Luciana De Simone Cividanes scite author profile

There is growing interest in biodegradable polymers (BP), in particular poly(butylene adipate‐co‐terephthalate) (PBAT), due to environmental problems associated with the disposal of non‐biodegradable polymers into the environment. However, high production cost and low thermo‐mechanical properties restrict the use of this sustainable material, making its biodegradability advantageous only when it is decisively required. The addition of different compositions of monomers and selective addition of natural fillers have been reported as alternatives to develop more accessible PBAT‐based bioplastics with performance that could match or even exceed that of the most widely used commodity plastics. This review explores the recent progress of the applications and biodegradation of PBAT. The addition of natural fillers and its effect on the final performance of the PBAT‐based composites is also reported with respect to improving the properties of composites. The advance of polymerization reaction engineering combined with sustainable trend offers great opportunities for innovative green chemical manufacturing. POLYM. ENG. SCI., 59:E7–E15, 2019. © 2017 Society of Plastics Engineers

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Effects of octadecylamine functionalization of carbon nanotubes on dispersion, polarity, and mechanical properties of CNT/HDPE nanocomposites

Menezes

et al. 2018

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Review of mullite synthesis routes by sol–gel method

Cividanes

Campos

Rodrigues

et al. 2010

J Sol-Gel Sci Technol

161

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Influence of carbon nanotubes on epoxy resin cure reaction using different techniques: A comprehensive review

et al. 2013

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The results regarding the effect of carbon nanotubes (CNTs) on the cure process of epoxy resin are widespread and contradictory. Therefore, this article aims to review the key studies on the effect of carbon nanotubes related to the curing process of epoxy resin, separating them according to analysis technique. Many articles have shown that nanocomposite homogeneity and medium viscosity have great influence on the cure process. Some of them have shown that heterogeneity and high viscosity slow down the epoxy resin cure, reducing the cure reaction heat. Furthermore, the presence of chemical groups such as amine and hydroxyl can catalyze this reaction, especially in the case of homogeneous composites. This review describes briefly and straightforwardly the value of using several techniques for studying and monitoring the nanocomposite cure, among them: DSC, rheometry, DMA, Raman, FT-IR, and luminescence spectroscopy. That importance is remarkably noticeable for studying a particular temporal reaction step, where a particular technique is more suitable than another. In this sense, one could say that luminescence spectroscopy is appropriate for studying the ending step of the cure reaction. Moreover, a great amount of information is also provided for supporting further research.

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Functionalized graphene oxide as reinforcement in epoxy based nanocomposites

Ferreira

Brito

Franceschi

et al. 2018

Surfaces and Interfaces

129

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