网址：//www.xcmww.com/bm 星期四,2019年1月31日14:20:35 +0000 en - us 每小时 一 https://wordpress.org/？V= 4.9 //www.xcmww.com/bm/2019/01/31/termis-eu-2019/ 星期四,2019年1月31日14:18:08+0000 Olly Hill编辑助理 会议 //www.xcmww.com/bm/?p=2988 组织工程疗法：从概念到临床翻译和商业化，Termis-EU 2019年会议将于2019年5月27日至31日在罗德举行，希腊。会议的主题是“组织工程治疗:从概念到临床转化和商业化”。2019年欧洲定期会议的计划将包括具体的讲习班[…] <h4 style="text-align: left" style=" center"><a href="//www.xcmww.com/bm/files/2019/01/Capture.jpg"><img class="alignnone size-medium wp-image-2989" src=" //www.xcmww.com/bm/files/2019/01/capture.300w "//www.xcmww.com/bm/files/2019/01/capture-768x121.jpg 768W，//www.xcmww.com/bm/files/2019/01/Capture.jpg 978w" size ="(max-width: 300px) 100vw，300px“/><a>><h4><h4 style=“text-Align:Left”Align=“Center”>组织工程疗法：From Concept to Clinical Translation&Commercialization<h4><p>The<a href=“https://termis.org/eu2019/index.php”>termis-eu 2019</a>meeting is to be hold from the 27th to the 31 of May 2019 in Rhodes，希腊。会议的主题是“<em>组织工程疗法：从概念到临床翻译和商业化</em>”。<p><p>Termis欧盟2019计划将包括组织工程和再生医学工具中的特定研讨会和专题讨论会，技术和发现;临床试验;新设备的监管批准;放大；商业化；青年调查员的职业发展；妇女的领导和代表性;教育;和外展。<p><p>standard<a href=“https://termis.org/eu2019/registration.php”>registration<a>is open through february.<p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2019%2f01%2f31%2ftermis-eu-2019%2f&title=termis+eu+2019“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/digg.png”alt=“digg this”title=“digg”/>=<a class=“light social\u a”href=“http://www.reddit.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2019%2f01%2f31%2ftermis-eu-2019%2f&title=termis+eu+2019“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/reddit.png”alt=“reddit this”title=“reddit this”/>=<a class=“light social\u 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<p><strong>简介：Matt Webber，2017<em>Biomaterials S新利手机客户端cience<em>Emerging Research<p><p>This week's issue of<em>Biomaterials Science<em>is our<a href=“https://pubs.rsc.org/en/journals/articlecollectionlanding？sercode=bm&themeid=1ff99230-c293-4fe8-9ef2-a3d1564355e5“><strong>2019 Emerging Investors Issue.<strong>，<a>which contains reviews and research articles from biommaterials science in the early stages of their independent careers.the 2019<i>biommaterials science.<i>Emerging Investors were individually designed by memRNAL编辑和咨询委员会，以及以前的新调查人员，认识到它们可能影响生物材料领域的未来方向。The issue is accompanied by an <strong><a href="https://pubs.rsc.org/en/content/articlepdf/2019/bm/c8bm90065e?page=search">Editorial from Editor-in-Chief Jennifer Elisseeff</a></strong>,讨论了一些展出的伟大作品，并且包含投稿人的传记和照片。<p>为了庆祝这个问题，我们很高兴从我们的<strong><a href=“https://pubs.rsc.org/en/journals/articlecollectionling”中获得一位研究人员的简介。sercode=bm&themeid=7d78a7b2-adc9-4dae-a298-2269ccc291a9“>2017 Emerging Investors Issue<a><strong>，<a href=“http://www.webberlab.com/”><strong>matt webber</strong>>。Matt在下面谈论了他作为一名<em>生物材料科学<em>新兴研究者的研究进展。<p><a href=“//www.xcmww.com/bm/files/2019/01/matt web新利手机客户端ber.jpg”><img class=“wp-image-2942 AlignLeft”src=“//www.xcmww.com/bm/files/2019/01/matt-webber-246x300.jpg”alt=“”width=“193”height=“235”srcset=“//www.xcmww.com/bm/files/2019/01/matt-webber-246x300.jpg 246W，//www.xcmww.com/bm/files/2019/01/matt-webber-768x938.jpg 768W，网址：//www.xcmww.com/bm/files/2019/01/matt-webber-839x1024.jpg 839W，//www.xcmww.com/bm/files/2019/01/Matt-Webber.jpg 1200w" size ="(max-width: 193px) 100vw，193px" /></a>"很荣幸成为2017年的新兴研究者。当我被选为这个荣誉的时候，我的团队甚至没有进入我们的实验室，我刚刚开始了我的独立工作。我很惊讶人们竟然知道我是谁，但我当然接受了!我们找到了肽合成器，并着手设计一个项目，在有限资源的情况下，可以在短时间内完成。我们从研究一系列三肽的自组装开始，我们设计成两亲性，可变残基位于芳香族和带电族的中心。我们认为一些序列可能会自组装，但在一次纯粹的意外中，我们幸运地发现了这五个不同序列中5种独特的纳米结构的出现。这太令人兴奋了，带领我的团队继续探索最小肽序列的自组装。这是<strong><a href=“https://pubs.rsc.org/en/content/articlelanding/2017/bm/c7bm00304h”！DivAbstract“>发表在<em>Biomaterials Science中的初始工作<em><a><stron新利手机客户端g><a href=“https://pubs.rsc.org/en/content/articlelanding/2018/sm/c8sm01994k/unauth”！DivAbstract“>后续论文发表于2018年，发表于<em>Soft Matter</em><a><strong>and several other approxing works and invited presentations.奇怪的是,如果不是有机会参加2017年的新兴研究者问题，我们可能永远不会做这项工作或从事这方面的研究。我很感谢<em>生物材料科学为这个荣誉，新利手机客户端对于我的研究小组来说，成核是一个很好的开端。“<p><p>.<p><p><strong>biography<br/>.<strong>matthew J.韦伯是圣母大学化学与生物分子工程系的助理教授，同时被任命为化学和生物化学系。新利手机客户端他的研究小组对应用超分子原理感兴趣，利用已定义和合理设计的非共价相互作用，to improve therapeutic materials. He is specifically curious about the use of supramolecular design to overcome barriers in drug delivery and improve biomedical materials.教授韦伯获得了圣母大学化学工程学士学位，以及西北大学生物医学工程硕士和博士学位。他的论文,在Samuel Stupp教授的实验室进行，重点介绍超分子肽组件在心血管疾病治疗中的应用。随后，他是美国国立卫生研究院NRSA实验室的博士后研究员。罗伯特兰格教授麻省理工学院的丹尼尔·安德森，致力于开发新的分子工程方法来治疗糖尿病。他的研究热情是致力于使超分子治疗学领域的突出。他撰写了56篇同行评议论文，并在7项待决或已授予的专利中担任发明人。2017，他被<em>生物材料科学命名为一名新兴的研究者，被美国化学工程师协新利手机客户端会（AICHE）命名为35岁以下青年领袖塑造该领域的之一。<p>Matt's Papers will be free to access on our publishing platform for 6 weeks.<p><strong>We hope you like reading all the contributions to我们2019年的新调查人员集合，我们感谢所有提名者和作者的意见。<strong>><p>><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2019%2f01%2f29%2f2941%2f&title=profile%3a+Matt+Webber%2c+2017%c2%a生物材料+科学+新兴+研究者“><img class=“Light社交”img”src=“http://blog.r新利手机客户端sc.org/bm/wp-conte/plugins/轻-社会/digg.png”alt=“digg本”title=“digg本”/>，>>>>a>160；<a class=“Light社交a a a a a class=“Light社交a a a a”href http://http://www.reddit www.reddit.reddit.reddit com/su公司BMIT？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2019%2f01%2f29%2f2941%2f&title=profile%3a+matt+webber%2c+2017%c2%a0生物材料+科学+新兴+研究者“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/reddit.png”alt=“reddit this”title=“reddit”/>=<a class=“light social\u 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a”href=“http://www.google.com/buzz/post”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2019%2f01%2f29%2f2941%2f“><img class=“light social_img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/google_buzz.png”alt=“google buzz（aka）。谷歌阅读器)“title=”谷歌Buzz(又名“Buzz”)。google reader）“/>.<a>.<div> //www.xcmww.com/bm/2018/10/25/paper-of-the-month-magnetic-delivery-of-fe3o4polydopamine-nanomparticle-loaded-natural-killer-cells-suggest-a-prospective-anticorre-treatment/ //www.xcmww.com/bm/2018/10/25/paper-of-the-month-magnetic-delivery-of-fe3o4polydopamine-nanomparticle-loaded-natural-killer-cells-suggest-a-prospective-anticocer-treatment/response 星期四,2018年10月25日16:23:27+0000 Garima Sharma开发编辑器 未分类 //www.xcmww.com/bm/？P=2930 作者：穆罕默德·奥瓦伊斯 <p style="text-align: justify">Natural killer (NK) cells have the intrinsic ability to识别和清除cancer cells with the potential to抑制性metastasis。NK细胞利用多种方法杀死肿瘤细胞，比如刺激细胞因子的释放，直接细胞毒性和活化靶细胞凋亡。非小细胞肺癌(Non-small cell lung cancer, NSCLC)在临床应用中显示出对NK细胞免疫治疗的显著反应。最近,研究人员已经开始研究如何增加NK细胞在肿瘤中的招募和浸润，以改善肿瘤反应。因此,对于体内<em> </em>的控制和对具有组织靶向能力的NK细胞的监测，开发非侵入性的方法至关重要。FDA批准的基于超顺磁性氧化铁纳米颗粒（SPION）的磁共振成像（MRI）造影剂已被证明具有生物相容性，用于NK细胞的运载工具和成像探针。<p><p style=“text-align:justify”><a href=“//www.xcmww.com/bm/files/2018/10/c8bm00588e-ga1.jpg”><img class=“size medium wp-image-2931 Aligncenter“src=”//www.xcmww.com/bm/files/2018/10/c8bm00588e-ga1-300x208.jpg“alt=”c8bm00588e“width=”300“height=”208“srcset=”//www.xcmww.com/bm/files/2018/10/c8bm00588e-ga1-300x208.jpg 300w，//www.xcmww.com/bm/files/2018/10/c8bm00588e-ga1-768x532.jpg 768w，//www.xcmww.com/bm/files/2018/10/c8bm00588e-ga1-1024x709.jpg 1024w，//www.xcmww.com/bm/files/2018/10/c8bm00588e-ga1.jpg 1363w“size =”(max-width: 300px) 100vw，300px“/>.<a><p><p style=“text-Align:justify”>in the present work jiang<em>et al.<em>have synthed nandomes（NPS）composited of a fe<sub>3.<sub>o<sub>4.<sub>core and polydopamine（pda）shell，为肿瘤开展。本研究的目的是为免疫细胞输送系统开发磁性核动力源，以靶向非小细胞肺癌细胞。该系统通过在动物体内放置一个微小的外部磁性装置来刺激肿瘤部位NK细胞的积累。由于其生理稳定性，NK细胞主动吸收了fe<sub>3<sub>o<sub>4<sub>pda-nps，虽然NK细胞的生物学特性没有受到影响，由于其生物相容性。<em>体内研究表明，在用fe<sub>3治疗时，Ki-67的表达减少，A549癌细胞凋亡增加。虽然这种侵入性方法有一些局限性，NP NKS的磁传递在临床应用中具有很好的价值。<p><p><strong>提示/作者的评论：<strong><p><ul><li>Coating of Magnetic NPS with PDA played a virtal role in its cellular uptake，由于表面改性是测定磁性核动力源的生物相容性和细胞吸收的一个重要因素。<li><li>due to the biocompatible nature of magnetic核动力源，即使高浓度（100μg/ml）也不会诱导NK细胞凋亡。<li><li>随着时间的推移保留率提高，fe<sub>3<sub>o<sub>4<sub>@pda-np-labeled NK cells可以通过局部磁场的应用加速到肿瘤。<li><li>肿瘤和植入磁场的位置应该足够接近，同时，应给磁场足够的时间以达到有效的治疗效果。<li><li>The non-invigative nature of thread-dimension（3-d）rotating magnetics or high gradient magnetics can enhance the magnetic strength in a central point for the effective accumulation of NPS.<li><ul><p><p>read the全文如下：<a href=“https://pubs.rsc.org/en/content/articlelanding/2018/bm/c8bm00588e！DivAbstract“>Fe3O4@PolyDopamine Nanoparticle-loaded natural killer cells的磁传递表明一种有前景的抗癌治疗</a><strong><em>Biomater.sci.<em>.<strong>，2018年,<强> 6 < /强>,27 14-2725<p><p>；<p><p><强>关于web作者</强><p><p><p><p><p><a a a href http://blog.rsc.org/bm/文件/2018/2018/10/Muhammad Ovais.jpg“><img class<<img class=“wp-image-2929 29 29 29 29 29 25<p><p><p><p><<p><<p><<p><p><p><p><p><p><<<强><强><p><p><p><p><p><p http http http http http http http http http http http http://blohttp://blob.RSc.RSc.RSc.RSc.10/穆罕默德-奥瓦伊S-235x300.JPG 235W，//www.xcmww.com/bm/files/8/10/muhammad-ovais.jpg " size ="(max-width: 146px) 100vw，146px“/></a>Muhammad Ovais is is a web writer for biommateria新利手机客户端ls science.目前，他是教授的博士生。中国科学院纳米科学卓越中心陈春莹实验室，新利手机客户端中国科学院纳米材料与纳米安全生物医学效应重点实验室，国家纳米科学技术中心（NCNST）新利手机客户端北京。他的研究兴趣在于开发新型的癌症免疫治疗纳米递送系统。他发表了大约30篇研究/综述文章。您可以在<a href="https://www.researchgate.net/profile/Muhammad_Ovais2">ResearchGate</a>上找到或联系他，<a href="https://www.linkedin.com/in/muhammad-ovais-544bb8a5/?trk=nav_responsive_tab_profile_pic">LinkedIn</a> and <a href="http://english.nanoctr.cas.cn/chenchunying/people/">Chunying Chen's lab</a></p><p>Contact Email: <a href="mailto:movais@bs.qau.edu.pk">movais@bs.qau.edu.pk</a></p><p>Twitter: <a href="https://twitter.com/OVAISBiotec">https://twitter.com/OVAISBiotec</a></p><div class="lightsocial_container"><a class="lightsocial_a" href="http://digg.com/submit?url=http%3A%2F%2Fwww.xcmww.com%2Fbm%2F2018%2F10%2F25%2Fpaper-of-the-month-magnetic-delivery-of-fe3o4polydopamine-nanoparticle-loaded-natural-killer-cells-suggest-a-promising-anticancer-treatment%2F&title=Paper+of+the+month%3A+Magnetic+delivery+of+Fe3O4%40polydopamine+nanoparticle-loaded+natural+killer+cells+suggest+a+promising+anticancer+treatment" ><img class="lightsocial_img" src="//www.xcmww.com/bm/wp-content/plugins/light-social/digg.png" alt="Digg This" title="Digg This" /></a>  <a class="lightsocial_a" 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//www.xcmww.com/bm/2018/10/25/paper-of-the-month-magnetic-delivery-of-fe3o4polydopamine-nanoparticle-loaded-natural-killer-cells-suggest-a-promising-anticancer-treatment/feed/ 0 //www.xcmww.com/bm/2018/10/16/sericin-hydrogels-promote-skin-writh-healing/ //www.xcmww.com/bm/2018/10/16/sericin水凝胶促进皮肤伤口愈合 星期二,2018年10月16日16:46:37+0000 Sudip穆克吉 热门文章 生物材料 水凝胶 皮肤 //www.xcmww.com/bm/?p=2919 全世界每年都有数以百万计的患者受到严重的皮肤损伤的影响。这些会导致严重的问题，如无功能性大疤痕组织的形成和皮肤附属物（如毛囊、皮脂腺等）的丢失；等等)。这可能会导致患者难以忍受的身体不适和生活质量低下。目前可用的治疗方法[…] <p style="text-align: justify">严重皮肤损伤每年影响全球数百万患者。这些会导致严重的问题，如无功能性大疤痕组织的形成和皮肤附属物（如毛囊、皮脂腺等）的丢失；等等)。这可能会导致患者难以忍受的身体不适和生活质量低下。目前可用的治疗方法包括自体皮肤移植，同种异体移植和人造皮肤替代品。然而，在表皮和真皮严重受损后，皮肤组织的功能再生仍然是一个挑战。其他局限性包括缺少供皮，昂贵的医疗费用，免疫排斥和皮肤再生不良的机会。因此,高效替代皮肤替代品的开发是非常需要的。<p><p><a href=“//www.xcmww.com/bm/files/2018/10/bm blog.jpg”><img class=“size medium wp-image-2925 AlignCenter”src=“//www.xcmww.com/bm/files/2018/10/bm-blog-300x222.jpg”alt=“10.1039/c8bmm00934a”width=“300”height=“222”srcsset=“//www.xcmww.com/bm/files/2018/10/BM-Blog-300x222.JPG 300W，，//www.xcmww.com/bm/files/2018/10/bm的博客- 768 x568.jpg 768 w,“size =”(max-width: 300px) 100vw，>丝胶蛋白是一种从蚕茧中提取的天然生物材料，曾用于多种损伤修复。在此之前,Wang等利用丝胶制成的水凝胶或支架进行坐骨神经横断再生，缺血性脑卒中的修复，软骨再生。在目前的工作中，报道了一种光交联丝胶水凝胶(SMH)修复皮肤瘢痕和皮脂腺再生的方法。丝胶水凝胶通过以下机制促进这种再生：（a）有效抑制炎症；（b）通过刺激生长因子如VEGF和EGF促进血管生成；通过调节(c)减少疤痕形成的表情TGF-β1 TGF-β3;（d）有效地将干细胞征募到损伤部位，它们分化并再生为皮肤附属物。总的来说,these results showcase the potential of this innovative bimodal tool for the development of new artificial skin substitutes for the clinical treatment of severe skin injuries.</p><p style="text-align: center"><strong>Read the full article for free until 19th November</strong></p><p><a href="https://pubs.rsc.org/en/content/articlelanding/2018/bm/c8bm00934a#!divAbstract">Sericin hydrogels promote skin wound healing with effective regeneration of hair follicles and sebaceous glands after complete loss of epidermis and dermis</a>  <strong><em><span class="list__item-data"><i>Biomater.SCI.</I>< / span > < / em > < /强> < em > <跨类= " list__item-data " > 2018年,先进文章</span><m><强>doi：<强>10.1039/C8bm00934a<m><em><p><p><p>160；<p><p><p>；<p><p><p><span style=“text装饰：下划线““><强>约Web作家<span><span><br/><a href http http://博客.RSC.org/bm/文件/2018/10/sudip-2.jpg“><img class<<<<强>强>doi：：<stronstron<<stronstronstronb b b b：<<<stronstron>doi：：<强>doi：：<强>doi：<强>www www www www www www www www www www www www www www www www www SUDIP-2-264x300型.jpg“alt=”Dr Sudip Mukherjee“width=”155“height=”176“/><a>Dr.Sudip Mukherjee是<em>Biomaterials Science</em> >的网络作者。新利手机客户端他目前是莱斯大学的博士后研究员。他的研究涉及在癌症治疗学中开发用于药物/基因传递的先进纳米材料，免疫调节应用与血管生成。他总共发表了大约35篇研究论文/专利。他是<em> '材料研究快报</em> '的国际顾问委员会成员，眼压。新利手机客户端他是RSC的准会员(AMRSC)，英国。他是几家国际期刊的审稿人，如《化学命令》，脱线化学A，脱线化学B，生物医学纳米技术杂志，RSC进展，IOP纳米技术，生物制造</em>etc.<p><p><strong>contact email:<strong><a href=“mailto:sudip.mukherjee@rice.edu”>sudip.mukherjee@rice.edu</a><p><strong>twitter:<a href=“https://twitter.com/sudip_88”>https://twitter.com/sudip_88</a><p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f16%2fsericin水凝胶促进皮肤伤口愈合%2f&title=sericin+hydrogels+promote+skin+wind+healing“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/digg.png”alt=“digg this”title=“digg”/><<a class=“light social\u a”href=“http://www.reddit”。COM/提交？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f16%2fsericin水凝胶促进皮肤伤口愈合%2f&title=sericin+hydrogels+promote+skin+wind+healing“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/reddit.png”alt=“reddit this”title=“reddit”/>=<a class=“light social\u a”href=“http://www.sdumboon.com/submit？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f16%2fsericin水凝胶促进皮肤伤口愈合%2f&title=sericin+水凝胶+促进+皮肤+伤口+愈合“><img 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classlightsocial_a“href=”http://www.linkedin.com/shareArticle？mini=true&url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f16%2fsericin水凝胶促进皮肤伤口愈合%2f&title=sericin+hydrogels+promote+skin+wind+healing&summary=&source=“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/linkedin.png”alt=“share on linkedin”title=“share on linkedin”/>class=“lightsocial”href=“http://www.technorati.com/faves”？add=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f16%2fsericin水凝胶促进皮肤伤口愈合%2f“><img class=“light social\u img”src=“//www.xcmww.com/bm/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%2fbm%2f2018%2f10%2f16%2fsericin hydrogels promote skin written healing%2f“><img class=“light social”img“src=”//www.xcmww.com/bm/wp-content/plugins/light-social/twitter.png“alt=”post on twitter“title=”post on twitter“/><a>>a class=“light social”a“href=”http://www.google.com/buzz/post？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f16%2fsericin水凝胶促进皮肤伤口愈合%2f“><img class=“light social\uimg”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/google_buzz.png”alt=“google buzz（aka）。谷歌阅读器)“title=”谷歌Buzz(又名“Buzz”)。google reader）“/>.<a>.<div> //www.xcmww.com/bm/2018/10/16/sericin-hydrogels-promote-skin-wound-healing/feed/ 0 //www.xcmww.com/bm/2018/10/03/nominations-open-for-the-2019-biomaterials-新利手机客户端science-storeship/ //www.xcmww.com/bm/2018/10/03/nominations-open-for-the-2019-biomaterials-新利手机客户端science-lectureship/#respond 结婚，2018年10月03日12:58:49 +0000 Garima Sharma开发编辑器 讲师职位 //www.xcmww.com/bm/？P＝2906 你知道一个早期的职业研究者，他对生物材料领域的贡献值得承认吗？现在是你提出他们值得称赞的机会了！Biommaterials新利手机客户端 Science很高兴地宣布，其2019年讲师奖的提名现已被接受。该年度奖项成立于2014年，旨在表彰早期的[…] <p><strong>你知道一个早期的职业研究者，他对生物材料领域的贡献值得认可吗？<p>now is your chance to put them forward for the accolade them should！现在是你提出他们应得的荣誉的机会了！<p><p><strong><em><a href=“http://www.rsc.org/journals books databases/about journals/biomaterials science/”>biomaterials science</a><em><strong>is pleasured to announced that no新利手机客户端w being accepted for its 2019讲师奖。This annual award was established in 2014 to honour an early-stage career scientist who has made a significant contribution to the biomaterials field.</p><p>The recipient of the award will be asked to present a lecture at the 2019 <a href="http://www.esbiomaterials.eu/">European Society for Biomaterials</a> Annual Meeting,在那里他们也将被授予奖项。The<em>Biomaterials S新利手机客户端cience edition office will provide financial support to the recipient for travel and accommodation costs.<p>The recipient will also be asked to contribute a lead article to the journal and will have their work showked free of charge on the front cover of the issue in which their articid=“attachment_”style=“width:310px”class=“wp caption-aligncenter”><a href=“//www.xcmww.com/bm/files/2018/10/zhen-gu Award esb.jpg”><img class=“wp-image-2908 size medium”src=“//www.xcmww.com/bm/files/2018/10/zhen-gu-award-esb-300x296.jpg”alt=“zhen-gu教授（北卡罗莱纳大学教堂山分校和北卡罗莱纳州立大学）versity）“width=”300“height=”296“srcset=”//www.xcmww.com/bm/files/2018/10/zhen-gu-award-esb-300x296.jpg 300W，//www.xcmww.com/bm/files/2018/10/zhen - gu -奖励- esb - 768 x758.jpg 768 w," size ="(max-width: 300px) 100vw，300px" /></a><p class="wp- title -text">Zhen Gu，2018年生物材料科学讲座获得者，新利手机客户端从执行编辑Neil Hammond处收到他的证书北卡罗来纳大学教堂山分校和北卡罗来纳州立大学，美国< / p > < p > 2017 <强> < a href = " http://nano.suda.edu.cn/lz/lx/index_e.html " >壮族刘< / > < /强>,苏州大学,中国美国</p><p>2015 - <强><a href="https://bme. duke.edu/ty/joel - Collier ">Joel Collier</a></strong>，杜克大学,美国</p><p>2014 - <强><a href=" http://ty.washington.edu/spun/ ">Suzie Pun</a></strong>，华盛顿大学美国符合以下标准:</p><ul><li>完成博士和博士后研究后，积极从事生物材料领域的研究，且对该领域有重大贡献</li><li>处于独立事业的早期(应在获得博士或同等学位后12年内);但对于那些已经休假的人会给予适当的考虑，比如育儿假，尽管<em>Biomaterials Science </em>Lectureship没有明确奖励对该期刊的支持或贡献，新利手机客户端没有出版或推荐期刊历史的候选人通常不会被考虑。<p><p><strong>selection<strong><p><ul><li>合格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>生物材料科学顾问委员会和以前的讲师获得者组成。<li>入围者小组将考虑候选人新利手机客户端提供的文章以及他们的简历和提名信。<li>入围者将由<em>生物材料科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。我们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，对生物材料界的贡献，创新,合作和团队合作，出版的历史,与生物材料科学的合作。<em><em>Biomaterials Science.<新利手机客户端em><em><li><ul><p><strong>提名-<p><ul><li>提名必须作出<em>via<em>email to<strong><a href=“mailto:Biomaterialscience rsc@rsc.org”>Biomaterialscience rsc@rsc.org.<a><strong>，并应包括一份简短的简历和一封简短的提名信</li><li>自我提名是不允许的</li><li>提名人不需要是高级研究员，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/aboutus/our-strategy/inclut-diversity /">我们有责任促进包容性和可访问性，以改善多样性</a>。在可能的情况下，我们鼓励每一位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”>提名不应迟于2018年12月提交。<strong>19<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%2fbloblog.rsc.org%2fbm%22018%22018%2f10%2f03%2f03%2f提名-op开放-for-2019-生物材料-科学-科学-讲师希ip%2f&title=提名+开放+for+the+2019+生物材料+科学+讲师希普“><img class=“Light社会\img”src=“http://blog.rsc.新利手机客户端org/bm/wp-conte/插件/lig-社会/digg.png”alt=“digg this”title=“diggg本”/>，>>>>a>；<a a class=“lig=“lig lig lig lig lig lig 160160160；；；<a一个htsocial_a“href=”http://www.reddit.com/submit？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f03%2fnominations-open-for-the-2019-biomaterials-science-teacheship%2f&title=nominations+open+for+the+2019+biomaterials+science+teacheship“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/reddit.png”alt=“reddit this”title=“reddit this”/>=<a 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class=“lightsocial_a”href=“http://delicious.com/save”？title=nominations+open+for+the+2019+biomaterials+science+讲师席&url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f03%2fnominations-open-for-the-2019-biomaterials-science-teacheship%2f“><img class=“light social”img“src=”//www.xcmww.com/bm/wp-content/plugins/light-social/delicious.png“alt=”bookmark this on delicious“title=”bookmark thiS on Delicious”/>.<A><A class=“LightSocial_A”href=“http://www.linkedin.com/shareArticle”？mini=true&url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f03%2fnominations-open-for-the-2019-biommaterials-science-teacheship%2f&title=nominations+open+for+the+2019+biommaterials+science+teacheship&summary=&source=“><img class=“light social\uimg”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/linkedin.png”alt=“share on linkedin”title=“share on linkedin”/>.<a><a class=“lightsocial_a”href=“http://www.technorati.com/faves”？add=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f03%2fnominations-open-for-the-2019-biommaterials-science-teacheship%2f“><img class=“light social”img“src=”//www.xcmww.com/bm/wp-content/plugins/light-social/technorati.png“alt=”bookmark this on technorati“title=”bookmark this on technorati“/><a class=”light social“a”href=“http://twIT/COM/HOME？status=reading+http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f03%2fnominations-open-for-the-2019-biomaterials-science-teacheship%2f“><img class=“light social”img“src=”//www.xcmww.com/bm/wp-content/plugins/light-social/twitter.png“alt=”post on twitter“title=”post on twitter“/><a class=”light social_a“href=”http://www.google.com/buzZ/POST？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f10%2f03%2fnominations-open-for-the-2019-biomaterials-science-teacheship%2f“><img class=“light social”img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/google_buzz.png”alt=“google buzz（aka）。谷歌阅读器)“title=”谷歌Buzz(又名“Buzz”)。google reader）“/>.<a>.<div> //www.xcmww.com/bm/2018/10/03/nominations-open-for-the-2019-biomaterials-新利手机客户端science-steacheship/feed/ 0 //www.xcmww.com/bm/2018/09/13/new-hybrid-nanoparticles-for-enhanced-drug-accumulation-in-glioblastoma-cells/ //www.xcmww.com/bm/2018/09/13/new hybrid nandium for enhanced drug accountion in glioblastoma cells/response 星期四,2018年9月13日14:07:24+0000 Sudip穆克吉 热门文章 抗癌药 BiomaterSci 给药 //www.xcmww.com/bm/？P＝2897 胶质母细胞瘤是中枢神经系统最常见、最具侵袭性的原发性恶性肿瘤。能够通过血脑屏障的抗肿瘤药物的疗效主要受到各种抵抗机制的限制。因此,已制定局部策略以提高治疗效果。铂衍生物和其中一种，顺铂,证明承诺[…] <p style=“text-align:justify”>胶质母细胞瘤是中枢神经系统最常见和最具侵袭性的原发性恶性肿瘤。能够通过血脑屏障的抗肿瘤药物的疗效主要受到各种抵抗机制的限制。因此,已制定局部策略以提高治疗效果。铂衍生物和其中一种，顺铂,结果表明，在胶质母细胞瘤大鼠的脑内局部注射具有良好的效果。活性物质的更具体的矢量化可能进一步促进其在癌细胞内的积累，从而提高其生物利用度。在这种背景下,经批准可用于医疗应用的生物相容性和可生物降解共聚物可以在不使用任何有毒有机溶剂或赋形剂的情况下合成。它们的两亲性，即亲水序列和疏水序列的结合，负责它们在水中的自发自组装。这样的配方过程简单灵活。这些药物传递系统的多用途结构允许在将药物包裹在其核心的同时，将成像部分嫁接到其表面。胶质母细胞瘤的诊断依赖于注射钆基造影剂后的磁共振成像(MRI)。因此，将MRI造影剂和药物相结合的混合纳米平台的注射，可以通过实时分析肿瘤反应，非侵入性地监测治疗的生物分布。个性化医疗和治疗应用需要类似的策略，以便将治疗方案调整为患者反应。<p><p>.<p><p><a href=“//www.xcmww.com/bm/files/2018/09/c8bm00346g-ga.jpg”><img class=“wp-image-2898 AlignCenter”src=“//www.xcmww.com/bm/files/2018/09/c8bm00346g-ga-300x139.jpg”alt=“”width=“566”height=“262”srcset=“//www.xcmww.com/bm/files/2018/09/c8bm00346g-ga-300x139.jpg 300W，//www.xcmww.com/bm/files/2018/09/c8bm00346g - ga - 768 x357.jpg 768 w,//www.xcmww.com/bm/files/2018/09/c8bm00346g-ga-1024x475.jpg 1024w“尺寸=”（最大宽度：566px）100vw，这种智能给药系统是Lajous等人基于两亲性嵌段共聚物设计的。在亲水性链的末端接枝钆配合物，另一个基团的化学修饰允许顺铂与共聚物骨架交联。这些功能化共聚物在水中的自组装导致了稳定的顺铂交联纳米颗粒，平均尺寸为100.63±12.04纳米，符合生物学研究。与传统的低摩尔质量gd-dtpa复合物相比，高场MRI证实了这些混合纳米颗粒作为替代MRI造影剂的内在潜力。它们在携带胶质母细胞瘤的小鼠的纹状体中注入，产生了一种信号，这种信号会持续一段时间。铂类化合物在人胶质母细胞瘤细胞中的积累，以及随后的Pt-DNA加合物的形成，与游离顺铂相比，分别增加了50倍和32倍。这些结果支持这种创新双峰工具在进一步应用中的潜力。<p><p><a href=“http://pubs.rsc.org/en/content/articlelanding/2018/bm/c8bm00346g”>hybrid gd<sup>3+<sup>/cisplatin交联聚合物纳米粒子增强了胶质母细胞瘤细胞系中的铂积累和DNA加合物形成奥默特Sci。< / >强,2018年,<strong>6<strong>，2386-2409</em>><p>><p>><p>><p style=“text-Align:Center”><strong>read the full article now for free until 11 october.<p>><p>><p>><strong>about the web writer.<p>><p>><a href=“//www.xcmww.com/bm/files/2017/10/sudip.png”><img class=“size full wp-image-2745 AlignLeft”src=“//www.xcmww.com/bm/files/2017/10/sudip.png”alt=博士Sudip Mukherjee”width=”199”height=”193”/></a>Dr。Sudip Mukherjee是<em>Biomaterials Science</em> >的网络作者。新利手机客户端他目前是莱斯大学的博士后研究员。他的研究涉及在癌症治疗学中开发用于药物/基因传递的先进纳米材料，免疫调节应用与血管生成。他总共发表了大约35篇研究论文/专利。他是<em> '材料研究快报</em> '的国际顾问委员会成员，眼压。新利手机客户端他是RSC的准会员(AMRSC)，英国。他是几家国际期刊的审稿人，如《化学命令》，脱线化学A，脱线化学B，生物医学纳米技术杂志，RSC进展，IOP纳米技术，生物加工</em>etc.<p><p>.<p><p>.<p>.<p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f09%2f13%2fNew Hybrid纳米粒子用于增强胶质母细胞瘤细胞中的药物积累%2f&title=New+Hybrid+纳米粒子+用于+Enhanced+Drug+Accumulation+In+Glioblastoma+Cells“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/digg.png”alt=“digg this”title=“digg”此“/><a><a class=“lightsocial_a”href=“http://www.reddit.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f09%2f13%2fNew Hybrid纳米粒子用于增强胶质母细胞瘤细胞中的药物积累%2f&title=New+Hybrid+纳米粒子+for+Enhanced+Drug+Accumulation+in+Glioblastoma+Cells“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/reddit.png”alt=“reddit this”title=reddit this”/>.<a><a 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周一，2018年7月16日08:22:07 +0000 Sudip穆克吉 热门文章 BiomaterSci 纳米凝胶 //www.xcmww.com/bm/?p=2888 任何药物或纳米颗粒的药代动力学和药效学对治疗活性起着重要作用，治疗剂的半衰期和各种疾病中生物材料的给药频率。最近,生物高聚物纳米凝胶由于其有效的治疗手段而受到了广泛关注。大小均匀,药物包封能力高，[…] <p style=“text-align:justify”>任何药物或纳米粒的药代动力学和药效学对治疗活性起着重要作用，治疗剂的半衰期和各种疾病中生物材料的给药频率。最近,生物高聚物纳米凝胶由于其有效的治疗手段而受到了广泛关注。大小均匀,药物包封能力高，准备简单，高生物相容性和尺寸可调性。然而，这些纳米凝胶在血液中分解的趋势令人担忧，由于与血清蛋白的相互作用和过度稀释体积，通过EPR效应降低了肿瘤靶向效率。在这方面,需要进行大量研究，以开发生物活性纳米凝胶的新平台技术，增强生物利用度。<p><a href=“//www.xcmww.com/bm/files/2018/07/c8bm00396c-ga.jpg”><img class=“wp-image-2889 AlignCenter”src=“//www.xcmww.com/bm/files/2018/07/c8bm00396c-ga-300x136.jpg”alt=“c8bm00396c”width=“335”height=“152”srcset=“//www.xcmww.com/bm/files/2018/07/c8bm00396c-ga-300x136.jpg 300w，//www.xcmww.com/bm/files/2018/07/c8bm00396c-ga-768x349.jpg 768w，网址：//www.xcmww.com/bm/files/2018/07/c8bm00396c-ga-1024x465.jpg 1024w" size ="(max-width: 335px) 100vw，335px" /></a></p><p style="text-align: justify">In this work，Auzely-Velty和同事,开发了一种制备稳定自组装透明质酸纳米凝胶的新方法。用热响应酮功能共聚物通过腙的形成进行改性。交联密度对纳米凝胶的稳定性和药代动力学起着至关重要的作用，通过改变二酰肼交联剂与酮的比例可以很容易地对其进行调整。一些物理化学特性，包括低温传输，动态光散射和扫描电子显微镜分析尺寸。纳米凝胶的形态和稳定性。作者通过体外<em> </em>细胞摄取纳米凝胶的CD44受体介导通路进一步证实了交联策略的有效性。经修饰的纳米凝胶在肿瘤中显示出优越的生物利用度，血液循环增强超过24小时，在小鼠肿瘤模型的生物分布研究中显示<em>in vivo。总的来说,这些纳米凝胶很便宜，稳定的,易于调谐和生物相容性，因此，我们承诺在不久的将来发现用于癌症治疗应用的新型分子。<p><p><p><p style=“text-Align:Center”><strong>这篇文章在8月13日之前免费阅读和下载。<strong><p><a href=“http://pubs.rsc.org/en/content/articlelanding/2018/bm/c8bm00396c！DivAbstract“>通过酮酰肼化学实现透明质酸纳米凝胶选择性核交联的通用方法：从化学表征到体内<em>生物分布</a><strong><em>生物水。新利手机客户端Sci,<em><strong>2018，<strong>6，<strong>1754-1763<p><p><p><p><span style=“text-decoration:underline”><strong>about the web writer.<strong><p><p style=“text-align:justify”><a href=“//www.xcmww.com/bm/files/2017/10/sudip.png”><img class=“wp-image-2745 AlignLeft”src=“//www.xcmww.com/bm/files/2017/10/sudip.png”alt=“dr.rsc.org/bm/files/2017/10/sudip.png”altsudip mukherjee“width=”169“height=”164“/>Dr.Sudip Mukherjee是<em>Biomaterials Science</em> >的网络作者。新利手机客户端他目前是莱斯大学的博士后研究员。他的研究涉及在癌症治疗学中开发用于药物/基因传递的先进纳米材料，免疫调节应用与血管生成。他总共发表了大约35篇研究论文/专利。他是<em> '材料研究快报</em> '的国际顾问委员会成员，眼压。新利手机客户端他是RSC的准会员(AMRSC)，英国。他是几家国际期刊的审稿人，如《化学命令》，脱线化学A，脱线化学B，生物医学纳米技术杂志，RSC进展，IOP纳米技术，生物制造</em>etc.<p><p><strong>contact email:<strong><a href=“mailto:sudip.mukherjee@rice.edu”>sudip.mukherjee@rice.edu.<a><br/><strong>twitter:<a href=“https://twitter.com/sudip_88”>https://twitter.com/sudip_88.<a><p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f07%2f16%2fchemically-modified nanogles for superior bioavability%2f&title=chemically+modified+nanogles+for+superior+bioavability“><img class=“light social”img“src=”//www.xcmww.com/bm/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%2fbm%2f2018%2f07%2f16%2fchemically-modified nanogles for superior 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星期二,2018年5月15日13:00:35 +0000 Garima Sharma开发编辑器 讲师职位 //www.xcmww.com/bm/？P＝2875 很高兴我们宣布教授振谷(北卡罗来纳大学教堂山分校和北卡罗来纳州立大学)获得2018年生物材料科学讲座奖!新利手机客户端 <p><a href=“//www.xcmww.com/bm/files/2018/05/zhen-gu.jpg”><img class=“size medium wp-image-2876 AlignLeft”src=“//www.xcmww.com/bm/files/2018/05/zhen-gu-222x300.jpg”alt=“zhen-gu教授”width=“222”height=“300”srcset=“//www.xcmww.com/bm/files/2018/05/zhen-gu-222x300.jpg 222W，//www.xcmww.com/bm/files/2018/05/zhen-gu.jpg 741w“尺寸=”（最大宽度：222px）100vw，><strong><em>Biomaterials Science</em> Lectureship</ ></ strong></a> >是一个年度奖项，旨新利手机客户端在表彰那些在生物材料领域做出重大贡献的早期职业研究人员。接受者是由生物材料科学编辑委员会从社区提名的候选人名单中选出的。<p><p>今年我们很高兴将讲师职位新利手机客户端授予<strong><a href=“http://gulab.bme.unc.edu/”>zhen-gu教授）他将于2018年9月在马斯特里赫特举办的欧洲生物材料协会>年会上发表<em新利手机客户端>Biomaterials Science</em> lecture and receive his award at the <strong><a href="http://www.esb2018maastricht.org/">European Society for Biomaterials Annual Meeting< a></strong>。甄古获得了学士学位。化学和理学硕士学位。新利手机客户端南京大学高分子化学与物理专业。新利手机客户端2010，他获得了博士学位。在加州大学，洛杉矶,在教授的指导下。易唐化学与生物分子工程系。他是一名博士后助理，与profs共事。2010年至2012年在麻省理工学院和哈佛医学院的罗伯特·兰格和丹尼尔·安德森。甄谷是受控释放协会（CRS）青年调查员奖的获得者。2017年），斯隆研究奖学金（2016年），美国糖尿病协会通路奖(ADA，2015年）获得生物医学工程学会细胞和分子工程（BMES，2015)。<em>麻省理工学院技术评论在2015年将他列为35岁以下全球顶级创新者之一（TR35）。<p><p>his group studies controlled drug delivery，生物材料和纳米生物技术，尤其是癌症和糖尿病治疗。<p>了解更多关于郑的研究，看看他最近在《生物材料科学》和我们的姐妹期刊上发表的出版物：<p><p><a href=“http://pubs.rs新利手机客户端c.org/en/content/articlelanding/2015/bm/c4bm00459k！DivAbstract“>用于交付抗癌治疗药物的工程DNA支架-<a><strong><br/><strong>Wujin Sun and zhen-gu<strong><br/><strong><strong><em>biomater.sci.<em>.<strong>，2015年,<强> 3 < /强>,1018 - 1024,miniReview<p><a href=“http://pubs.rsc.org/en/content/articlelanding/2018/cs/c7cs00309a！DivAbstract“>生物医学应用中液态金属的进展<<br/>Junjie Yan，Yue Lu，Guojun Chen，Min Yang and Zhen Gu<br/><strong><em>Chem.SOC。rev.<em>.<strong>，2018年,47 < /强>,<强>2518-2533，tutorial review<p><a href=“http://pubs.rsc.org/en/content/articlelanding/2017/nr/c6nr07866d！DivAbstract“>自噬的调查和干预，以指导用纳米凝胶治疗癌症。<a><br/>Xudong Zhang，Xin Liang，Jianjun Gu，Danfeng Chang，b Jinxie Zhang，Zhao Wei Chen，Yangqi Ye，Chao Wang，Wei Tao，Xiaowei Zeng，Gan Liu，Yongjun Zhang，Lin Mei and Zhen Gu<br/><strong><em>nanoscale.<2017年,<强> 9 < /强>,150 - 163,纸张</p><p><a href=“http://pubs.rsc.org/en/content/articlelanding/2016/nr/c5nr08895j！DivAbstract“>用于靶向药物输送的封装纳米凝胶的内部隔室<<br/>Jicheng Yu，Yuqi Zhang，Wujin Sun，Chao Wang，Davis Ranson，Yanqi Ye，Yuyan Weng and Zhen Gu<br/><strong><em>nanoscale-<em>>，2016年,8 <强> < / >强,9178—9184，纸张</p><p><a href=“http://pubs.rsc.org/en/content/articlelanding/2014/cc/c4cc07004f！DivAbstract“>自折叠氧化还原/酸双反应纳米载体，用于抗癌药物递送</a><br/>岳璐，冉默，万怡泰，武进孙，丹尼斯B.帕卡多，钱成根，沈群东，弗朗西斯。Ligler和Zhen Gu<br /><strong><em>Chem。Commun。< / em > < / >强,2014年,50 <强> < / >强,15105 - 15108,Communication<p><p style=“text-Align:Center”><strong>Please join us in恭喜zhen获得他的奖项！<strong>><p>><p>><p>><div 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0 //www.xcmww.com/bm/2018/05/03/cancer-theranostics-applications-of-graphene-oxides/ //www.xcmww.com/bm/2018/05/03/cancer-theranostics-applications-of-graphene-oxides/#respond 星期四,2018年5月03日13:45:33 +0000 Sudip穆克吉 热门文章 生物材料 BiomaterSci 给药 热疗学 //www.xcmww.com/bm/？P＝2866 氧化石墨烯（Go）已被广泛应用于各种生物医学领域。包括生物医学传感器,电子传感器，功能复合材料等等。除了有一个大的表面积，大规模的可制造性和在水中的分散性，氧化石墨烯具有较强的荧光和共轭性质，由于其表面氧官能团丰富。众多[…] <p style=“text-align:justify”>graphene oxide（go）已在各种生物医学应用中得到积极应用，包括生物医学传感器,电子传感器，功能复合材料等等。除了有一个大的表面积，大规模的可制造性和在水中的分散性，氧化石墨烯具有较强的荧光和共轭性质，由于其表面有大量的氧官能团。<p><p style=“text-align:justify”>如减少,荧光蛋白标记，将薄片切割成更小的碎片，产生石墨烯量子点（qds）。尽管这种方法确实能从碳晶格中除去氧。这是一个问题，因为氧含量的降低阻止了氧化石墨烯结构与生物分子的进一步功能化。此外，据报道，这种方法会导致细胞毒性。<p><p style=“text-align:justify”><a href=“//www.xcmww.com/bm/files/2018/05/bm may.gif”><img class=“wp-image-2867 AlignCenter”src=“//www.xcmww.com/bm/files/2018/05/bm-may-300x150.gif”alt=“cancer theranostics applications of graphene oxides”width=“352”height=“176”srcset=“http:///www.xcmww.com/bm/files/2018/05/bm-may-300x150.gif 300瓦，//www.xcmww.com/bm/files/2018/05/bm-may-768x384.gif 768w，网址：" size ="(max-width: 352px) 100vw，352px" /></a></p><p style="text-align: justify">In this work by the Chen and，在GO悬浮液中，通过简单的一步温和退火。在此之前,在保持氧含量和低细胞毒性的同时，很难促进GO的发光。然而，这项工作表明，通过为与生物分子的反应提供纳米生物界面，可以克服物理上的困难。在这种情况下，GO是一种生物成像剂，也是生物分子的功能化平台。采用材料表征和生物相容性试验检测其纯度，系统的固有特性和无毒性。通过原子模拟，发现了弱退火增强蓝色荧光的机理。最重要的是,氧化石墨烯在药物传递和细胞成像方面具有很好的同步能力。总的来说,这种方法被认为是便宜的，快速、简单,因此，在不久的将来，为癌症治疗应用开发一个全新的Go-based纳米材料类，这篇文章是免费阅读直到<strong>30 may<br/><strong>><p>><p>><p>><p>><p>><a href=“http://pubs.rsc.org/en/content/articlelanding/2018/bm/c7bm01192j”！DivAbstract“>同时使用氧化石墨烯进行药物输送和细胞成像<，<span class=“list_uu item-data”><i><strong>Biomater。SCI.<strong><i>，2018年,<strong>6<strong>，813-819 </span></p>< /p><p>< p>< /p><p style="text-align: justify"><a href="//www.xcmww.com/bm/files/2017/10/Sudip.png"><img class="size-full wp-image-2745 alignright" src="//www.xcmww.com/bm/files/2017/10/Sudip.png" alt="Dr. "Sudip Mukherjee”width=”199”height=”193”/></a>Dr。Sudip Mukherjee是<em>Biomaterials Science</em> >的网络作者。新利手机客户端他目前是莱斯大学的博士后研究员。他的研究涉及在癌症治疗学中开发用于药物/基因传递的先进纳米材料，免疫调节应用与血管生成。他总共发表了约30篇研究文章/专利。他是<em> '材料研究快报</em> '的国际顾问委员会成员，眼压。新利手机客户端他是RSC的准会员(AMRSC)，英国。他是《em>Chem Comm》等国际期刊的审稿人，脱线化学A，脱线化学B，生物医学纳米技术杂志，RSC进展，IOP纳米技术</em>etc.<p><p><strong>contact email:<strong><a href=“mailto:sudip.mukherjee@rice.edu”>sudip.mukherjee@rice.edu=<a><p><strong>twitter:<strong><a href=“https://twitter.com/sudip_88”>https://twitter.com/sudip_88</a><p><div class=“lightsocial_container”><a class=“lightsocial_a”href=“http://digg.com/submit”？url=http%3a%2f%2fwww.xcmww.com%2fbm%2f2018%2f05%2f03%2f氧化石墨烯的癌症治疗应用程序%2f&title=cancer+theranostics+applications+of+graphene+oxides“><img class=“light social\u img”src=“//www.xcmww.com/bm/wp-content/plugins/light-social/digg.png”alt=“digg this”title=“digg”/>=<a class=“light social\u 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