Reconstruction of Soil Components into Multifunctional Freestanding Membranes | Zendy

Jumi Deka | Zendy; Kundan Saha | Zendy; Tukhar Jyoti Konch | Zendy; Raj Kumar Gogoi | Zendy; Subhasmita Saikia | Zendy; Partha Pratim Saikia | Zendy; Gitish K. Dutta | Zendy; Kalyan Raidongia | Zendy

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Reconstruction of Soil Components into Multifunctional Freestanding Membranes

Author(s) -

Jumi Deka,

Kundan Saha,

Tukhar Jyoti Konch,

Raj Kumar Gogoi,

Subhasmita Saikia,

Partha Pratim Saikia,

Gitish K. Dutta,

Kalyan Raidongia

Publication year - 2019

Publication title -

acs omega

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.779

H-Index - 40

ISSN - 2470-1343

DOI - 10.1021/acsomega.8b03144

Subject(s) - membrane , materials science , chemical engineering , ionic bonding , humic acid , conductivity , nanotechnology , chemistry , ion , organic chemistry , engineering , fertilizer , biochemistry

Multifunctional freestanding membranes are prepared by tuning the structure of ubiquitous soil components, viz. clay and humic acids. Cross-linking of exfoliated clay layers with purified humic acids not only conferred mechanical strength but also enhanced chemical robustness of the membranes. The percolated network of molecularly sized channels of the soil membranes exhibits characteristic nanofluidic phenomena. Electrical conductivity is induced to otherwise insulating soil membranes by heating in an inert atmosphere, without affecting their nanofluidic ionic conductivity. The soil membranes also provided a new platform to prepare and study mixed conducting materials. Strips of heated membranes are shown to exhibit excellent sensitivity toward NH 3 gas under atmospheric conditions.

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