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Correction to: Review on the recent progress in the preparation and stability of graphene‑based nanofluids Thong Le Ba1   · Omid Mahian2 · Somchai Wongwises3,4 · Imre Miklós Szilágyi1 Published online: 2 July 2020 © Akadémiai Kiadó, Budapest, Hungary 2020

Correction to: Journal of Thermal Analysis and Calorimetry https​://doi.org/10.1007/s1097​3-020-09365​-9

1. Original text—Heading section: Abstract

creating the BF and nanoparticles together and the two-step method by creating them separately and then mixing [2]. Correction

Numerous researches have focused on the preparation and stabilization of graphene-based nanofluids, and it is indispensable to create a complete list of the approaches.

Nanofluids can be divided into two types: metallic nanofluids (metals: Au, Ag, Cu, Al, Fe; metal oxides: A ­ l2O3, CuO, ­Fe3O4, ­SiO2, ­TiO2, ZnO, etc.) and nonmetallic nanofluids (carbides: SiC, TiC, carbon materials: graphite, diamond, SWCNT/multi-walled carbon nanotube (MWCNT), graphene, etc.) [3]. There are two primary methods to produce nanofluids; the one-step method by creating the nanoparticles and nanofluids simultaneously and the two-step method by creating them separately and then mixing [4,5]

2. Original text—Heading section: Introduction

3. Original text—Heading section: Introduction

Nanofuids can be divided into two types: metallic nanofuids (metals: Au, Ag, Cu, Al, Fe; metal oxides: ­Al2O3, CuO, ­Fe3O4, ­SiO2, ­TiO2, ZnO, etc.) and nonmetallic nanofuids (carbides: SiC, TiC, carbon materials: graphite, diamond, SWCNT/MWCNT, graphene, etc.). There are two primary methods to produce nanofuids: the one-step method by

Nanofuids have some important characteristics for diferent utilizations, for example, high heat conductivity, ultrafast heat transfer ability, good stability, reduction in erosion and friction coefcient, and good lubrication.

Numerous researches to prepare and stabilize graphenebased nanofluids have been developed. Correction

The original article can be found online at https​://doi.org/10.1007/ s1097​3-020-09365​-9. * Thong Le Ba [email protected] 1



Department of Inorganic and Analytical Chemistry, Budapest University of Technology and Economics, Muegyetem rakpart 3., Budapest 1111, Hungary

2



School of Chemical Engineering and Technology, Xi’an Jiaotong University, Xi’an 710049, Shaanxi, China

3

Department of Mechanical Engineering, Faculty of Engineering, King Mongkut’s University of Technology Thonburi, Bangmod, Bangkok 10140, Thailand

4

National Science and Technology Development Agency (NSTDA), Pathum Thani 12120, Thailand





Correction Nanofluids have some important characteristics for different utilizations, for example, high heat conductivity, ultrafast heat transfer ability, good stability, reduction of erosion and friction coefficient, and good lubrication, as compared to dispersions containing micro particles, nanofluids present higher heat conductivity, better stability, and lower friction coefficient. 4. Original text—Heading section: Introduction Nanofui

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