Kinetic Study of the Effective Thermal Polymerization of a Prebiotic Monomer: Aminomalononitrile

Hortelano, Carlos; Ruíz-Bermejo, Marta; Fuente, José Luis de la

doi:10.3390/polym15030486

Polymers

2023

DOI: 10.3390/polym15030486

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Kinetic Study of the Effective Thermal Polymerization of a Prebiotic Monomer: Aminomalononitrile

Carlos Hortelano

Marta Ruíz-Bermejo

José Luis de la Fuente

Abstract: Aminomalononitrile (AMN), the HCN formal trimer, is a molecule of interest in prebiotic chemistry, in fine organic synthesis, and, currently, in materials science, mainly for bio-applications. Herein, differential scanning calorimetry (DSC) measurements by means of non-isothermal experiments of the stable AMN p-toluenesulfonate salt (AMNS) showed successful bulk AMN polymerization. The results indicated that this thermally stimulated polymerization is initiated at relatively low temperatures, and an autocataly… Show more

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2024

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Cited by 3 publications

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Correction of Experimental Thermal Analysis Data and Kinetic Computations Using Isoconversional state Diagrams

Tao,

Krivec

2024

Macro Theory & Simulations

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An isoconversional state diagram (ISD) method is a graphical representation of the commonly used model free kinetics (MFK) method. An ISD state curve describes the relationship between 1/T and lnβ at a certain conversion degree, where T is the temperature and β is the heating rate. The ISD tangent rule describes the pattern of intersection of two tangents to two adjacent state curves at given points having the same temperature, which can be used for the correction of random error in the experimental thermal analysis data. The comparison of kinetic predictions between the ISD and MFK methods shows that the corrective effect is evident and the prediction quality can be improved in the predictable heating rate and temperature ranges. Furthermore, the proposed implicit method simplifies the ISD construction procedure compared to the previous explicit method.

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Correction of Experimental Thermal Analysis Data and Kinetic Computations Using Isoconversional state Diagrams

Tao,

Krivec

2024

Macro Theory & Simulations

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Diaminomaleonitrile as a high-throughput precursor for alternative layered C=N-based conjugated polymers to carbon nitrides

Ruiz-Bermejo,

Hortelano,

García Armada

et al. 2024

Polymer

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Solvothermal Polymerization of Diaminomaleonitrile Reveals Optimal Green Solvents for the Production of C═N-Based Polymers

López-García,

Manjavacas,

de la Fuente

et al. 2024

ACS Omega

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Solvothermal polymerization (STP) of diaminomaleonitrile (DAMN) was evaluated using a wide variety of solvents and in the temperature range from 80 to 170 °C. The highest yields, almost quantitative, were achieved with protic n-alcohols such as n-pentanol or n-hexanol at 130 and 150 °C, respectively. The kinetic behavior was studied by gravimetry and the DAMN consumption was monitored by UV−vis spectroscopy and HPLC. GC−MS identified byproducts of the DAMN hydrolysis and oxidation reactions, which were significantly reduced when n-pentanol or nhexanol were used with respect to hydrothermal conditions. This led to an exploration of compositional changes and microstructural variations by FTIR and NMR spectroscopy and simultaneous thermal analysis. n-Hexanol appears to be an ideal eco-friendly solvent for the DAMN self-STP. The results presented here are not only of interest for the design of polymeric materials based on C�N structures but also show remarkable implications for prebiotic chemistry.

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Kinetic Study of the Effective Thermal Polymerization of a Prebiotic Monomer: Aminomalononitrile

Cited by 3 publications

References 43 publications

Correction of Experimental Thermal Analysis Data and Kinetic Computations Using Isoconversional state Diagrams

Correction of Experimental Thermal Analysis Data and Kinetic Computations Using Isoconversional state Diagrams

Diaminomaleonitrile as a high-throughput precursor for alternative layered C=N-based conjugated polymers to carbon nitrides

Solvothermal Polymerization of Diaminomaleonitrile Reveals Optimal Green Solvents for the Production of C═N-Based Polymers

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