In this thesis project innovative strategies for the chemical modification of hexagonal Boron Nitride (hBN) were developed. The interest towards boron nitride has increased in the last decade. The main reasons are the similarities between the so called "white graphene" and its carbon counterpart (graphene). As carbon, BN has many allotropic forms of which the most stable one is the hexagonal multilayered structure. In particular, hexagonal Boron Nitride (hBN) has many appealing properties, such as thermal and chemical stability, thermal conductivity and biocompatibility. In this work a deep characterization of two commercially available grades has been performed.
In questo progetto di tesi sono state sviluppate strategie innovative per la modifica chimica del nitruro di boro esagonale (hBN). L'interesse verso il nitruro di boro è aumentato nell'ultimo decennio. Le ragioni principali sono le somiglianze tra il cosiddetto "grafene bianco" e la sua controparte in carbonio (grafene). Come il carbonio, il BN ha molte forme allotropiche di cui la più stabile è la struttura esagonale multistrato. In particolare, il nitruro di boro esagonale (hBN) ha molte proprietà interessanti, come stabilità termica e chimica, conducibilità termica e biocompatibilità. In questo lavoro è stata eseguita una caratterizzazione approfondita di due gradi disponibili in commercio.
Chemical modification of hexagonal boron nitride as ingredient of polymers nanocomposites
Magaletti, Federica
2021/2022
Abstract
In this thesis project innovative strategies for the chemical modification of hexagonal Boron Nitride (hBN) were developed. The interest towards boron nitride has increased in the last decade. The main reasons are the similarities between the so called "white graphene" and its carbon counterpart (graphene). As carbon, BN has many allotropic forms of which the most stable one is the hexagonal multilayered structure. In particular, hexagonal Boron Nitride (hBN) has many appealing properties, such as thermal and chemical stability, thermal conductivity and biocompatibility. In this work a deep characterization of two commercially available grades has been performed.File | Dimensione | Formato | |
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Chemical modification of hexagonal boron nitride as ingredient of polymers nanocomposites.pdf
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Executive_Summary.pdf
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https://hdl.handle.net/10589/187635