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New Scalable Approach toward Shape Memory Polymer Composites via "Spring-Buckle" Microstructure Design.Multiple Hydrogen Bonding Enables the Self-Healing of Sensors for Human-Machine Interactions.Self-Healing Sensors Based on Dual Noncovalent Network Elastomer for Human Motion Monitoring.Spirally Structured Conductive Composites for Highly Stretchable, Robust Conductors and Sensors.Self-Healing, Highly Sensitive Electronic Sensors Enabled by Metal-Ligand Coordination and Hierarchical Structure Design.Protein-Inspired Self-Healable Ti3C2 MXenes/Rubber-Based Supramolecular Elastomer for Intelligent SensingArbitrarily 3D Configurable Hygroscopic Robots with a Covalent-Noncovalent Interpenetrating Network and Self-Healing AbilityScalable Manufactured Self-Healing Strain Sensors Based on Ion-Intercalated Graphene Nanosheets and Interfacial Coordination
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Q30400493-A2BF701C-D8CF-4515-8F70-A630F2721C47Q47210960-063B77E7-3746-4633-BBA7-597D181355C1Q47399571-AD81F740-82E1-494F-80B6-1C524EFC460CQ47998757-287E3160-B371-4CD0-985E-5D39215990AAQ48108503-ED4144A4-CA9E-4BEF-A77E-31ED229E8675Q89654576-2C054F20-6BC1-4BA3-B950-7E1B7B64AA7FQ92591581-80BF36DD-84F0-4572-8AEE-EE5DDE856352Q93107790-E78345A4-810A-4D4F-92B3-579A743E3D0D
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description
researcher
@en
name
Xinxing Zhang
@en
type
label
Xinxing Zhang
@en
prefLabel
Xinxing Zhang
@en
P31
P496
0000-0002-7468-3006