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 polypropylene in camphene at 250 [Formula: see text]C. The material has wax-like mechanical properties, can be easily formed to any moldable shape, and allows for longer and more stable self-propelled motion if compared with pure camphor or pure camphene or of a camphene-camphor wax. Here we use scanning electron microscopy to visualize and characterize the microporous structure of the solid polypropylene foam formed in the plastic for different polypropylene contents. The topology of foams remaining in the material after camphor and camphene molecules have been removed through evaporation or dissolution is similar to polypropylene foams obtained using thermally-induced phase separation. We show that the foams have a superhydrophobic surface but strongly absorb non-polar liquids, and suggest an array of potential scientific and industrial applications.

A camphene-camphor-polymer composite material for the production of superhydrophobic absorbent microporous foams / Löffler, Richard J G; Hanczyc, Martin M; Gorecki, Jerzy. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 12:1(2022), pp. 24301-24310. [10.1038/s41598-021-04240-5]

A camphene-camphor-polymer composite material for the production of superhydrophobic absorbent microporous foams

Hanczyc, Martin M;
2022-01-01

Abstract

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 polypropylene in camphene at 250 [Formula: see text]C. The material has wax-like mechanical properties, can be easily formed to any moldable shape, and allows for longer and more stable self-propelled motion if compared with pure camphor or pure camphene or of a camphene-camphor wax. Here we use scanning electron microscopy to visualize and characterize the microporous structure of the solid polypropylene foam formed in the plastic for different polypropylene contents. The topology of foams remaining in the material after camphor and camphene molecules have been removed through evaporation or dissolution is similar to polypropylene foams obtained using thermally-induced phase separation. We show that the foams have a superhydrophobic surface but strongly absorb non-polar liquids, and suggest an array of potential scientific and industrial applications.
2022
1
Löffler, Richard J G; Hanczyc, Martin M; Gorecki, Jerzy
A camphene-camphor-polymer composite material for the production of superhydrophobic absorbent microporous foams / Löffler, Richard J G; Hanczyc, Martin M; Gorecki, Jerzy. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 12:1(2022), pp. 24301-24310. [10.1038/s41598-021-04240-5]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11572/372796
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