Home
World Journal of Advanced Research and Reviews
International Journal with High Impact Factor for fast publication of Research and Review articles

Main navigation

  • Home
    • Journal Information
    • Editorial Board Members
    • Reviewer Panel
    • Abstracting and Indexing
    • Journal Policies
    • Our CrossMark Policy
    • Publication Ethics
    • Issue in Progress
    • Current Issue
    • Past Issues
    • Instructions for Authors
    • Article processing fee
    • Track Manuscript Status
    • Get Publication Certificate
    • Join Editorial Board
    • Join Reviewer Panel
  • Contact us
  • Downloads

eISSN: 2581-9615 || CODEN: WJARAI || Impact Factor 8.2 ||  CrossRef DOI

Research and review articles are invited for publication in March 2026 (Volume 29, Issue 3) Submit manuscript

Thermodynamics of cellulose esterification

Breadcrumb

  • Home
  • Thermodynamics of cellulose esterification

Michael Ioelovich *

Designer Energy Ltd, 2 Bergman Str., Rehovot 7670504, Israel.\
 
Research Article
World Journal of Advanced Research and Reviews, 2023, 19(02), 225-232
Article DOI: 10.30574/wjarr.2023.19.2.1548
DOI url: https://doi.org/10.30574/wjarr.2023.19.2.1548
 
Received on 22 June 2023; revised on 31 July 2023; accepted on 02 August 2023
 
This research discusses the standard enthalpies of the combustion and formation of cellulose acetates and nitrates. In addition, the standard enthalpies of cellulose esterification were calculated.  For cellulose acetates, it was shown that an increase in the degree of substitution (SD) contributes to enhancing both the exothermic enthalpy of the formation and the exothermic enthalpy of the reaction. It was concluded that the feasibility of the acetylation reaction of cellulose, especially to di- and triacetates, is determined mainly by the exothermic enthalpy. The experiments with nitrocelluloses have shown that with an increase in SD, the enthalpies of combustion and formation become less exothermic. When cellulose is nitrated with dilute nitric acid to SD < 1.5, the enthalpy of the nitration reaction is endothermic. Thus, to implement the nitration process of cellulose with a dilute reagent, the contribution of the entropy to the Gibbs potential of this reaction is necessary. On the other hand, when cellulose is nitrated with more concentrated nitric acid to SD >1.5, the reaction enthalpy becomes exothermic. In this case, the feasibility of the cellulose nitration process will be determined mainly by the exothermic reaction enthalpy. As the degree of substitution increases, the specific gravity of cellulose acetates decreases, while that of nitrocelluloses increases. From experimental values of specific gravity, the degree of substitution of cellulose derivatives was calculated.
 
Cellulose acetates; Cellulose nitrates; Characterization; Enthalpy of Combustion; Enthalpy of Formation; Thermodynamics of reactions
 
https://wjarr.com/sites/default/files/fulltext_pdf/WJARR-2023-1548.pdf

Preview Article PDF

Michael Ioelovich. Thermodynamics of cellulose esterification. World Journal of Advanced Research and Reviews, 2023, 19(2), 225-232. Article DOI: https://doi.org/10.30574/wjarr.2023.19.2.1548

Copyright © Author(s). All rights reserved. This article is published under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0), which permits use, sharing, adaptation, distribution, and reproduction in any medium or format, as long as appropriate credit is given to the original author(s) and source, a link to the license is provided, and any changes made are indicated.

All statements, opinions, and data contained in this publication are solely those of the individual author(s) and contributor(s). The journal, editors, reviewers, and publisher disclaim any responsibility or liability for the content, including accuracy, completeness, or any consequences arising from its use.

Get Certificates

Get Publication Certificate

Download LoA

Check Corssref DOI details

Issue details

Issue Cover Page

Editorial Board

Table of content

Copyright © 2026 World Journal of Advanced Research and Reviews - All rights reserved

Developed & Designed by VS Infosolution