Your search keyword '"Clementene Clayton"' showing total 3 results

1. A soil-inspired dynamically responsive chemical system for microbial modulation

Author

Yiliang Lin, Xiang Gao, Jiping Yue, Yin Fang, Jiuyun Shi, Lingyuan Meng, Clementene Clayton, Xin-Xing Zhang, Fengyuan Shi, Junjing Deng, Si Chen, Yi Jiang, Fabricio Marin, Jingtian Hu, Hsiu-Ming Tsai, Qing Tu, Eric W. Roth, Reiner Bleher, Xinqi Chen, Philip Griffin, Zhonghou Cai, Aleksander Prominski, Teri W. Odom, and Bozhi Tian

Subjects

General Chemical Engineering, General Chemistry

Abstract

Interactions between the microbiota and their colonized environments mediate critical pathways from biogeochemical cycles to homeostasis in human health. Here we report a soil-inspired chemical system that consists of nanostructured minerals, starch granules and liquid metals. Fabricated via a bottom-up synthesis, the soil-inspired chemical system can enable chemical redistribution and modulation of microbial communities. We characterize the composite, confirming its structural similarity to the soil, with three-dimensional X-ray fluorescence and ptychographic tomography and electron microscopy imaging. We also demonstrate that post-synthetic modifications formed by laser irradiation led to chemical heterogeneities from the atomic to the macroscopic level. The soil-inspired material possesses chemical, optical and mechanical responsiveness to yield write-erase functions in electrical performance. The composite can also enhance microbial culture/biofilm growth and biofuel production in vitro. Finally, we show that the soil-inspired system enriches gut bacteria diversity, rectifies tetracycline-induced gut microbiome dysbiosis and ameliorates dextran sulfate sodium-induced rodent colitis symptoms within in vivo rodent models.

Published

2022

2. Dissecting Biological and Synthetic Soft–Hard Interfaces for Tissue-Like Systems

Author

Bozhi Tian, Yin Fang, Clementene Clayton, Aleksander Prominski, Jiuyun Shi, Xiao Yang, Yiliang Lin, and Ellie Ostroff

Subjects

Physics, Chemical evolution, Semiconductor industry, Chemical process, Semiconductors, Interaction framework, Nanotechnology, General Chemistry, Article

Abstract

Soft and hard materials at interfaces exhibit mismatched behaviors, such as mismatched chemical or biochemical reactivity, mechanical response, and environmental adaptability. Leveraging or mitigating these differences can yield interfacial processes difficult to achieve, or inapplicable, in pure soft or pure hard phases. Exploration of interfacial mismatches and their associated (bio)chemical, mechanical, or other physical processes may yield numerous opportunities in both fundamental studies and applications, in a manner similar to that of semiconductor heterojunctions and their contribution to solid-state physics and the semiconductor industry over the past few decades. In this review, we explore the fundamental chemical roles and principles involved in designing these interfaces, such as the (bio)chemical evolution of adaptive or buffer zones. We discuss the spectroscopic, microscopic, (bio)chemical, and computational tools required to uncover the chemical processes in these confined or hidden soft-hard interfaces. We propose a soft-hard interaction framework and use it to discuss soft-hard interfacial processes in multiple systems and across several spatiotemporal scales, focusing on tissue-like materials and devices. We end this review by proposing several new scientific and engineering approaches to leveraging the soft-hard interfacial processes involved in biointerfacing composites and exploring new applications for these composites.

Published

2021

3. Biomimicry for injectable mesh nanoelectronics

Author

Clementene Clayton and Bozhi Tian

Subjects

Materials science, Nanoelectronics, Nanotechnology, General Medicine, Biomimetics

Published

2019