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Download scientific diagram | SEM images: RFR-43 (a) and RFC-43 (b), magnification ×80 000; RFR-44 (c) and RFC-44 (d–f); magnifications: (c and d) ×10 000, (e) ×12 000, (f) ×35 000 from publication: Effect of the surface properties of resorcinol–formaldehyde resin/carbon nanocomposites and their carbonization products on the solid-phase extraction of explosives | Two polymer–nanocarbon composites, containing carbon nanotubes or exfoliated graphite, were prepared using resorcinol–formaldehyde resin. By carbonization of the composites, two additional carbon-based nanomaterials were obtained. The resulting materials were investigated | Solid Phase Extraction, Carbonization and Carbon | ResearchGate, the professional network for scientists.
The Cantuarian May 1909 - December 1910 by OKS Association
PDF) Effect of the surface properties of resorcinol–formaldehyde resin/carbon nanocomposites and their carbonization products on the solid-phase extraction of explosives
Scanning electron microscopy - RST LABS - Rail System Testing GmbH
HASO4 FIRST Wavefront Sensor
Metals, Free Full-Text
PDF) Removal of Cs-137 from Liquid Alkaline High-Level Radwaste
PDF) Removal of Cs-137 from Liquid Alkaline High-Level Radwaste
Improving Serial Block Face SEM by Focal Charge Compensation
SEM images taken on sample 1a (upper left) obtained by a
Effect of the surface properties of resorcinol–formaldehyde resin
Improving Serial Block Face SEM by Focal Charge Compensation
Wide-field SEM of semiconducting minerals - ScienceDirect
Wide-field SEM of semiconducting minerals - ScienceDirect
Scanning electron microscope images of two…