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was dissolved in deuterated chloroform. Having managed to get better resolution of signals in the liquid state, bands at 128.94, 131.05, and 132.54 ppm were assigned to aromatic carbons while band 167.94 ppm was assigned to carboxylic carbons. The 31P MAS NMR (magic angle spinning nuclear magnetic resonance) of the same material showed the shift of a signal from 53.89 ppm in the unsulphonated Starbon to 85.30 ppm in the sulphonated material, which was attributed to the change from hydroxyl to sulphonic groups, whose interaction with TEPO confirmed strong Brønsted acid character.

      Elemental analysis of the original sulphonated Starbon gave a sulphur content of 1.9% (Starbon‐400‐SO3H), 1.4% (Starbon‐650‐SO3H), and 1.3% (Starbon‐750‐SO3H) [21], whereas Aldana‐Pérez et al. reported a higher sulphur content of 3.30% by X‐ray photoelectron spectroscopy (XPS), possibly due to the much longer duration of sulphonation in their method [20].

       3.2.2.2 N‐Starbons

       3.2.2.2.1 Methods of N Incorporation

      Attard et al. first reported a method for the N‐doping of Starbon in 2018 [12] by using chitosan (a natural N‐containing polysaccharide) or ammonia as nitrogen sources. Three methods were described. Route A involved the gelation of chitosan and alginic acid together in the formation of Starbon. Routes B and C involved injecting ammonia into the Starbon at the aerogel stage and into the final product, respectively, where ammonia was adsorbed onto the surface of the material. These N‐doped materials are collectively referred to as N‐Starbon.

      Another study used the impregnation of Starbon with monoethanolamine [22]. This involved mixing Starbon derived from both corn and potato starch with a known amount of amine in a solution of ethanol and water. The product was subsequently dried at 105 °C.

       3.2.2.2.2 Characterisation

      The presence of nitriles was further explored by preparing a range of materials and it was found that nitriles only form at carbonisation temperatures above 300 °C. It was also shown that the combination of chitosan and polysaccharide precursor to Starbon was necessary to retain the mesoporous structure of the N‐doped materials, as chitosan alone collapsed to a microporous structure on carbonisation.

      In a study to produce N‐Starbon for the application of carbon capture, Sreedhar et al. found that higher carbonisation temperatures of 750 °C for a duration of six hours were required to achieve the high surface areas and pore volumes needed [22]. Different weight loadings of monoethanolamine (10, 20, and 30%) were characterised by FTIR, with amine signals being present at 1650–1550 cm−1. Further studies by X ray diffraction (XRD) confirmed that N‐Starbons from both corn and potato starch were amorphous materials with very little difference between them.

      Source: Data from Attard et al. [12].

Carbonisation temp. (°C) Material Mesoporosity (%) Total pore volume (cm3 g−1) BET surface area (m2 g−1)
300 Starbon N‐Starbon‐A N‐Starbon‐B 88.3 86.7 98.7 0.627 0.663 0.645 174.2 412.6 240.5
450 Starbon N‐Starbon‐A 84.5 81.9 0.515 0.615 339.5 448.3
600 Starbon N‐Starbon‐A N‐Starbon‐C 79.8 83.5 92.8 0.686 0.750 0.324 519.5 519.2 249.5

      Source: Data from Attard et al. [12].

Carbonisation temp. (°C) Nitrogen content (wt%) C/N ratio
CHN XPS CHN XPS
300‐A 6.4 4.9 9.2 15.3
300‐B 6.8 6.1 8.8 12.4
450‐A 10.6 11.6 5.7 5.8
600‐A 6.5 7.0 11.1 11.3
600‐C 12.4 12.9 5.8 5.9

       3.2.2.3 Derivatisation via Bromination and Activation of Hydroxyl Functionality

      According to the functionality of the Starbon materials, particularly (but not exclusively) the lower temperature materials should have a significant number of –OH functionalities as well as several alkene and similar sites. Such materials clearly have the potential for functionalisation too, although less work has been published in utilising these functional groups as anchor points for groups (e.g. epoxides which could be further elaborated). Sreedhar’s approach is likely to bind the amines to the surface via aldehydes and other active groups on the surface, reactions that should be readily achieved under mild conditions [22]. Two other articles indicate

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