Micro/Nano Hierarchical Platforms: Carbon‐Nanogold Hierarchical Micro/Nano Topographies for Cell Guidance (Adv. Mater. Interfaces 22/2020),Advanced Materials Interfaces

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Micro/Nano Hierarchical Platforms: Carbon‐Nanogold Hierarchical Micro/Nano Topographies for Cell Guidance (Adv. Mater. Interfaces 22/2020)
Advanced Materials Interfaces ( IF 5.4 ) Pub Date : 2020-11-20 , DOI: 10.1002/admi.202070124
Gaurav Chauhan ₁ , Alejandro Lujambio Ángeles ₁ , Everardo Gonzalez‐González _{2,

3} , Manish M Kulkarni ₄ , Grissel Trujillo‐de Santiago _{2,

3,

5} , Mario M. Alvarez _{2,

3} , Marc Madou _{1,

6} , Sergio O. Martinez‐Chapa ₁

Affiliation

In article number 2000913, Marc Madou, Sergio O. Martinez‐Chapa and co‐workers fabricated carbon‐gold micro/nano hierarchical platforms using stimuli‐responsive wrinkling technology, utilizing the generation of depth wise photo‐crosslinking gradient in SU8 thin films doped with an ultraviolet light absorbing gold precursor. With micro/nano topological cues these surfaces have shown to be a promising 2½ dimensional cell scaffolds with the advantage of cell guidance for tissue engineering and lab/organ‐on‐a‐chip based applications.

中文翻译：

微观/纳米层次平台：用于细胞引导的碳纳米金层次的微观/纳米地形图（高级材料接口22/2020）

在编号2000913的文章中，Marc Madou，Sergio O. Martinez-Chapa和他的同事们利用激励响应皱纹技术，利用在掺杂有SU8的SU8薄膜中产生的深度方向光交联梯度，制造了碳金微/纳米分层平台。吸收紫外线的金前体。利用微/纳米拓扑线索，这些表面已被证明是有前途的2½维细胞支架，并具有用于组织工程和基于实验室/芯片的应用的细胞引导的优势。

更新日期：2020-11-21

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