Synthesis of polybenzoxazine-based polymer and nitrogen-doped carbon nanospheres

Recently, scientists have proposed a simple surfactant-free synthesis of polybenzoxazine-based polymers and nitrogen-doped carbon nanospheres.

The scientists found that p-phenylenediamine not only participates in the condensation but also catalyses the polymerisation of phloroglucinol and formaldehyde. Source: psdesign1 – stock.adobe.com. -

Strict control of the monodispersity and size of nanoparticles less than 200 nm is a prerequisite for many applications. However, template- and surfactant-free synthesis of monodisperse polymers and carbon nanospheres less than 200 nm is still challenging. In a recently published paper, new polymer nanospheres were first synthesised by a sol–gel method via the polycondensation of phloroglucinol, p-phenylenediamine, and formaldehyde based on the benzoxazine chemistry in the absence of templates and/or surfactants.

Three-dimensional periodic structures by self-assembly

The scientists proved the formation of a polybenzoxazine structure and found that p-phenylenediamine not only participates in the condensation but also catalyses the polymerisation of phloroglucinol and formaldehyde based on the characterisation by FTIR, Raman, NMR, and XPS. The monodisperse polymer nanospheres are so uniform that they can form three-dimensional periodic structures by self-assembly. In addition, these polymer nanospheres can be pseudomorphically converted to the corresponding uniform nitrogen-doped carbon spheres by pyrolysis due to the excellent thermal stability (48.6 wt% at 1000 °C based on the measurement of TGA) of such polybenzoxazine-based polymers.

Preparation of electrodes for supercapacitors

The high nitrogen doping level of 9.77 wt% in the carbon matrix was achieved. The sizes of the polymer and carbon nanospheres can be adjusted, respectively, in the range of 105–186 and 79.2–137 nm by changing the concentration of monomers and the ratio of ethanol to water. To demonstrate their applicability, the electrodes for supercapacitors were prepared using nitrogen-doped carbon nanospheres without any activation and showed excellent performance.

The study was published in: Polymer Chemistry, Issue 33, 2018.

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