捕蝇草运动机理及其仿生驱动器的仿真和实验研究
[1] WANG YuZhe,GUPTA Ujjaval,PARULEKAR Nachiket,等.A soft gripper of fast speed and low energy consumption[J].中国科学(技术科学)(英文版).2019,(1).31-38.
[2] Lunni, Dario,Cianchetti, Matteo,Filippeschi, Carlo,等.Plant-Inspired Soft Bistable Structures Based on Hygroscopic Electrospun Nanofibers[J].Advanced materials interfaces.2020,7(4).DOI:10.1002/admi.201901310 .
[3] Fan, Jizhuang,Wang, Shuqi,Yu, Qingguo,等.Swimming Performance of the Frog-Inspired Soft Robot[J].Soft Robotics.2020,7(5).615-626.DOI:10.1089/soro.2019.0094 .
[4] Wenxin,Fan,Caiyun,Shan,Hongyu,Guo,等.Dual-gradient enabled ultrafast biomimetic snapping of hydrogel materials.[J].Science advances.2019,5(4).eaav7174.DOI:10.1126/sciadv.aav7174 .
[5] Zhang, Zheng,Li, Xianghao,Yu, Xiaochen,等.Magnetic actuation bionic robotic gripper with bistable morphing structure[J].Composite structures.2019,229(Dec.).111422.1-111422.7.DOI:10.1016/j.compstruct.2019.111422 .
[6] Must Indrek,Sinibaldi Edoardo,Mazzolai Barbara.A variable-stiffness tendril-like soft robot based on reversible osmotic actuation[J].Nature Communications.2019,10(1).DOI:10.1038/s41467-018-08173-y .
[7] Chunshan Liu,Erbao Dong,Min Xu,等.Locomotion analysis and optimization of actinomorphic robots with soft arms actuated by shape memory alloy wires:[J].International Journal of Advanced Robotic Systems.2018,15(4).DOI:10.1177/1729881418787943 .
[8] Wani Owies M.,Zeng Hao,Priimagi Arri.A light-driven artificial flytrap[J].Nature Communications.2017,8(1).DOI:10.1038/ncomms15546 .
[9] Jasmin C. Albas,Catherine P. Nguyen,Brady C. Zarket.Enzyme-Triggered Folding of Hydrogels: Toward a Mimic of the Venus Flytrap[J].ACS applied materials & interfaces.2016,8(29).
[10] Gao, Wei,Wang, Lanlan,Wang, Xingzhe,等.Magnetic Driving Flowerlike Soft Platform: Biomimetic Fabrication and External Regulation[J].ACS applied materials & interfaces.2016,8(22).
相关知识
“懒人”亦能养好捕蝇草
2021年诺奖得主揭秘:捕蝇草是如何吃肉的?
人工神经元可连通捕蝇草生物细胞让叶片闭合
人工神经元让捕蝇草叶片闭合—论文—科学网
捕蝇草
了解捕蝇草——这个神奇的植物(探索捕蝇草的生长环境和特性)
捕蝇草之美——花语与神奇(探寻捕蝇草的花语和奇妙功能)
捕蝇草是热带植物吗?捕蝇草的植物分类是什么?
国际最新研究:人工神经元可连通捕蝇草生物细胞让叶片闭合—新闻—科学网
捕蝇草捕虫机制
原文链接: 捕蝇草运动机理及其仿生驱动器的仿真和实验研究 https://www.huajiangbk.com/newsview1841276.html
| 上一篇: 自然启迪之捕蝇草 | 下一篇: 资料你听说过捕蝇草吗?捕蝇草生长... |
推荐分享

- 1明日花キララ:明日花绮罗年度... 25123
- 2明日花キララ(明日花绮罗)经... 14783
- 3家庭养花知识大全 家庭养花有... 10191
- 4家庭养花风水知识 家庭养花“... 9896
- 5兰花叶子扭的是什么兰 8931
- 6五月天婷婷开心六月丁香:音乐... 8905
- 7君子兰什么品种最名贵 十大名... 8435
- 8秋天养花,掌握这5点养花知识... 8383
- 9十大致癌花卉排行榜,哪些花卉... 8003
- 10【花卉知识 】养花须知:新手... 7987




