The invention of silica based bioactive glass in the late 1960s sparked a strong interest in exploring various silicon containing biomaterials from macroscopic to nanoscale. In the past few decades, considering the outstanding biological activity, excellent biocompatibility, ease of surface function

The driving force behind minimally invasive dental pulp treatment strategies has shifted from technically complex and destructive root canal treatments to more conservative active pulp treatments. However, new methods for maintaining pulp vitality after disease or trauma require the development of i

PLCA-PEG thermosensitive hydrogel plasmidPlace of Origin: Suzhou Supplier: Suzhou Beike Nanotechnology Co., Ltd.Warm reminder: This is for scientific research only and cannot be used for human experiments.

Folate-QDs-Liposome, Beike Nano supplies DSPE-PEG doped liposomes, customized servicesName: Folate-QDs-LiposomePurity:95%+Properties: solution/solid dry powderStorage conditions: +4℃, -20℃, -80℃describe:Folate-QDs-Liposome is a nanocomplex that combines folate with quantum dot liposomes.

氨基化的石墨烯纳米片 NH2-GO中文名称:氨基化的石墨烯纳米片英文名称:NH2-GO纯度:95%+储藏条件:-20°C下避光保存用途:科研状态:固体/粉末/溶液一种氨基化氧化石墨烯纳米片的制备方法,并将其作为电子传输层应用于非富勒烯有机太阳能电池中.本**通过在ITO表面引入氨基化氧化石墨烯纳米片可以**地改善太阳能电池的IV特性，氨基化氧化石墨烯具有高稳定性及电子传输能力.

石墨烯、氧化石墨烯(GO)和石墨烯量子点(GQDs)有望在严重疾病的诊断中发挥重要作用。基于计算机的模拟方法有助于在实验研究之前理解理论工具。这些理论工具仍然有很高的计算要求。因此，需要更有效的算法来对更大的系统进行研究。本文综述了利用计算机模拟方法在结构约束方面的最新进展以及石墨烯基材料的生物传感应用。计算机模拟方法有助于识别相互作用分子和传感元件(如石墨烯片)之间的相互作用。该方法减少了湿室实验时间，有助于预测相互作用和相互作用环境。实验研究可以在分子水平上进行调整，很容易预测结构构型的微小变化。在这里，分子模拟研究可以作为实际湿实验方法的替代方法。石墨烯基材料的传感能力是相互作用的结果，