43AYML0qXtd tech.huanqiu.comgallery新加坡研究团队用智能手机控制捕蝇草/e3pmh164r/e3pn6fo081621300281487环球网版权作品,未经书面授权,严禁转载或镜像,违者将被追究法律责任。责编:黎晓珊环球网162130028148711[]{"audio":{"members":[]},"gallery":{"members":[{"desc":"图源自IC","height":690,"id":"94cd98b22e86a2ce9eff51b631a62328u5","mime":"image\/jpeg","size":355.75,"url":"//img.huanqiucdn.cn/dp/api/files\/imageDir\/94cd98b22e86a2ce9eff51b631a62328u5.jpg","width":1200},{"desc":"当地时间2021年5月报道,新加坡南洋理工大学的研究团队近日研发出一种与植物进行“沟通”的装置,研究人员利用智能手机发出的电子信号实现对捕蝇草叶片的控制。图、文字源自IC","height":675,"id":"815b9856101cf2e1b7db90760fe4ff1eu5","mime":"image\/jpeg","size":416.79,"url":"//img.huanqiucdn.cn/dp/api/files\/imageDir\/815b9856101cf2e1b7db90760fe4ff1eu5.jpg","width":1200},{"desc":"装置由电极和一种特殊的热敏水凝胶组成,该凝胶粘附强度是普通水凝胶的4-5倍。当其附着在植物表面时,水凝胶由水状液体变成可拉伸的固体,并能快速接收到植物的电信号。图、文字源自IC","height":714,"id":"9f32cff7162a592d951222eed9a54614u5","mime":"image\/jpeg","size":519.82,"url":"//img.huanqiucdn.cn/dp/api/files\/imageDir\/9f32cff7162a592d951222eed9a54614u5.jpg","width":1200},{"desc":"在实验中,研究人员将捕蝇草固定在机械手臂上,利用电极将电信号传输至植物,使其关闭叶子。相较普通机械手臂,植物机器人能拾起更加脆弱易碎的物品。图、文字源自IC","height":675,"id":"f1f61a01a6194f89433a35b55336ac33u5","mime":"image\/jpeg","size":499.43,"url":"//img.huanqiucdn.cn/dp/api/files\/imageDir\/f1f61a01a6194f89433a35b55336ac33u5.jpg","width":1200},{"desc":"此外,这款装置也可提前探测植物异常、预防疾病、提高农业收成、确保粮食安全。图、文字源自IC","height":710,"id":"ae32ec5595d1de5e97c9f680a597c88cu5","mime":"image\/jpeg","size":430.76,"url":"//img.huanqiucdn.cn/dp/api/files\/imageDir\/ae32ec5595d1de5e97c9f680a597c88cu5.jpg","width":1200}]},"video":{"members":[]}}//img.huanqiucdn.cn/dp/api/files/imageDir/815b9856101cf2e1b7db90760fe4ff1eu5.jpg