中文摘要：

有多重分隔空间的 Microcapsules 具有在象聪明的药交货那样的许多应用的重要重要性，微反应堆，复杂传感器等等。这里，我们报导一篇小说混合物能流动的电镀物品祈祷能多制作在一个单身者的微囊走的分隔空间的方法。同样准备的微囊在内有多重分隔空间。分隔空间被用壳材料做的内部墙与对方分开，并且没有任何接触，不同内容能独立地在他们中的每被装载。我们由独立把金属性的内部 capillaries 的某些数字插入到一根钝金属针装配一张层次复合的嘴。复合的嘴的特别配置导致一完全并且独立地由壳液体核心液体包，由于哪个 mulicomponent 微囊与多，分隔空间结构能被获得。并且也，内部分隔空间的数字和相应包含的部件罐头被讲道理地设计复合的嘴的配置控制。这个一般方法能乐意地被扩大到许多另外的功能的材料，特别为活跃成分的有效封装，例如敏感、反应的材料。

英文摘要：

Microcapsules with multiple compartments are of significant importance in many applications such as smart drug delivery, microreactor, complicated sensor, and so on. Here we report a novel compound-fluidic electrospray method that could fabricate multicompartment microcapsules in a single step. The as-prepared microcapsules have multiple compartments inside. The compartments are separated from each other by inner walls made from shell materials, and different content can be independently loaded in each of them without any contact. We assemble a hierarchical compound nozzle by inserting certain numbers of metallic inner capillaries separately into a blunt metal needle. The particular configuration of the compound nozzle induces a completely and independently envelope of core fluids by shell fluid, as a result of which mulicomponent microcapsules with multicompartment structure can be obtained. And also, the number of inner compartments and the corresponding encapsulated components can be controlled by rationally designing the configuration of the compound nozzle. This general method can be readily extended to many other functional materials, especially for the effective encapsulation of active ingredients, such as sensitive and reactive materials.