>on the health care side，<strong><a href=“https://web.stanford.edu/group/heilshorn/”target=“_blank”rel=“noopener”>Sarah Heilshorn</a>.<strong>of stanford，他还担任<a href=“http://www.rsc.org/journals-books-databases/about-journals/biomaterials-science/editional-board-members/”targe新利手机客户端t=“ou blank”rel=“noopener”><em>biomaterials science<em><a>，涵盖了干细胞移植的新进展。<strong><a href=“http://rogersgroup.norwestern.edu/”target=“ou blank”rel=“noopener”>john rogers<a><strong>of norwestern university concerned bio resourbable imports and the development of water-solution transient electronics.<strong><a href=“https://ime.ucchicago.edu/hubbell ou lab/peoplE/Jeffrey_Hubbell“>Jeffrey Hubbell</a>，<strong>Eugene Bell，IME组织工程教授，研究癌症免疫疗法,或者用身体的免疫系统来发现和对抗癌症的方法，并强调了肿瘤抑制药物输送系统的创新。明确地，他讨论了靶向治疗注入血液是否和注入肿瘤一样有效，副作用更少。哈贝尔说，“我们发现如果我们使用靶向药物，我们有同样的功效，毒性较低。“<em>msde<em>编委会成员<strong><a href=“https://bioe.uw.edu/portfolio-items/stayton/”target=“ou blank”rel=“noopener”>pat stayton</a><strong>discussed his group's work on molecular engineering of macromolecular therapeutics.<p><div id=“attachment_1020”class=“wp caption aligncenter”><p><img class=“wp image”-1020 size full“src=”//www.xcmww.com/rscamericas/files/2018/10/me2018symbosition-speakers-collage.png“alt=”width=“2003”height=“890”/>.<p class=“wp caption text”>受邀发言人Sarah Heilshorn，Jeffrey HubellJohn Rogers赛斯亲爱的,帕特里克·斯泰顿，和Chong Liu.（图片来源：芝加哥大学的Randy Belice。））芝加哥大学分子工程研究所。<p><div><p>Presentations on the environment included the work of argonne national laboratory's<strong><a href=“https://www.anl.gov/profile/seth-b-darling”target=“_blank”rel=“noopener”>seth darling</a><strong>on water technologies with functionalities ranged from energy transduction to pollution redigation.<strong><a href=“https://ime.uchicago.edu/liu_group/people/chong_liu/”target=“_blank”rel=“noopener”>chong liu<a><strong>，IME助理教授，还介绍了她对水的研究，重点介绍电化学资源开采材料；本工作适用于：例如，从海水中提取铀或从废水中回收重金属。在“分子工程能源研究”会议上，Chaired by Boeing-Martin Professor of Chemical Engineering and Professor of 新利手机客户端Chemistry at the University of Washington and <em>MSDE</em> Editorial Board Member <strong><a href="https://www.cheme.washington.edu/facresearch/faculty/jenekhe.html" target="_blank" rel="noopener">Samson Jenekhe</a>,</strong> <strong><a href="https://faculty.washington.edu/luscombe/Prof._Christine_Luscombe.html" target="_blank" rel="noopener">Christine Luscombe</a></strong> discussed her research on conducting polymers for wearable electronics.克里斯汀她是坎贝尔职业发展基金的捐赠教授在材料科学与工程系任职于华盛顿大学清洁能源研究所，新利手机客户端解释了她在如何设计和制造有机电子产品方面的工作，这些电子产品在保持能量捕获解决方案的光学特性的同时可以被拉伸。<p>during the session on“Molecular Engineering of Soft Biological Assemblies”，Lawrence Livermore National Laboratory's<strong><a href=“https://people.llnl.gov/spadaccini2”target=“_blank“rel=”noopener“>chris spadaccini</a><strong>speak on additive manufacturing.<strong><a href=”https://www.seas.upenn.edu/directory/profile.php？id=251“target=”ou blank“rel=”noopener“>chinedum osuji</a><strong>，他最近从耶鲁大学搬到了爱德华D。他是宾夕法尼亚大学化学和生物分子工程的校长教授，展示了具有定制纹理的自组装聚合物和分子材料。ERing催化剂。<p><h3><strong>海报会议和奖品</strong><h3><p>Conference Programming also featured a<a href=“https://www.face新利手机客户端book.com/media/set/？set=A.1849007895194360&type=1&l=6ffb245a91“>海报会议</a>来自全球40多位研究人员的工作；在现代宽敞的时代中庭举行，海报会议为与会者提供了一个展示和讨论彼此研究成果的机会，让他们了解自己的同行，并向主要专家寻求建议。从无数引人入胜的讨论中，参加者相互学习，肯定会有很多未来的合作和持续的友谊。<strong><a href=“https://vivek lab.engr.uic.edu/odes-lab-people/”target=“ou blank”rel=“noopener”>vivek sharma<a><strong>，芝加哥伊利诺伊大学化学工程助理教授，对软质界面和流变学感兴趣，宏观行为和应用与潜在分子/大分子物种的物理化学性质之间的关系。他被主要研究人员的前沿研究报告吸引到会议上，同时见证了分子系统工程方法如何已经影响到不同的科学学科和问题。<p><div id=“attachment_”class=“wp caption aligncenter”><p><img class=“wp-image-1062 size full“src=”//www.xcmww.com/rscamericas/files/2018/10/20180927_IMepaster_042-e540577458973.jpg“alt=”width=“6250”height=“3859”/>.<p><p class=“wp caption text”>Vivek Sharma在研究所分子工程前沿研讨会的海报会议期间，与Chinedum Osuji讨论了他的软物质和流变学研究。E分子工程9月27日，2018。（图片来源：Anne Ryan）©芝加哥大学分子工程研究所。<p><div><div id=“attachment””class=“wp caption aligncenter”><p><img class=“wp-image-1068 size full”src=“//www.xcmww.com/rscamericas/files/2018/10/cecileal2018.jpg”alt=“”width=“1375”height=“916”/><p class=“wp caption text”>cecilia leaL在2018年9月27日的分子工程前沿研讨会上与Sarah Heilshorn讨论了她对小体和小体的微流体合成的研究。（照片来源：Anne Ryan）©Institute for Molecular Engineering at the University of Chicago.<p>><p>><strong>><a href=“https://matse.illois.edu/directory/profile/cecilial“target=”（空白）rel=“noopener”>cecilia leal</a>.<strong>是伊利诺伊大学厄本那香槟分校的材料科学助理教授，新利手机客户端研究小体。她介绍了她对小体和小体的微流体合成的研究，含有核酸。她说，会议的最佳部分是有足够的机会与同事和朋友聊天。<p><hr/><blockquote><p><em>“The best part of the meeting was that there were quantity of opportunities to chat with coorders and friends.”.<em><p><blockquote><hr/><p>on day two，三名学生的优秀海报获得了认可，并从<em><a href=" http://www.rsc.org/journals-books-databases/aboutjournals/ular -systems-design-engineering">MSDE</a></em> . <strong>Ashley Guo</strong>，作为IME的一名四年级学生，因为她的海报而获奖，“使用扩散图了解核小体动力学。”来自科罗拉多矿业学院的James Crawford因其杰出的海报“不饱和亚油酸通过沸石支持的Pt/Zif-67催化剂脱氧为庚烷”而获得了认可，并且来自斯坦福大学的<strong>Hao Yan获得了他的海报“Diamond Meets Molements:Scientific Opportunities with Diamondods.”.<p><div id=“Attachment_”class=“wp Caption AlignCenter”><p><img class=“wp-image-1024 size full”src=“//www.xcmww.com/rscamericas/files/2018/10/me2018symposium-papers-collage.png”alt=“”width=“2705”height=“1200”/><p class=“wp Caption Text”>highlights f2018年9月27日分子工程前沿研讨会期间，在IME中庭举行的海报会议和招待会。（图片来源：芝加哥大学的Randy Belice。）芝加哥大学分子工程研究所</p>><h3>><strong>The Emerging Investor Award.<strong>><h3>><div id=“attachment_”class=“wp caption AlignCenter”>><p>><img class=“wp-image-1028”src=“//www.xcmww.com/rscamericas/files/2018/10/mg_.jpg”alt=“”width=“574”height=“383”/><p class=“wp caption text”>prof.胡安德帕布罗（右）向教授颁发了第一个MSDE新兴研究者奖。Andrew Ferguson.（照片来源：芝加哥大学的Randy Belice。））芝加哥大学分子工程研究所<em>msde的演示文稿也包括了最佳新兴研究者论文的就职奖to<strong><a href=“https://andrew ferguson.ucchicago.edu/index.html”>andRew Ferguson</a>.<strong>，IME分子工程副教授。弗格森的论文获得了荣誉“<a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me00077d”！DivAbstract“target=”ou blank“rel=”noopener“>Rational design of patchy coholds via landscape engineering via landscape engineering->20论文是a<a href=”http://this%20collection%20features%20work%20that%20showcases%20molecular%20engineering%20approaches%20from%20leading%20scientistics%20in%20the%20early%20stages%20of%20ERS.%20%202018%20分子系统%20设计%20%26%20工程%20新兴的研究者%20分别是20提名的、20成员的、20成员的、20杂志的、编辑的、20顾问的、20委员会的、20识别的、20潜在的、20到20影响的、20未来的、20方向的、20字段的、20“target=”（空白）rel=“noopener”>UE </A>它的特色是展示了在独立研究生涯早期领先科学家的分子工程方法。2018年的《i>分子系统设计与工程》(<i>Molecular Systems Design & Engineering</i> Emerging调查员)是由期刊编辑和顾问委员会的成员单独提名的，以表彰他们在该领域影响未来方向的潜力。董事会对安德鲁印象深刻，他被邀请加入他们，现在是<a href=“//www.xcmww.com/me/？doing_wp_cron=1540498936.7508339881896972656250“target=”_blank“rel=”noopener“>newst editional board members of<em>msde.<em><a><p><h3><strong>recogning an emerging field.<strong><h3><p><strong><a href=”https://ime.ucchicago.edu/tirrell_lab“>matthew tirrell.<a><strong>，院长兼IME创始人普里茨克主任，说，这次会议展示了分子工程研究所和芝加哥大学如何成为新兴的分子工程领域的中心。这是来自不同学科的世界级研究人员来讨论该领域的进步和前景研究的地方。“<p><div id=“attachment_”class=“wp caption aligncenter”><p><img class=“wp-image-1026”src=“//www.xcmww.com/rscamericas/files/2018/10/061_frontiersofme_092718.jpg”alt=“”width=“599”height=“399”/><p class=“wp caption text”>Matthew Tirrell，IME主任。（图片来源：芝加哥大学的兰迪·贝里斯。）芝加哥大学分子工程研究所。<p>><p>Ryan Shafranek，华盛顿大学的一名四年级化学博新利手机客户端士生出席了会议，summed up the symposium this way: "It was an informative and promising conference for the growing community surrounding molecular-level design."</p><hr /><p><em>"This is where world-class researchers from across disciplines come to discuss advancements and promising research in the field."</em></p><hr /><p>Frontiers of Molecular Engineering was co-organized by the <a href="http://www.rsc.org/">Royal Society of 新利手机客户端Chemistry</a> and the <a href="https://ime.uchicago.edu/">Institute for Molecular Engineering at the University of Chicago</a> sponsored by <em>Molecular Systems Design & Engineering</em>,化学工程师协会和“< HRFF＝http://www. nff.gov/”>国家科学基金会< A/> >本文已新利手机客户端从一个“HRFF＝”http://im.ujigago.Euu/abut/NeWa/IeMyHooSts2两个分子工程/“目标＝“空白”Re=“NoNeOPER”>原始报告</A>中得到了增强。courtesy of the<a href="https://ime.uchicago.edu/">Institute for Molecular Engineering at the University of Chicago.</a></p><div class="lightsocial_container"><a class="lightsocial_a" href="http://digg.com/submit?url=http%3A%2F%2Fwww.xcmww.com%2Fme%2F2018%2F10%2F30%2Ffrontiers-of-molecular-engineering-a-first-of-its-kind-conference%2F&title=Frontiers+of+Molecular+Engineering%3A+A+First-of-its-Kind+Conference" ><img class="lightsocial_img" src="//www.xcmww.com/me/wp-content/plugins/light-social/digg.png" alt="Digg This" title="Digg This" /></a>  <a class="lightsocial_a" href="http://www.reddit.com/submit?url=http%3A%2F%2Fwww.xcmww.com%2Fme%2F2018%2F10%2F30%2Ffrontiers-of-molecular-engineering-a-first-of-its-kind-conference%2F&title=Frontiers+of+Molecular+Engineering%3A+A+First-of-its-Kind+Conference" ><img class="lightsocial_img" 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(aka.google reader）“title=”google buzz（aka.google reader）“/>.<a>.<div> //www.xcmww.com/me/2018/10/30/frontiers-of-molecular-engineering-a-first-of-its-kind-conference/feed/ 零 //www.xcmww.com/me/2018/10/23/wexing-new-members-to-the-msde-editional-board/ //www.xcmww.com/me/2018/10/23/welcoming-new-members-to-the-msde-editorial-board/#respond 星期二,2018年10月23日13:58:04+0000 休•考利开发编辑器 编辑委员会 //www.xcmww.com/me/?p=789 我们很高兴欢迎Linda Broadbelt，路加福音Connal,安德鲁•弗格森Niveen Khashab和Patrick Stayton在《分子系统设计与工程》编辑部工作。Linda Broadbelt是Sarah Rebecca Roland化学与生物工程系教授，也是[…]的McCormick工程与应用科学学院负责研究的副院长。新利手机客户端 <p><strong>我们很高兴欢迎Linda Broadbelt，路加福音Connal,安德鲁•弗格森Niveen Khasab和Patrick Stayton to the<em>Molecular Systems Design&Engineering<em><a href=“http://www.rsc.org/journals books databases/about journals/msde/editional board members/”>editional board</a><strong><p><img class=“Alignright size medium wp-image-811”src=“//www.xcmww.com/me/files/2018/10/4831_linda-broadband_f2c-900-225x300.jpg“alt=”width=“225”height=“300”srcset=“//www.xcmww.com/me/files/2018/10/4831偅linda-broadband_f2c-900-225x300.jpg 225W，//www.xcmww.com/me/files/2018/10/4831_linda broadbelt_f2c - 900 - 768 - x1024.jpg 768 w,//www.xcmww.com/me/files/2018/10/4831_Linda-Broadbelt_F2c-900.jpg 900w" size ="(max-width: 225px) 100vw，225px“/><p><p><strong>Linda Broadbelt<strong>is sarah rebecca roland professor in the department of chemical and biological engineering and the associate dean for research of the mccormick school of engineering and applied scie新利手机客户端nce at Northwestern university.<p>her honories include selection as the winner of the R.H.爱知化学反应工程威廉姆奖，的业务美国化学学会工业化学与工程奖；新利手机客户端多萝西·安和克拉伦斯·弗·斯蒂格奖，来自国家科学基金会的职业奖，新利手机客户端和一个爱切妇女行动委员会导师优秀奖，被选为美国科学促进会会员，新利手机客户端一个爱切人，一位富布赖特的杰出学者，被任命为国防分析研究所国防科学研究小组成员，新利手机客户端并被选为罗切斯特大学的苏杰出讲师，厄内斯特W泰尔在圣母大学和艾伦P。Colburn特拉华大学讲师。<p><p>她的研究和教学兴趣在多尺度建模领域，复杂动力学建模，环境催化,新的生化途径，和聚合/解聚动力学。<p><p></p><p><img class=“wp-image-790 size medium alignleft”src=“//www.xcmww.com/me/files/2018/09/connal-photo-240x300.jpg”alt=“”width=“240”height=“300”/><p><p><strong>luke connal</strong>is a senior讲师at the research school of chemistry at the australian national university（anu）新利手机客户端他是澳大利亚国立大学的期货研究员。<p>他从墨尔本大学获得了化学工程学士学位和聚合物化学博士学位，澳大利亚。2009年，他与弗兰克·卡鲁索(Frank Caruso)共同完成了一项博士后研究，开发聚合物自组装的新技术。当时，他是加州大学圣巴巴拉分校（University of California Santa Barbra）的基思•默多克（Keith Murdoch）博士后研究员和澳大利亚联动国际研究员（Australian Linkage International Fellow）与克雷格•霍克（Craig Hawker）教授的联合研究员。2013年，Luke以veski创新研究员和化学与生物分子工程系高级讲师的身份回到墨尔本大学。2017年，他将他的团队转移到澳大利亚国立大学化学研究院，他的研究项目是应用系统的高级聚合材料设计。新利手机客户端他获得了众多奖项的认可，如美国化学学会化学与工程新闻（ACS Chemical and Engineering News）<em>Talent 12<em><p>Luke's MSDE Paper<a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0023e！divabstract“>2d and 3d printing of self-healing gels:design and extrusion of self-rolling objects</a>won the<a href=“https://www.icheme.org/about ou/scribers/moulton.aspx”>icheme senior moulton medal</a>in 2017.<p><p><p><p><img class=“size medium wp-image-795 alignright”src=“//www.xcmww.com/me/files/2018/09/4806_-ferguson-ferguSon f2c-900-225x300.jpg“alt=”width=“225”height=“300”srcset=“//www.xcmww.com/me/files/2018/09/4806兘ferguson-ferguson_f2c-900-225x300.jpg 225W，//www.xcmww.com/me/files/2018/09/4806_ferguson ferguson_f2c - 900 - 768 - x1024.jpg 768 w,//www.xcmww.com/me/files/2018/09/4806 Ferguson-Ferguson f2c-900.jpg 900w“尺寸=”（最大宽度：225px）100vw，225px“/><p><p><strong>Andrew Ferguson<strong>is an associate professor at the institute for molecular engineering at the university of chicago.<p><p>he earned an m.eng.2005年在伦敦帝国理工学院化学工程专业，博士学位2010年，他在普林斯顿大学化学和生物工程专业与萨诺斯·帕纳约托普洛斯共事，巴勃罗Debenedetti,还有Yannis Kevrekidis。从2010年到2012年，他是MGH Ragon研究所的博士后，麻省理工学院，麻省理工学院化学工程系的哈佛和Arup Chakraborty合作。2012年8月，他在伊利诺伊大学香槟分校材料科学与工程系开始了自己的独立职业生涯。新利手机客户端并于2018年1月晋升为材料科学与工程、化学与生物分子工程副教授。新利手机客户端他于2018年7月加入IME。<p>他的研究使用计算和理论来理解和设计自组装材料，大分子折叠,和抗病毒治疗。<p>Andrew is the received of a 2017 uiuc College of Engineering Dean's Award for Excellence in Research，2016年爱知公会青年研究者建模与仿真奖，2015年ACS OpenEye优秀青年教师奖2014年NSF职业奖2014年ACS PRF博士新研究员，并被命名为北美化学工程师协会2013年度青年化学工程师。<p>Andrew's msde paper<a href=“https://pubs.rsc.org/en/content/articlelanding/2018/me/c7me00077d！DivAbstract“>Rational design of patchy cohologles<em>via<em>landscape engineering<a>Win the best paper by an emerging investives award at the<a href=“http://www.rsc.org/events/detail/32972/frontiers in molecular engineering”>frontiers of molecular engineering symbosisation<a>in Chicago in September 2018.<p><p><img class=“AlignLe中码wp-image-812“src=”//www.xcmww.com/me/files/2018/10/n.-khasab-picture-300x200.jpg“alt=”width=“300”height=“200”srcset=“//www.xcmww.com/me/files/2018/10/n.-khasab-picture-300x200.jpg 300w，//www.xcmww.com/me/files/2018/10/n. - khashab图片- 768 x512.jpg 768 w,//www.xcmww.com/me/files/2018/10/n.-khasab-picture.jpg 1000w“尺寸=”（最大宽度：300px）100vw，300 px " / > < / p > < p > <强> Niveen M。Khasab是阿卜杜拉国王科技大学（Kaust）物理科学与工程系的副教授。<p>During her博士研究at th新利手机客户端e University of Florida，教授哈沙布教授在实验室接受有机化学培训。新利手机客户端艾伦·R。Katritzky。在加州大学的博士后研究期间，洛杉矶，然后在西北大学，教授哈沙布继续在弗雷泽·斯托达特爵士的实验室接受训练，她致力于设计和制造机械化二氧化硅纳米颗粒和分子开关。教授Khashab在2006年获得了Crow有机创新奖，在2013年获得了AlMarai中东地区纳米技术卓越奖。她还是2017年欧莱雅-联合国教科文组织国际妇女科学奖的获得者。<p>她目前的工作重点是设计，新利手机客户端合成,以及有机-无机杂化材料的应用。光,磁铁，酶....)。她的实验室旨在开发使用分子自组装和超分子工具按需触发的系统。<p><p><p><img class=“Alignright size medium wp-image-796”src=“//www.xcmww.com/me/files/2018/09/stayton_patrick1-240x300.jpg”alt=“”width=“240”height=“300”srcset=“//www.xcmww.com/me/files/2018/09/stayton_patricK1-240x300.JPG 240瓦，//www.xcmww.com/me/files/2018/09/stayton_patrick1 - 768 x960.jpg 768 w,//www.xcmww.com/me/files/2018/09/stayton_patrick1-819x1024.jpg 819w“size=”（最大宽度：240px）100vw，240px“/><strong>patrick stayton<strong>在华盛顿大学生物工程系担任杰出的职业教授。他是分子工程与科学研究所的创始主任。新利手机客户端在伊利诺伊州立大学的生物学（最高荣誉）课程中，博士学位。伊利诺伊大学新利手机客户端生物化学专业，他是贝克曼高级科学技术研究所的博士后研究员，新利手机客户端也是在伊利诺伊大学。他被选为美国医学和生物工程研究所的研究员，曾获得生物材料学会克莱姆森奖和受控释放学会CRS-Cygnus认可奖。<p>His Research Group Works at the Interface of Fundamental Molecular Science and Applied Molecular BioEngineering in the Drug Delivery，新利手机客户端诊断学，再生医学领域。Stayton博士对翻译该小组的研究非常感兴趣，是基于药物和细胞治疗工作的Jewel Biotherapeutics公司的联合创始人，Skyrx公司基于RNA传递，和Nexgenia公司。基于制药生物处理。<p><p>.<p><p>.<p><p>please join us in warrively wexing the new members of the<em>msde.<em>editional board！<p><p><p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fme%2f2018%2f10%2f23%2欢迎新成员加入msde编辑委员会%2f&title=Welcoming+new+members+to+the+msde+editional+board“><img 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//www.xcmww.com/me/？P＝783 本月看到了过去12个月在反应化学与工程中的以下文章，它们是2018年4月至6月阅读最多的前十篇文章：超越天然嵌段共聚物形态的Gregory S。新利手机客户端Doerk和Kevin G。狙击兵摩尔。系统。Des。Eng。2017、2、518-538 DOI: 10.1039/C7ME00069C纳米抗生素分子设计进展:目前水平[…] <p>本月查看了反应化学与工程中过去12个月的以下文章，这些文章是2018年4月至6月期间阅读最多的前十篇文章：<p><p><strong><a href=新利手机客户端“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00069c！DivAbstract“>Beyond native block共聚物morphologies.<a><br/>.<strong>Gregory S.Doerk和Kevin G。狙击兵< br / > < em >摩尔。系统。Des。eng.</em>，2017年,<强> 2 < /强>,518-538<br/><strong>doi:<strong>10.1039/c7me00069c<p><p><strong><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00048k！DivAbstract“>纳米抗生素分子设计的进展：当前的发展水平和未来的挑战</a><br/>=>strong>roxana jijijie，亚历山大巴拉斯，Florina Teodorescu,Rabah Boukherroub和Sabine Szunerits<br /><em>Mol。系统。Des。eng.</em>，2017年,<强> 2 < /强>,349-369<br/><strong>doi:<strong>10.1039/c7me00048k<p><p><strong><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0050b！DivAbstract“>使用IRGD肽进行实体癌治疗的靶向药物输送</a><br/>.<strong>Xiangsheng Liu，Jinhong江,应,Jianqin,陈瑞安，黄焕孟<br /><em>Mol。系统。Des。eng.</em>，2017年,<强> 2 < /强>,370-379<br/><strong>doi:<strong>10.1039/c7me00050b<p><p><strong><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00038c！DivAbstract“>基于金属氧化物的高性能光催化系统的设计和工程–石墨烯–贵金属纳米复合物</a><br/>.<strong>Narendra Singh，jai prakash and raju kumar gupta<br/><em>mol.系统。Des。eng.</em>，2017年,<强> 2 < /强>,422-439<br/><strong>doi:<strong>10.1039/c7me00038c<p><p><strong><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00055c！divabstract“>通过表面功能化调节酶样纳米颗粒的催化活性.<a><br/>.<strong>Roberto Cao Mil_n，路加福音D。他,斯宾塞Shorkey,格伦Y.汤加，王立生，咸志张穆Uddin,Riddha DasMine Sulack和Vincent M.Rotello<br/><em>mol.系统。Des。Eng < / em >。2017年,<强> 2 < /强>,624-628<br/><strong>doi:<strong>10.1039/c7me00055c<p><p><strong><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00039a！DivAbstract“>过渡金属掺杂二氧化钛作为燃料电池应用的多用途支持物的设计：使用计算性高通量材料筛选方法</a><br/>.<strong>Meng Che Tsai，约翰。瑞克,魏尼洙和冰乔黄<br/><em>mol.系统。Des。Eng < / em >。2017年,<强> 2 < /强>,449-456<br/><strong>doi:<strong>10.1039/c7me00039a<p><p><strong><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00046d！DivAbstract“>纳米门控介孔二氧化硅纳米颗粒体外释放钙离子以诱导癌细胞凋亡</a><br/>.<strong>Derrick Tarn，Chia-Jung Yu杰,安娜•哈氏Fuyuhiko Tamanio和Jeffrey I.zink<br/><em>mol.系统。Des。Eng < / em >。2017年,<强> 2 < /强>,384-392<br/><strong>doi:<strong>10.1039/c7me00046d<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0070g！DivAbstract“>用永久磁铁引导嵌段共聚物自组装：光图案化微域对准和生成定向纳米孔Youngwoo Choo拉利特HMahajan,丹尼斯·Ndaya吉拉德·考夫曼叶卡捷琳娜·罗克林科，Rajeswari M。Kasi和Chinedum O。Osuji<br/><em>mol.系统。Des。Eng < / em >。2017年,<强> 2 < /强>,549-559<br/><strong>doi:<strong>10.1039/c7me00070g<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00032d！DivAbstract“>生物电路的计算设计：将零件放入上下文中Claude Lormeauab and J_rg Stelling<br/><em>mol.系统。Des。Eng < / em >。2017年,<强> 2 < /强>,410-421<br/><strong>doi<strong>：10.1039/c7me00032d<p><p><strong><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00062f！divabstract“>颠倒自组装嵌段共聚物的设计路径</a><br/>.<strong>karim r.Gadelrab亚当·F。Hannon卡洛琳ARossa和Alfredo Alexander Katz<br/><em>mol.系统。Des。Eng < / em >。2017年,<强> 2 < /强>,539-548<br/><strong>doi:<strong>10.1039/c7me00062f<p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fme%2f2018%2f08%2f14%2ftop-10-most-read-molecular-systems-design-engineering-articles-q2-2018%2f&title=top+10+most-read+molecular+systems+design+%26amp%3b+engineering+articles+%e2%80%93+q2+2018“><img class=“light social”img“src=”//www.xcmww.com/me/wp-content/plugins/light-social/digg.png“alt=”digg this“=“digg this”/>=<a><a 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星期二,2018年6月26日08:52:22+0000 休•考利开发编辑器 编辑委员会 //www.xcmww.com/me/？P＝779 我们很高兴欢迎安德鲁·德米洛教授（苏黎世ETH，(瑞士)致分子系统设计与工程编辑委员会。安德鲁现任苏黎世理工大学化学与应用生物科学系生化工程教授，化学与生物工程研究所所长。新利手机客户端新利手机客户端在他到达苏黎世之前，他是化学教授[…] <p><strong>我们很高兴欢迎教授<a href=“https://demellogroup.ethz.ch/en/index”>andrew demello（eth zurich，瑞士）致<em>分子系统设计与工程.<em><a href=“http://www.rsc.org/journals books databases/about journals/molecular systems design engineering/editional board members/”>editional board<a><strong><p><img class=“alignright”src=“http://epi-rsc.rsc-cdn.org/globalassets/05-journals-databases/our-journals/molecular systems design engineering/编委会成员/4424安德鲁-德米洛---msde.jpg？version=5b4f390a&width=480&format=JPG&quality=80“alt=”image block“width=”205“height=”247“/><p>Andrew is currently professor of biochemical engineering in the department of chemical and applied biosciences at eth zurich and head of the institute for chemical and bioe新利手机客户端ngineering.新利手机客户端在抵达苏黎世之前，他是伦敦帝国理工学院化学系的化学纳米科学教授和纳米结构材料与设备科主任。<p>1995年，他从伦敦帝国理工学院新利手机客户端获得了化学一级学位和分子光物理博士学位，随后还担任了博士后F。在加州大学化学系工作，新利手机客户端Berkeley working with professor Richard Mathies.</p><p>His research interests cover a broad range of activities in the general area of microfluidics and nanoscale 新利手机客户端science.主要专业包括开发用于高通量生物和化学分析的微流体装置，超灵敏光学检测技术，用于化学合成的纳米流体反应系统，纳米粒子合成的新方法，半导体材料在诊断应用中的开发，智能微流体的发展和活生物体的加工。<p>请加入我们热烈欢迎德米洛教授加入MSDE编辑委员会！<p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fme%2f2018%2f06%2f26%2欢迎Andrew Demello到msde编委会%2f&title=Welcoming+Andrew+Demello+to+the+msde+editional+board“><img class=“light social”img“src=“//www.xcmww.com/me/wp-content/plugins/light-social/digg.png”alt=“digg this”title=“digg”/>=<a>>tp://www.reddit.com/submit？url=http%3a%2f%2fwww.xcmww.com%2fme%2f2018%2f06%2f26%2fwincoming Andrew Demello to the msde editional 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class=“light social\u img”src=“//www.xcmww.com/me/wp-content/plugins/light-social/twitter.png”alt=“post on twitter”title=“post on twitter”/>.<a><a class=“light social\u a”href=“http://www.google.com/buzz/post”？url=http%3a%2f%2fwww.xcmww.com%2fme%2f2018%2f06%2f14%2fMaterials Discovery Research Symposium%2f“><img class=“light social”src=“//www.xcmww.com/me/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/me/2018/06/14/materials-discovery-research-symposium/feed/ 零 //www.xcmww.com/me/2018/04/23/top-10-most-read-molecular-systems-design-engineering-articles-q1-2018/ //www.xcmww.com/me/2018/04/23/top-10-most-read-molecular-systems-design-engineering-articles-q1-2018/#respond 周一，2018年4月23日10:09:34+0000 休•考利开发编辑器 前10名 //www.xcmww.com/me/？P＝758 本月在分子系统设计与工程上看到了以下文章，这些文章是2018年1月至3月阅读最多的前十篇文章。为什么不看看今天的文章，在下面写下你的想法和评论呢？从分子动力学模拟计算蛋白质设计的见解马修卡特儿童和瓦莱丽达格特摩尔。系统。Des。[…] <p>本月在Molecular Systems Design&Engineering中看到以下文章，这些文章是2018年1月至3月阅读量最大的前十篇文章。<p><p>Why not take a look at the articles today and blog your thinks and comments below.<p><p><strong><a href=“http://xlink.rsc.org/？doi=10.1039/c6me00083e“>洞察分子动力学模拟以进行计算蛋白质设计</a><strong><br/><span class=“bold”>Matthew Carter Childers</span><span class=“bold”>and.<span><span class=“bold”>Valerie Daggett<span><br/><span class=“italic”><em>mol.系统。Des。eng</em>，<span>，2017，2，9-33<br/><strong>doi<strong>：10.1039/c6me00083e<p><p><strong><a href=“http://xlink.rsc.org/？doi=10.1039/c6me00041j“>a road towards 25%efficiency and beyond:perovskite tandem solar cells.<a><strong><br/><span class=“bold”>t.托多罗夫</span>，<span class=“bold”>o.Gunawan</span><span class="粗体">和</span><span class="粗体">S。Guha<span><br/><em><span class=“italic”>mol.系统。Des。eng.<span><em>，2016，1，370-376<br/><strong>doi<strong>：10.1039/c6me00041j<p><p><strong><a href=“http://xlink.rsc.org/？doi=10.1039/c7me00021a“>评估分子机器中旋转接头的摩擦</a><strong><br/><span class=“bold”>tad hogg<span>，<span class=“bold”>matthew s.摩西alli < / span > < br / > <跨类=“斜体”> < em >摩尔。系统。Des。eng</em>，<span>，2017，2，235-252<br /><强>DOI</强>:10.1039/C7ME00021A</p><p><a href="http://xlink.rsc.org/? DOI =" 10.1039/ c7me00069c "><强>超天然嵌段共聚物形貌</强></a><br />Gregory S。Doerk和Kevin G。狙击兵< br / > < em >摩尔。系统。Des。eng.</em>，2017，2,518-538<br /><强>DOI</强>:10.1039/C7ME00069C</p><p><a href="http://xlink.rsc.org/? DOI =" 10.1039/ c7me00090a "G.斯拉特尔M。一个。很少M。e.布里格斯K。e.杰尔夫和A.一。库珀<br/><em>mol.系统。Des。eng.</em>，2018年,三，223-227<br/><strong>doi<strong>：10.1039/c7me0090a<p><p><strong><a href=“http://xlink.rsc.org/？doi=10.1039/c7me00027h“>为聚合物分散剂的设计说明悬浮液中的多物理相互作用：a hierarchical machine learning approach.<a><strong><br/><span class=“bold”>aditya menon.<span>，<span class=“bold”>chetali gupta.<span>，<span class=“bold”>kedar m.珀金斯装饰Rios</span>， <span class="bold">Kun Zhang</span>， <span class="bold"> Barnabas Poczos </span><span class="bold">， </span><span class="bold">Newell R。沃什伯恩< / span > < br / > <跨类=“斜体”> < em >摩尔。系统。Des。eng</em>，<span>，2017，2，263-273<br/><strong>doi<strong>：10.1039/c7me0027h<p><p><strong><a href=“http://xlink.rsc.org/？doi=10.1039/c6me00022c“>设计多层石墨烯基组件，以增强Nacore启发的纳米复合材料的韧性</a><strong><br/><span class=“bold”>Wenjie-xia<span>，<span class=“bold”>Jake-Song</span>，<span class=“bold”>Zhauxu-Meng</span>，<span class=“bold”>Chen-Shao</span><span class=“bold”>and<span><span class=“bold”>Sinan Keten<span><br/><span class=“italic”><em>mol.系统。Des。eng</em>，<span>，2016，1，40-47<br /><强>DOI</强>:10.1039/C6ME00022C</p><p>< a href="http://xlink.rsc.org/? DOI =" http://xlink.rsc.org/c7me00050b "Jinhong江,应,Jianqin,陈瑞安和欢孟<br /><a class="胶囊__action" href="http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00050b" name="C7ME00050B"></a><span class="italic"><em>Mol。系统。Des。eng</em>，<span>，2017，2，370-379<br/><strong>doi<strong>：10.1039/c7me0050b<p><p><strong><a href=“http://xlink.rsc.org/？doi=10.1039/c7me00038c“>基于金属氧化物的高性能光催化系统的设计和工程–石墨烯–贵金属纳米复合材料</a><strong><br/><span class=“bold”>Narendra Singh<span>，<span class=“bold”>Jai Prakash<span><span class=“bold”>and.<span class=“bold”>Raju Kumar Gupta<span><br/><span class=“italic”＞EM＞mol。系统。Des。eng</em>，<span>，2017，2，422-439<br/><strong>doi<strong>：10.1039/c7me00038c<p><p><a href=“http://xlink.rsc.org/？doi=10.1039/c6me00042h“><strong>Molecular devices based on Reversible singlet oxygen binding in optical and photomedical.<strong><strong>applications.<strong><a><br/>Mikhail A.费拉托夫和马提亚。senge<br/><em>mol.系统。Des。eng.</em>，2016年,1,258-272<br/><strong>doi<strong>：10.1039/c6me00042h<p><div 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social_img”src=“//www.xcmww.com/me/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/me/2018/04/23/top-10-most-read-molecular-systems-design-engineering-articles-q1-2018/feed/ 零 //www.xcmww.com/me/2018/04/05/welcoming-kristi-kiick-to-the-msde-editorial-board/ //www.xcmww.com/me/2018/04/05/welcoming-kristi-kiick-to-the-msde-editorial-board/#respond 清华大学，2018年4月5日09:25:49+0000 休•考利开发编辑器 编辑委员会 //www.xcmww.com/me/？P＝755 我们很高兴欢迎Kristi Kiick教授（特拉华大学，(美国)致分子系统设计与工程编辑委员会。Kristi Kiick是材料科学与工程的教授，新利手机客户端生物医学工程教授，以及特拉华大学工程学院副院长。在特拉华大学取得化学学士学位后，新利手机客户端教授[…] 我们很高兴地欢迎教授<a href="http://sites.udel.edu/kiickgroup/"美国）致<em>Molecular Systems Design&Engineering<em><a href=“http://www.rsc.org/journals books databases/about journals/molecular systems design engineering/editional board members/”>editional board</a><strong><p><img class=“AlignRight”src=“http://epi-rsc.rsc-cdn.org/globalassets/05-journals-databases/our-journals/molecular-系统设计工程/编委会成员/3800 kristi-kiick f2c.jpg？version=5153ef57&width=480&format=JPG&quality=80“alt=”image block“width=”208“height=”278“/><p>kristi kiick is a professor of materials science and engineering，新利手机客户端生物医学工程教授，以及特拉华大学工程学院副院长。在特拉华大学取得化学学士学位后，新利手机客户端Kiick教授在乔治亚大学获得化学硕士学位，新利手机客户端美国，麻省阿默斯特大学高分子科学与工程硕士和博士，新利手机客户端2001年返回美国加入特拉华大学教员队伍之前。<p>教授Kiick已获得多项荣誉，包括卡米尔和亨利德莱弗斯基金会新教师奖，阿诺德和马贝尔·贝克曼青年调查员奖，NSF职业奖，杜邦青年教授奖，以及特拉华州生物科学学术研究奖。<p>T新利手机客户端he Kiick Research Group Current Research Programs are focused on combining biossynthetic techniques，化学方法,and bioinspired assembly strategies for the production of advanced multifunctional biomaterials.</p><p>Please join us in warmly welcoming Professor Kiick to the MSDE Editorial Board!</p><div class="lightsocial_container"><a class="lightsocial_a" 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href=“http://rsc.li/molecular engineering”>msde<a>由编辑团队挑选，感谢他们对《华尔街日报》的重大贡献。评审员是根据人数选出的，过去12个月内完成的报告的及时性和质量。<p>We would like to say a big thank you to those personals listed here as well to all of the reviewers that have supported the journal.每位优秀的评审员将收到一份证书，以表彰他们的重大贡献。<p>Daniel Carvajal博士，西北大学郑盛峰博士，弗吉尼亚理工学院ORCID: <a href="http://orcid.org/0000-0002-6066-2968">0000-0002-6066-2968 </a><br />教授Seth Darling，阿贡国家实验室，orcid:<a href=“http://orcid.org/0000-0002-5461-6965”>0000-0002-5461-6965<a><br/>Dr Ting Ge，杜克大学,ORCID:<a href=“https://orcid.org/0000-0003-2456-732X”>0000-0003-2456-732X</a><br/>Dr Yamin Li，塔夫茨大学orcid:<a href=“http://orcid.org/0000-0002-5535-1807”>0000-0002-5535-1807<a><br/>Dr Xingkun man，北京航空航天大学,orcid:<a href=“http://orcid.org/0000-0003-4266-1539”>0000-0003-4266-1539<<br/>教授ras pandey，南密西西比大学ORCID: <a href="http://orcid.org/0000-0003-4233-8897">0000-0003-4233-8897</a><br />Dr Athanasios Papadopoulos，研究和技术中心ORCID: <a href="http://orcid.org/0000-0001-6584-5811">0000-0001-6584-5811</a><br />Dr Run Zhang，昆士兰大学,ORCID: <a href="http://orcid.org/0000-0002-0943-824X">0000-0002-0943-824X </a><br />Dr Huacheng Zhang，德克萨斯大学奥斯汀分校我们还要感谢《a href="http://orcid.org/0000-0002-1716-5763">0000-0002-1716-5763 </a></p><p>》，感谢《a href=" http://www.rsc.org/journals-books-databases/aboutjournals/ula-journals/uls-journaling/uls-journaling/uls-designengineering/# boards-staff">MSDE boards</a> >和分子工程社区对《华尔街日报》的持续支持，作为作者，评论人和读者。<p>如果你想成为我们期刊的评论人，只是<a href=“mailto:molecularengineering@rsc.org？subject=become a reviewer“>向我们发送电子邮件</a>以了解您的研究兴趣和最新的简历或R_sum_的详细信息。您可以在<a href=“http://www.rsc.org/journals books databases/journal authors reviewers/reviewer responsibilities/becoming reviewer”>our author and reviewer resource centre<a><p><div class=“lightsocial_container“><a 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reader）“title=”google buzz（aka.google reader）“/>.<a>.<div> //www.xcmww.com/me/2018/03/22/outstanding-reviewers-for-molecular-systems-design-engineering-in-2017/feed/ 零 //www.xcmww.com/me/2018/01/30/top-10-most-read-molecular-systems-design-engineering-articles-q4-2017/ //www.xcmww.com/me/2018/01/30/top-10-most-read-molecular-systems-design-engineering-articles-q4-2017/回复 星期二,2018年1月30日15:41:40+0000 Emma Hayes编辑助理 前10名 MSDE //www.xcmww.com/me/?p=741 本月在分子系统设计与工程上看到了以下文章，这些文章是2017年10月至12月阅读最多的前十篇文章。为什么不看看今天的文章，在下面写下你的想法和评论呢？从分子动力学模拟计算蛋白质设计的见解马修卡特儿童和瓦莱丽达格特摩尔。系统。Des。[…] <p>本月在Molecular Systems Design&Engineering中看到以下文章，这些文章是从2017年10月至12月阅读最多的前十篇文章。<p><p>Why not take a look at the articles today and blog your thinks and comments below.<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c6me00083e！DivAbstract“>来自分子动力学模拟的见解，用于计算蛋白质设计</a>><strong>><br/><span class=“bold”>Matthew Carter Childers<span>><span class=“bold”>and<span><span class=“bold”>Valerie Daggett<span><br/><span class=“italic”><em>mol.系统。Des。eng</em>，<span>，2017，2，9-33<br/><strong>doi<strong>：10.1039/c6me00083e<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0027h！DivAbstract“>阐明聚合物分散剂设计中悬浮液中的多物理相互作用：一种分层机器学习方法</a><strong><br/><span class=“bold”>Aditya menon</span>，<span class=“bold”>Chetali Gupta</span>，<span class=“bold”>Kedar M.珀金斯装饰Rios</span>， <span class="bold">Kun Zhang</span>， <span class="bold"> Barnabas Poczos </span><span class="bold">， </span><span class="bold">Newell R。沃什伯恩< / span > < br / > <跨类=“斜体”> < em >摩尔。系统。Des。eng</em>，<span>，2017，2，263-273<br/><strong>doi<strong>：10.1039/c7me0027h<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0048k！DivAbstract“>纳米抗生素分子设计的进展：当前发展水平和未来挑战</a><strong><br/><span class=“bold”>Roxana Jijijie<span>，<span class=“bold”>Alexandre Barras<span>，<span class=“bold”>Florina Teodorescu<span>，<span class=“bold”>Rabah Boukherroub<span class=“bold”>160; and</span><span class=“bold”>Sabine Szunerits<span><br/><em><span class=“italic”>mol.系统。Des。eng.<span><em>，2017，2，349-369<br/><strong>doi<strong>：10.1039/c7me0048k<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0050b！divabstract“>使用IRGD肽进行实体癌治疗的靶向药物输送<br/>.<a><strong><a class=“capsule_uuu action”href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0050b”name=“c7me0050b”><a>Xiangsheng Liu，Jinhong江,应,Jianqin,陈瑞安和欢孟<br /><a class="胶囊__action" href="http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00050b" name="C7ME00050B"></a> <span class="italic"><em>Mol。系统。Des。eng</em>，<span>，2017，2，370-379<br/><strong>doi<strong>：10.1039/c7me0050b<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2016/me/c6me00041j”！DivAbstract“>A road towards 25%efficiency and beyond:perovskite串联太阳能电池</a>><br/><span class=“bold”>t.托多罗夫</span>，<span class=“bold”>o.Gunawan</span><span class="粗体">和</span><span class="粗体">S。Guha<span><br/><em><span class=“italic”>mol.系统。Des。eng.<span><em>，2016，1，370-376<br/><strong>doi<strong>：10.1039/c6me00041j<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0021a！DivAbstract“>评估分子机器中旋转接头的摩擦</a><strong><br/><span class=“bold”>tad hogg<span>，<span class=“bold”>Matthew S.摩西alli < / span > < br / > <跨类=“斜体”> < em >摩尔。系统。Des。eng</em>，<span>，2017，2，235-252<br/><strong>doi<strong>：10.1039/c7me0021a<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me00038c！DivAbstract“>基于金属氧化物的高性能光催化系统的设计和工程–石墨烯–贵金属纳米复合材料</a><strong><br/><span class=“bold”>Narendra Singh</span>，<span class=“bold”>Jai Prakash</span><span class=“bold”>and<span><span class=“bold”>Raju Kumar Gupta</span><br/><span class=“italic”><em>mol.系统。Des。eng</em>，<span>，2017，2，422-439<br/><strong>doi<strong>：10.1039/c7me00038c<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2016/me/c6me00031b！DivAbstract“>光子晶体生物传感器用响应水凝胶的设计和功能化</a><strong><br/><span class=“bold”>Sukwon Jung<span>，<span class=“bold”>Joel L.kaar.<span><span class=“bold”>and.<span class=“bold”>mark p.Stoykovich < / span > < br / > <跨类=“斜体”> < em >摩尔。系统。Des。eng</em>，<span>，2016，1，225-241<br/><strong>doi<strong>：10.1039/c6me00031b<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/me/c7me0052a！divabstract“>用于多重横向流免疫分析的SERS纳米袋的设计</a>><br/><span class=“bold”>Maria S_nchez purr_</span>，<span class=“bold”>biel roig solvas<span>，<span class=“bold”>alice versiani<span>，<span class=“bold”>cristina rodriguez quijada<span>，<span class=“bold”>helena de puig<span>，<span class=“bolD“>Irene Bosch</span>，<span class=“bold”>Lee Gehrke</span><span class=“bold”>and</span><span class=“bold”>Kimberly Hamad Schiferli.<span><br/><span class=“italic”><em>mol.系统。Des。eng</em>，<span>，2017，2，401-409<br/><strong>doi<strong>：10.1039/c7me0052a<p><p><strong><a href=“http://pubs.rsc.org/en/content/articlelanding/2016/me/c6me00022c！DivAbstract“>设计多层石墨烯基组件，以增强Nacore启发的纳米复合材料的韧性</a><strong><br/><span class=“bold”>Wenjie-xia<span>，<span class=“bold”>Jake-Song<span>，<span class=“bold”>Zhauxu-Meng<span>，<span class=“bold”>Chen-Shao<span><span class=“bold”>and<span class=“bold”>Sinan-Keten<span><br/><span class=“italic”><em>mol.系统。Des。eng</em>，<span>，2016，1，40-47<br/><strong>doi<strong>：10.1039/c6me00022c<p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fme%2f2018%2f01%2f30%2ftop-10-most-read-molecular-systems-design-engineering-articles-q4-2017%2f&title=top+10+most-read+molecular+systems+design+%26amp%3b+engineering+articles+%e2%80%93+q4+2017“><img class=“light social”img“src=”//www.xcmww.com/me/wp-content/plugins/light-social/digg.png“alt=”digg this“title=“digg this”/>=<a><a 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