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A camphene‑camphor‑polymer composite material for the production of superhydrophobic absorbent microporous foams
(Springer Nature, 2022)
In a recently published paper (doi.org/10.3390/molecules26113116) on self-propelled motion of objects on the water surface, we described a novel surface-active plastic material obtained by dissolution of camphor and ...
A Perfect Plastic Material for Studies on Self-Propelled Motion on the Water Surface
(MDPI, 2021)
We describe a novel plastic material composed of camphene, camphor, and polypropylene that seems perfectly suited for studies on self-propelled objects on the water surface. Self-motion is one of the attributes of life, ...
A hybrid camphor–camphene wax material for studies on self-propelled motion
(Royal Society of Chemistry, 2019)
A new material that combines the self-propelling properties of camphor with the malleability of camphene is reported. It has wax-like mechanical properties at room temperature and can be formed into required shapes. The ...
Better red than dead: On the influence of Oil Red O dye on complexity of evolution of a camphor-paraffin droplet on the water surface
(2018)
Droplets of paraffin can show self-motion when powered by camphor. We investigated the motion of such droplets when varying concentrations of camphor and the dye, Oil Red O, as well as the droplet volume. Experiments have ...