中文摘要：

有几乎生物复杂性的 nano 微的混合结构的今天出现具有基本兴趣。我们聪明地适应挑战的能力从根本上自己改变研究一路上有分枝，在对未来幸存批评的应用程序上，到提出全球性存在的危险。涉及复杂性怎么联系到多金属的催化英勇的特定的问题加重，我们很通常也在纳米技术讨论逐渐地迫切的问题并且由箴言 ‘Bio 指导了是性质 Nanotech’ 。技术属于大进化；例如有人工智能(AI ) 的集成是不可避免的。达尔文改编作为复杂性的集成表明，并且这的了解在开发能越过大量研究发现使用的能适应的研究方法帮助。这个工作的后半部考察都得益于 ‘playful’ 的工程的一个多样的范围编程瞄准了处理复杂性。考察他们的主要目的是显示出如此的工程怎么得益于并且符合一般、哲学的途径，证明 ‘big picture’ 的关联在它通常被不顾的地方。

英文摘要：

Today＇s emergence of nano-micro hybrid structures with almost biological complexity is of fundamental interest. Our ability to adapt intelligently to the challenges has ramifications all the way from fundamentally changing research itself, over applications critical to future survival, to posing globally existential dangers. Touching on specific issues such as how complexity relates to the catalytic prowess of multi-metal compounds, we discuss the increasingly urgent issues in nanotechnology also very generally and guided by the motto ＇Bio Is Nature＇s Nanotech＇. Technology belongs to macro-evolution; for example integration with artificial intelligence （AI） is inevitable. Darwinian adaptation manifests as integration of complexity, and awareness of this helps in developing adaptable research methods that can find use across a wide range of research. The second half of this work reviews a diverse range of projects which all benefited from ＇playful＇ programming aimed at dealing with complexity. The main purpose of reviewing them is to show how such projects benefit from and fit in with the general, philosophical approach, proving the relevance of the ＇big picture＇ where it is usually disregarded.