Читать книгу High-Performance Materials from Bio-based Feedstocks - Группа авторов - Страница 4

1 Chapter 2Figure 2.1 Some advantages of bio‐based carbon materials. Figure 2.2 Classification of biomass. Figure 2.3 Thermochemical processes for biomass conversion. Figure 2.4 Examples of chemical reactions catalyzed by biomass‐derived carbo...Figure 2.5 Transesterification of triglyceride. Figure 2.6 Esterification of fatty acid. Figure 2.7 Esterification of acetic acid. Figure 2.8 Reduction of nitrobenzene. Figure 2.9 Conversion of glucose to 5‐hydroxymethylfurfural. Figure 2.10 Hydrolysis of cellulose. Figure 2.11 Hydrogenation of levulinic acid.

2 Chapter 3Figure 3.1 Role of capillary forces in the collapse of soft porous materials...Figure 3.2 Evolution of porosity as a function of water : butanol compositio...Figure 3.3 Comparison of porosity of the three major Starbon types. Figure 3.4 Diesterification of succinic acid in aqueous ethanol as a functio...Figure 3.5 Esterification of oleic acid with sulphonated Starbon materials....Figure 3.6 Conversion of xylose to furfural and extraction of furfural. Figure 3.7 Functionalisation of steroids via Starbon acid‐catalysed Ritter r...Figure 3.8 Friedel Crafts reactions catalysed by a range of Starbon acids. (...Figure 3.9 Synthesis of an N‐heterocyclic carbine‐based catalyst on the Star...Figure 3.10 Preparation of a chiral bis‐oxalolidinone catalyst via surface b...Figure 3.11 Selective acylation of a diol by a supported Cu‐bis‐oxalodinone/...Figure 3.12 Comparison of pH‐dependent adsorption behaviour (via COD reducti...Figure 3.13 Four bioactive molecules studied for adsorption/desorption behav...

3 Chapter 4Figure 4.1 Schematic illustration of the carbon cycle and the production of ...Figure 4.2 (a) Illustrated procedure of fabricating N, S co‐doped porous car...Figure 4.3 (a) Schematic of the synthesis process for the hemp‐derived carbo...Figure 4.4 (a) Schematic illustration of the preparation process of N, P‐co‐...Figure 4.5 (a) Schematic illustration of the synthetic process of the Co3O4/...Figure 4.6 (a) Illustration of fabrication of co‐doped egg‐CMS. SEM images o...

4 Chapter 5Figure 5.1 Schematic diagram showing the different products obtained from se...Figure 5.2 Schematic presentation of the charged and discharged structure of...Figure 5.3 (a) Schematic illustration of the fabrication procedure for hollo...Figure 5.4 Schematic diagram of a supercapacitor. Figure 5.5 Bio‐based binder structure and features. (a) CMC (sodium carboxym...Figure 5.6 Schematic representation of the polymer electrolyte membrane fuel...

5 Chapter 6Figure 6.1 Sample of starch plasticised with glycerol and choline chloride (...Figure 6.2 Dry leather samples aqueous post‐tanned in (a) and DES post‐tanne...Figure 6.3 Starch‐based thermoplastic wood after forming (a), after grinding...Figure 6.4 From the top going clockwise: starch composites made with orange ...

6 Chapter 7Figure 7.1 Natural abundance of precious metals and rare earth elements (REE...Figure 7.2 (a) SEM images of P‐CNC, P‐CNF, and T‐CNF before (top) and after ...Figure 7.3 (a) Synthetic route for the preparation of the CMC‐g‐PAA hydrogel...Figure 7.4 (a) Preparation of chitosan grafted on persimmon tannin extract (...Figure 7.5 Reaction pathway for the synthesis of amidoxime‐modified magnetic...Figure 7.6 Removal of Au, Pd, Pt, and Ag by SAPAs, SAPVA, and activated carb...Figure 7.7 (a) SEM image of the PNMA‐LS composite spheres, (b) TEM image of ...

7 Chapter 8Figure 8.1 Representative images of various drug delivery systems in develop...

8 Chapter 9Figure 9.1 Schematic representation of the cell‐wall fractionation and sea a...Figure 9.2 CSMMA NPs for efficient gene transfection and drug delivery.

9 Chapter 10Figure 10.1 Carbohydrate–protein interactions between pathogenic agents and ...Figure 10.2 Exemplified multivalent glycomaterials using different scaffolds...Figure 10.3 Chemical structures and applications of cellulose, chitosan, amy...Figure 10.4 Chemical structures of the physiological ligand silyl Lewisx and...Figure 10.5 The natural ligand Man9 for DC‐SIGN and selected mono‐ and multi...Figure 10.6 Selected synthetic glyco‐gold nanoparticles and glycol‐quantum d...

10 Chapter 11Figure 11.1 Tissue engineering triad showing the factors influenced in tissu...Figure 11.2 Protein‐ or polysaccharide‐based scaffold architecture mimics th...

11 Chapter 12Figure 12.1 Suggested application of the principles of green chemistry to th...Figure 12.2 (a) Synthesis of the Zr(IV) MOF UiO‐66‐NH2 by twin‐screw extrusi...Figure 12.3 Examples of MOFs with bio‐based aliphatic diacids: (a) Synthesis...Figure 12.4 (a) Molecular structure of g‐CD. (b) Single crystal X‐ray struct...Figure 12.5 (a) Scanning electron micrograph of MIL‐88A crystallites and (b)...

12 Chapter 13Figure 13.1 Ternary diagram of CaO–SiO2–Al2O3 of selected pozzolans....Figure 13.2 Morphology of fly ash, cement, and various agricultural pozzolan...Figure 13.3 XRD patterns of (a) rice husk ash, (b) bagasse ash, and (c) palm...Figure 13.4 Compressive strength of rice husk‐ash/fly‐ash geopolymer with Si...

13 Chapter 14Figure 14.1 Mean droplet diameter (d3,2) (a) and zeta potential at pH 7 (b) ...Figure 14.2 Schematic representation and visual appearance of starch hydroge...Figure 14.3 Permeation of peroxyl radicals (a) and oxygen (b) from the aqueo...Figure 14.4 Schematic of phospholipids, a phospholipid bilayer, and formatio...Figure 14.5 Overview of the complex coacervation process. Figure 14.6 Weight‐average molecular weight and differential refractive inde...Figure 14.7 Scanning electron microscope images of vitamin E microcapsules p...

14 Chapter 15Figure 15.1 Effect of different amylose/amylopectin ratios on properties of ...

15 Chapter 16Figure 16.1 Overfertilization incident causes (a) eutrophication and (b) dro...Figure 16.2 Examples of nitrogen release profiles controllable by the coatin...Figure 16.3 Development of controlled‐release fertilizers (CRFs), which emer...Figure 16.4 Release mechanism of polymer‐coated fertilizer granule. Figure 16.5 Release mechanism of nutrients from matrix‐type slow‐release f...Figure 16.6 Schematic diagram of double‐layer slow‐release nitrogen fertiliz...Scheme 16.1 Plausible reaction scheme for the synthesis of the basic alkyd r...Scheme 16.2 Schematic diagram of the pure PU synthesis mechanism using the p...Scheme 16.3 Schematic comparison of conventional PU and the NIPU. Figure 16.7 Schematic illustration of organic carbon converted to biochar: s...Figure 16.8 FESEM image of the swollen surface of SAP‐biochar incorporation ...