Growth and Passivation of Individual Carbon Nanoparticles by C2H2 addition at High Temperatures: Dependence of Growth Rate and Evolution on Material and Size

13 February 2023, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Absolute kinetics for reactions of C2H2 with a series of ~60 individual carbon nanoparticles (NPs) from graphite, graphene, graphene oxide, carbon black, diamond, and nano-onion feedstocks were measured for temperatures (TNP) ranging from 1200 to 1700 K. All the NPs were observed to gain mass by carbon addition under conditions that varied with feedstock, but with large variations in initial growth rate. Long reaction periods were studied to allow the evolution of the growth rates over time to be observed, and three distinct growth modes were observed, correlated with the initial NP mass (Minitial). The smallest NPs, with masses < ~25 MDa, initially grew rapidly but also passivated quickly after adding < 4% of Minitial. NPs in the 20 to 50 MDa range also passivated, but only after multiple waves of fast growth separated by periods of low reactivity, with up to ~11% total mass gain before passivation. The largest NPs, with Minitial > 50 MDa grew rapidly and continuously, adding up to ~300% of Minitial with no sign of rate slowing as long as C2H2 was present. The efficiencies for C2H2 addition and etching by O2 are strongly correlated, but the correlation changes as the NPs passivate. Growth and passivation mechanisms are discussed.

Keywords

nanoparticle growth
acetylene
Carbon
surface reactions
kinetics

Supplementary materials

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Main Data Tables
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Data underlying figures in main manuscript
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Supporting Data Tables
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Data from figures in supporting material
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