Abstract
Herein, we present an interesting route to carbon derived from ferrocene without pyrolysis. Specifically, the direct contact of the metallocene with liquid bromine at ambient conditions released rapidly and spontaneously carbon soot, the latter containing dense spheres, nanosheets, and hollow spheres. The derived carbon carried surface C-Br bonds that permitted postfunctionalization of the solid through nucleophilic substitution. For instance, treatment with diglycolamine led to covalent attachment of the amine onto the carbon surface, thus conferring aqueous dispersability to t he solid. The dispersed solid exhibited visible photoluminescence under UV irradiation as a result of surface passivation by the amine. Hence, the present method not only allowed a rapid and spontaneous carbon formation at ambient conditions, but also surface engineering of the particles to impart new properties (e.g., photoluminescence).
Highlights
Carbon is an enchanting element that plays a central role in materials science and chemistry [1]
Hypergolic reactions were successfully utilized from our group for the spontaneous and fast preparation of a variety of functional carbon materials, such as carbon nanosheets, crystalline graphite, graphitic carbon nitride, photoluminescent carbon dots, and fullerols, at ambient conditions [2,3,4,5]
An organic material serving as the carbon source and a powerful oxidizer were mixed at room temperature and atmospheric pressure to react exothermically towards the carbon phase formation
Summary
Carbon is an enchanting element that plays a central role in materials science and chemistry [1]. It was these results that further urged us to continue searching for new reaction schemes for the production of carbon at ambient conditions in an energy-liberating manner. NIatnowmaatsertiahlses20e20r,e1s0u, l1t5s64that further urged us to continue searching for new reaction schemes for2 tohf e13 production of carbon at ambient conditions in an energy-liberating manner.
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