Advanced sensing techniques require graphene with high quality and well-controlled surface chemistry. The intrinsic high mobility, low electrical noises and uniform graphitic crystallinity are the... Show moreAdvanced sensing techniques require graphene with high quality and well-controlled surface chemistry. The intrinsic high mobility, low electrical noises and uniform graphitic crystallinity are the prerequisites for high-performance graphene electronics. More importantly, chemical functionalization contributes to unlock the sensing potential of the graphene basal plane. This thesis focuses on manipulating the surface chemistry of a graphene monolayer and explores the impacts on the electrical and electrochemical properties for sensing applications. Heteroatoms like hydrogen, nitrogen and oxygen were systematically introduced into the graphene lattice as defect sites to modify the surface chemistry, and consequently the electronic properties and sensing performance. In summary, a correlation between the in-plane electron transport and the electrochemical activity of hydrogenated graphene was studied by modulating the density of H-sp3 defects. Moreover, cleaning effect on the graphene surface caused by hydrogenation process and the corresponding mechanism were discussed. The electrocatalysis of oxygen reduction reaction on nitrogen doped monolayer graphene was conducted to pinpoint the catalytic active sites. The mechanics of a centimeter-scale graphene floating on water was characterized by biaxial compression. Finally, the chemically modified graphene was tested for field-effect sensing of gas molecules. Show less
Lysosomal glycosidases are acid hydrolases that fragment glycoconjugates in lysosomes. Their inherited deficiency in human is the cause of a number of lysosomal storage disorders (LSDs),... Show moreLysosomal glycosidases are acid hydrolases that fragment glycoconjugates in lysosomes. Their inherited deficiency in human is the cause of a number of lysosomal storage disorders (LSDs), showing characteristic lysosomal accumulation of undegraded glycoconjugates. In the past, activity-based probes (ABPs) based on cyclophellitol or cyclophellitol aziridine scaffold have emerged as powerful tools enabling sensitive quantification of a number of lysosomal glycosidases in extracts of cells and tissue, as well as in intact cells. This thesis describes the characterization of several novel ABP classes targeting α-glucosidase, β-glucuronidase, α-L-iduronidase, α-mannosidase, β-mannosidase, and β-galactosidase, as well as a broad scale of applications for ABPs in LSD research. Novel glucocerebrosidase inhibitors based on the cyclophellitol scaffold are also described, which are brain-permeable, selective, and potently inactivate the enzyme in adult zebrafish. Additionally, a protocol for gel-based and microscopy-based detection of glucocerebrosidase is described. Show less
In the search for sustainable energy solutions, the idea of artificial photosynthesis has been proposed as an approach with which to use water and sunlight to produce hydrogen. Key in the... Show moreIn the search for sustainable energy solutions, the idea of artificial photosynthesis has been proposed as an approach with which to use water and sunlight to produce hydrogen. Key in the development of hydrogen production technologies is the splitting of water using a water oxidation catalyst. In this thesis, the water splitting catalytic process was investigated using a number of different computational techniques. Computationally, the water splitting catalytic process has traditionally been considered statically as a number of snapshots, and in vacuum. The traditional approaches also often include a number of correction factors for the charge carriers in the reaction. But because catalytic processes are dynamic, a novel approach was also developed in this thesis. With this approach, one can examine the dynamic transition from one catalytic intermediate to another, in a fully solvated environment. In optimising water oxidation catalysts it is important to consider the interaction with the surrounding environment, and how this can impact the catalytic reaction. Furthermore, in the new approach all the charge carriers–protons and electrons–are included in a dynamic simulation. These techniques give us a better idea of the things needed in the optimisation of water oxidation catalysts. Show less
This thesis describes the design, characterization and application of dextran based crosslinked network. Dextran, a neutral and hydrophilic polysaccharide, was functionalized with maleimide or... Show moreThis thesis describes the design, characterization and application of dextran based crosslinked network. Dextran, a neutral and hydrophilic polysaccharide, was functionalized with maleimide or vinyl sulfone groups which are able to form covalent bonds with nucleophilic thiols via a thiol-Michael addition reaction. The functionalized dextran polymers are liable to be crosslinked to generate 3D networks. Novel drug delivery platforms, including dextran-albumin hydrogels and dextran-poly(ethylene glycol)-albumin hydrogels, were established in which human serum albumin acts simultaneously as an affinity-based drug carrier and crosslinker. The obtained drug delivery platforms showed high drug loading efficiency and demonstrated sustained release of drug molecules. This thesis also explores emerging applications of hydrogels. New method to form giant unilamellar vesicles was established by assisting the hydration process of a lipid film with a dextran-poly(ethylene glycol) hydrogel film. Using this approach, polymer and additive-free GUVs can be prepared rapidly in high yield under physiological ionic strength conditions. Show less
The cannabinoid receptor type 2 (CB2R) is associated with several inflammatory diseases with an unmet medical need (e.g. Alzheimers, multiple sclerosis, reumatoid arthritis). Development of... Show moreThe cannabinoid receptor type 2 (CB2R) is associated with several inflammatory diseases with an unmet medical need (e.g. Alzheimers, multiple sclerosis, reumatoid arthritis). Development of new chemical biology strategies to study this protein is essential to aid future development of drugs for these diseases. Show less
Dissociative chemisorption is an important reaction step in many catalytic reactions. An example of such a reaction is the Haber-Bosch process, which is used commercially to produce ammonia... Show more Dissociative chemisorption is an important reaction step in many catalytic reactions. An example of such a reaction is the Haber-Bosch process, which is used commercially to produce ammonia, an important starting material in the production of fertilisers. In theoretical descriptions of such chemical processes often approximations need to be made in order to keep the computational cost feasible, such as fixing the surface atoms in place, rather than allowing them to vibrate. In this work, several example systems (hydrogen dissociation on different metal surfaces) are used in order to test to what extent such approximations work well. Show less
Nature__s own building block, peptide/protein derived materials have been of great interest for supramolecular chemists. The amino acids in peptides/proteins are linked via amide bonds, which makes... Show moreNature__s own building block, peptide/protein derived materials have been of great interest for supramolecular chemists. The amino acids in peptides/proteins are linked via amide bonds, which makes them more stable against degradation as compared to other natural materials such as oligonucleotides. Peptides adopt a secondary structure which is determined by their amino acid sequence resulting in a structure with a specific fold like a beta sheet, a helix or a random coil conformation.These secondary structures can govern the supra-molecular structure of the macromolecule to achieve specific function. Peptides can be short, such as dipeptides or as long as a small protein, which are able to selfassemble into a designed nanostructure and thus providing a wide choice of biomaterials for a chemical biologist. In last decade, peptides have been shown to have great versatility and inherent high affinity for their target to carry out various functions which is the scope of this thesis presented here. Show less