Wei Shi

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每年的科研成果

研究主题

深入其中 Wei Shi 为活跃的研究主题。这些主题标签来自此人的成果。它们共同形成唯一的指纹。

1 相似学者

11 文章
2 文献综述
1 评论/辩论

High Energy Dissipation Polymer Gels by Regulating Relaxation of Confined Chains
Shi, W., Zhang, Z. Z., Li, Y., Peng, C. Y., Zha, H., Huang, J. & Liu, M. J., 2026, (已接受/待刊) 在: Chinese Journal of Polymer Science (English Edition).
科研成果: 期刊稿件 › 文献综述 › 同行评审
Hydrogel ionic sensory systems
Chen, R., Guo, R., Li, Y., Yan, H., Huang, J., Xu, H., Shi, W., Zhang, Z., Zhuo, S. & Liu, M., 2026, (已接受/待刊) 在: Materials Chemistry Frontiers.
科研成果: 期刊稿件 › 文献综述 › 同行评审

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Boundary-Lubricated Hydrogels with Load-Bearing Capacity via Microphase Separation Strategy
Chen, R., Feng, J., Huang, J., Lin, W., Yan, H., Zhou, H., Shi, W., Li, Y., Zhang, L., Xu, H., Han, Y., Shi, W., Zhao, T. & Liu, M., 11 9月 2025, 在: Small. 21, 36, e06940.
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Cellular-skeleton-hosting polymer fluid gels with high damping and mechanical stability over an ultra-wide frequency breadth
Shi, W., Huang, J., Peng, C., Zhao, X., Li, Y., Zhang, Z., Zhu, X. & Liu, M., 3 12月 2025, 在: Matter. 8, 12, 102373.
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Bioinspired stiff–soft gradient network structure for high-performance impact-resistant elastomers
Huang, J., Zhou, H., Zhang, L., Zha, H., Shi, W., Zhao, T. & Liu, M., 8月 2024, 在: Giant. 19, 100320.
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史微

研究主题

最近五年的合作关系和顶尖研究领域

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High Energy Dissipation Polymer Gels by Regulating Relaxation of Confined Chains

Hydrogel ionic sensory systems

Boundary-Lubricated Hydrogels with Load-Bearing Capacity via Microphase Separation Strategy

Cellular-skeleton-hosting polymer fluid gels with high damping and mechanical stability over an ultra-wide frequency breadth

Bioinspired stiff–soft gradient network structure for high-performance impact-resistant elastomers

史 微

研究主题

最近五年的合作关系和顶尖研究领域

科研成果

High Energy Dissipation Polymer Gels by Regulating Relaxation of Confined Chains

Hydrogel ionic sensory systems

Boundary-Lubricated Hydrogels with Load-Bearing Capacity via Microphase Separation Strategy

Cellular-skeleton-hosting polymer fluid gels with high damping and mechanical stability over an ultra-wide frequency breadth

Bioinspired stiff–soft gradient network structure for high-performance impact-resistant elastomers

史微