Scalable Exfoliation Process for Highly Soluble Boron Nitride Nanoplatelets by Hydroxide-Assisted Ball Milling

Lee, Dongju; Liu, Bin; Park, Kwang Hyun; Ryu, Ho Jin; Jeon, Seokwoo; Hong, Soon Hyung

doi:10.1021/nl504397h

Cited by 521 publications

(325 citation statements)

References 42 publications

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“…Among them, hexagonal boron nitride nanosheets (BNNSs) have excellent thermal conductivity and stability, ultrahigh electrical insulation and breakdown strength, outstanding mechanical strength and stiffness, good impermeability to gases and liquids, high transparency to visible‐light and deep‐UV absorption, as well as good biocompatibility and biodegradability . Those unique properties make BNNSs attractive fillers in composites for a wide range of applications . For example, the uses of BNNS/cellulose nanofiber paper for insulating thermal management, BNNS/polymer films for high‐energy dielectric capacitors operating at high temperature and high voltage, and BNNS/polyethylene films for gas‐barrier packaging, have been demonstrated.…”

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“…Those unique properties make BNNSs attractive fillers in composites for a wide range of applications . For example, the uses of BNNS/cellulose nanofiber paper for insulating thermal management, BNNS/polymer films for high‐energy dielectric capacitors operating at high temperature and high voltage, and BNNS/polyethylene films for gas‐barrier packaging, have been demonstrated. However, there is still a long way to go before the possible uses of BNNSs are exhausted.…”

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“…For instance, Coleman and co‐workers have produced hydroxyl‐functionalized BNNSs (OH‐BNNSs) by a multistep procedure that involves the exfoliation of BNNSs by ultrasonication, grafting them with alkoxy groups by oxygen‐radical functionalization and subsequent hydrolytic defunctionalization with H 2 O 2 /H 2 SO 4 . Jeon and co‐workers have prepared OH‐BNNSs with a yield of 18% by ball milling for 24 h in 2 m NaOH followed by ultrasonication . Chen and co‐workers have produced amino‐functionalized BNNSs with a yield of up to 85% by urea‐assisted ball milling for 20 h .…”

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Simultaneous Production and Functionalization of Boron Nitride Nanosheets by Sugar‐Assisted Mechanochemical Exfoliation

et al. 2019

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Due to their extraordinary properties, boron nitride nanosheets (BNNSs) have great promise for many applications. However, the difficulty of their efficient preparation and their poor dispersibility in liquids are the current factors that limit this. A simple yet efficient sugar‐assisted mechanochemical exfoliation (SAMCE) method is developed here to simultaneously achieve their exfoliation and functionalization. This method has a high actual exfoliation yield of 87.3%, and the resultant BNNSs are covalently grafted with sugar (sucrose) molecules, and are well dispersed in both water and organic liquids. A new mechanical force–induced exfoliation and chemical grafting mechanism is proposed based on experimental and density functional theory investigations. Thanks to the good dispersibility of the nanosheets, flexible and transparent BNNS/poly(vinyl alcohol) (PVA) composite films with multifunctionality is fabricated. Compared to pure PVA films, the composite films have a remarkably improved tensile strength and thermal dissipation capability. Noteworthy, they are flame retardant and can effectively block light from the deep blue to the UV region. This SAMCE production method has proven to be highly efficient, green, low cost, and scalable, and is extended to the exfoliation and functionalization of other two‐dimensional (2D) materials including MoS2, WS2, and graphite.

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Simultaneous Production and Functionalization of Boron Nitride Nanosheets by Sugar‐Assisted Mechanochemical Exfoliation

et al. 2019

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“…After the hydroxylation of h‐BNNSs, the appearance of the broad absorption peak is at around 3400 cm −1 , which is ascribed to the stretching vibration of O‐H bond. In addition, the peaks at 1235 and 1086 cm −1 are present in the spectrum of OH‐BNNSs, which can be indexed to the B‐OH deformation and the symmetric B‐O stretching band, indicating the presence of hydroxyl groups on the h‐BNNSs surfaces . The hydroxyl functional groups on the as‐exfoliated h‐BNNSs surfaces provide the reaction sites for interaction with silane coupling agent.…”

Section: Resultsmentioning

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Covalent Functionalized Boron Nitride Nanosheets as Efficient Lubricant Oil Additives

Wang

Han

et al. 2019

Adv Materials Inter

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Hexagonal boron nitride nanosheets (h‐BNNSs) are obtained by a chemical exfoliation method from bulk h‐BN powders. The surface of h‐BNNSs is functionalized with 3‐aminopropyltriethoxysilane (APTS). Further, the amino functional groups on the surface of APTS‐modified h‐BNNSs (APTS‐BNNSs) are reacted with 4‐carboxyphenylboronic acid (CPBA) to obtain the covalently linked CPBA‐BNNSs. The morphology and structure of h‐BNNSs, APTS‐BNNSs, and CPBA‐BNNSs are comprehensively discussed. Of all the above four additives, the CPBA‐BNNSs can most outstandingly improve friction‐reducing and antiwear capacities of 150N base oil. The CPBA‐BNNSs possess excellent dispersion stability in base oil due to the phenylboronic acid groups on the surface of h‐BNNSs. Only 0.075 wt% CPBA‐BNNSs is added into the base oil, the coefficient of friction is decreased by 32.3%, and the wear scar diameter and mean wear volume of the rubbing surface are reduced by 42.9% and 88.4%. The analysis of the worn scar surface demonstrates that CPBA‐BNNSs can form a protective tribofilm containing boron and nitrogen elements on the rubbing surfaces, thereby decreasing the friction and protecting the surfaces from wear. Thus, the CPBA‐BNNSs may be recommended as a potential lubricant additive in practical applications.

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“…9 Hydroxylation, as a type of chemical functionalization, is defined as the attachment of hydroxyl groups on the surface and edges of h-BN via covalent bonds, mainly to improve their dispersion in water and create more active reaction sites. [9][10][11] Limited studies have concentrated on the hydroxylated hexagonal boron nitride nanosheets (OH-BNNS), and the existing few are more concerned with the functionalization process [12][13][14] and electrical properties 15,16 rather than the mechanical properties of OH-BNNS. Chemical functionalization is usually held responsible for degradation in the engineering properties of graphene oxide (GO); a phenomenon dissected in previous studies 17 and is contributed to the breaking of perfect sp 2 hybridized carbon by hydroxyl groups and forming sp 3 hybridization instead.…”

Section: Introductionmentioning

confidence: 99%

Mechanical and electromechanical properties of functionalized hexagonal boron nitride nanosheet: A density functional theory study

Hosseini

Zakertabrizi

Korayem

et al. 2018

The Journal of Chemical Physics

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Hydroxylation as a technique is mainly used to alter the chemical characteristics of hexagonal boron nitride (h-BN), affecting physical features as well as mechanical and electromechanical properties in the process, the extent of which remains unknown. In this study, effects of functionalization on the physical, mechanical, and electromechanical properties of h-BN, including the interlayer distance, Young's modulus, intrinsic strength, and bandgaps were investigated based on density functional theory. It was found that functionalized layers of h-BN have an average distance of about 5.48 Å. Analyzing mechanical properties of h-BN revealed great dependence on the degree of functionalization. For the amorphous hydroxylated hexagonal boron nitride nanosheets (OH-BNNS), the Young's modulus moves from 436 to 284 GPa as the coverage of -OH increases. The corresponding variations in the Young's modulus of the ordered OH-BNNS with analogous coverage are bigger at 460-290 GPa. The observed intrinsic strength suggested that mechanical properties are promising even after functionalization. Moreover, the resulted bandgap reduction drastically enhanced the electrical conductivity of this structure under imposed strains. The results from this work pave the way for future endeavors in h-BN nanocomposites research.

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Scalable Exfoliation Process for Highly Soluble Boron Nitride Nanoplatelets by Hydroxide-Assisted Ball Milling

Cited by 521 publications

References 42 publications

Simultaneous Production and Functionalization of Boron Nitride Nanosheets by Sugar‐Assisted Mechanochemical Exfoliation

Simultaneous Production and Functionalization of Boron Nitride Nanosheets by Sugar‐Assisted Mechanochemical Exfoliation

Covalent Functionalized Boron Nitride Nanosheets as Efficient Lubricant Oil Additives

Mechanical and electromechanical properties of functionalized hexagonal boron nitride nanosheet: A density functional theory study

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