Inside Science
Inside Science

Share
Inside Science
/
Article

Robot Inspired by Plant Roots Burrows Underground

AUG 09, 2021
Engineers developed a soft robot that can move through sand and curve around objects where traditional robots struggle.
Karen Kwon profile picture
Karen Kwon
Robot Inspired by Plant Roots Burrows Underground

(Inside Science) -- When people think of a robot, they often imagine classical robots such as R2-D2 with their bodies hard and rigid. But lately, soft robots such as Baymax from “Big Hero 6" are becoming more popular. These robots, often inspired by nature, can bend and flex in response to their environment, enabling them to overcome challenges that more traditional robots had. A team of researchers from the University of California, Santa Barbara and Georgia Institute of Technology developed one such robot that can travel underground. Inspired by plant root growth, this robot can extend its body to tunnel and burrow through soft sand. One day, the new robot could be a part of space exploration, surveying lunar caves or sampling Martian soil.

More Science News
Edward Bouchet
AIP
/
Article
Honoring Black Excellence in the Physical Sciences: A Look Back and Forward
February 27, 2026 07:07 AM
Exploring the role of surface morphology in electrocatalytic interfaces internal name
Scilights
/
Article
Exploring the role of surface morphology in electrocatalytic interfaces
February 27, 2026 12:00 AM
Scilights
/
Article
Breakthrough in ‘bottom-up’ diamond patterning bypasses cutting or etching
Scalable chemical vapor deposition approach enables electronic thermal management applications.
February 27, 2026 12:00 AM
Scilights
/
Article
Processing diamond surfaces in the rough
Processing diamond surfaces with femtosecond lasers yields a trade-off between hydrophilicity and low defect rate.
February 27, 2026 12:00 AM
Scilights
/
Article
Gingerly seeking atherosclerosis treatment
Coating nanoparticles derived from a ginger-family plant in stem cell membranes enables targeted atherosclerosis treatment.
February 27, 2026 12:00 AM
Scilights
/
Article
Unfolding a twist hidden in origami structures
Novel insight into the “Sareh twist” suggests that this mechanism underlying origami tessellations could become a key element in the design of origami-inspired structures for science and engineering applications.
February 27, 2026 12:00 AM
Latest from Physics Today
PHYSICS TODAY
/
Article
Eiffel Tower to gain symmetry with addition of women’s names
Women will join men in being honored on the Paris icon.
March 02, 2026 11:21 AM
PHYSICS TODAY
/
Article
NIST to introduce restrictions on non-US citizens
The precision measurement and quantum communities are upset about the secretiveness of the move and its potential damage to US science.
February 27, 2026 04:48 PM
PHYSICS TODAY
/
Article
Crossword: March 2026
February 27, 2026 10:50 AM
PHYSICS TODAY
/
Article
Genetically engineered protein is a versatile quantum sensor
In noisy biological environments, the fluorescent protein can pinpoint subcellular structures and detect magnetic field changes.
February 20, 2026 02:17 PM
PHYSICS TODAY
/
Article
Fluid-coupled rotation demonstrates unexpected modes of motion
Two cylinders rotating in a fluid can mimic the behavior of gears and of a belt-and-pulley system.
February 19, 2026 03:44 PM