胶粘剂
生物高聚物
材料科学
纳米技术
粘附
植物生长
复合数
聚合物
仿生学
共价键
药物输送
植物根
粘接
复合材料
组分(热力学)
植物细胞
植物病害
植物组织
植物根系
粘结强度
作者
Jiayu Zhao,Zhecun Guan,Rohan Luthra,Patrick Opdensteinen,Brandon Ho,Li Xiao,Yong‐Jin Park,Min Sub Kwak,Hyunhyub Ko,Nicole F. Steinmetz,Jinhye Bae
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2026-04-24
卷期号:12 (17): eadz6379-eadz6379
标识
DOI:10.1126/sciadv.adz6379
摘要
Developing plant adhesives opens opportunities for studying and optimizing plant growth through precision pesticide and nutrient delivery, plant health monitoring, and human-plant interaction. However, diverse and changing topologies and chemical compositions of plants during growth present challenges in designing effective and universal adhesives. In this study, we address this challenge by developing a gel composite consisting of a biopolymer that enables dynamic covalent bonding with plant surfaces and cross-linked polyacrylamide, which provides adaptability. This composite gel demonstrates strong yet reversible adhesion on both hairy and nonhairy plant surfaces. Its adhesion strength exceeds that of previously reported noninvasive plant adhesives by an order of magnitude. This achievement enables localized and sustained drug delivery to plant tissues and allows for stable plant actuation via electrical stimulation, opening pathways for modulating sensitive plant systems.
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