Add to ORKGTwo dimensional (2D) materials offer excellent opportunities for application as catalysts for energy needs. Their catalytic activity depends on the nature of defects, their geometry and their electronic structure. It thus important that the characteristics of defect-laden 2D materials be understood at the microscopic level. My dissertation focuses on theoretical and computational studies of several novel nanoscale materials using state-of-the-art techniques based on density functional theory (DFT) with the objective of understanding the microscopic factors that control material functionality. My work has helped establish defect-laden hexagonal boron nitride (dh-BN) as a promising metal-free catalyst for CO2 hydrogenation. Firstly, I showed ...
This Ph.D. thesis focuses on the exploration and design of new electrocatalysts; the theoretical scr...
Using density functional theory (DFT) calculations, we explored the potential of defective MoS2 shee...
Advances in extraction of shale oil and gas has increased the production of geographically stranded ...
The research conducted in my dissertation focuses on theoretical and computational studies of the el...
The properties of epitaxially grown 2D materials such as hexagonal boron nitride (hBN) and graphene ...
In recent years, climate change triggered by carbon dioxide (CO2) emissions has sparked the intens...
Catalysis is ubiquitous in modern civilization, with far-reaching applications in the chemical, ener...
Accelerated energy demands, together with unprecedented CO2 emissions, aggravate the global energy a...
In this thesis, we have envisaged systematic investigation to predict the water splitting mechanism ...
Designing new materials for functional applications depends upon our ability to understand and corre...
This dissertation undertakes theoretical research into the adsorption, pattern formation, and reacti...
Metal-supported hexagonal boron nitride monolayers (h-BN/M) are emerging as new potential electrocat...
Considering the ever-increasing interest in metal-free materials, some potential chemical applicatio...
Transition metal dichalcogenides are cheap and earth-abundant candidates for the replacement of prec...
Doctor of PhilosophyDepartment of Chemical EngineeringBin LiuOur heavy dependence on fossil fuels al...
This Ph.D. thesis focuses on the exploration and design of new electrocatalysts; the theoretical scr...
Using density functional theory (DFT) calculations, we explored the potential of defective MoS2 shee...
Advances in extraction of shale oil and gas has increased the production of geographically stranded ...
The research conducted in my dissertation focuses on theoretical and computational studies of the el...
The properties of epitaxially grown 2D materials such as hexagonal boron nitride (hBN) and graphene ...
In recent years, climate change triggered by carbon dioxide (CO2) emissions has sparked the intens...
Catalysis is ubiquitous in modern civilization, with far-reaching applications in the chemical, ener...
Accelerated energy demands, together with unprecedented CO2 emissions, aggravate the global energy a...
In this thesis, we have envisaged systematic investigation to predict the water splitting mechanism ...
Designing new materials for functional applications depends upon our ability to understand and corre...
This dissertation undertakes theoretical research into the adsorption, pattern formation, and reacti...
Metal-supported hexagonal boron nitride monolayers (h-BN/M) are emerging as new potential electrocat...
Considering the ever-increasing interest in metal-free materials, some potential chemical applicatio...
Transition metal dichalcogenides are cheap and earth-abundant candidates for the replacement of prec...
Doctor of PhilosophyDepartment of Chemical EngineeringBin LiuOur heavy dependence on fossil fuels al...
This Ph.D. thesis focuses on the exploration and design of new electrocatalysts; the theoretical scr...
Using density functional theory (DFT) calculations, we explored the potential of defective MoS2 shee...
Advances in extraction of shale oil and gas has increased the production of geographically stranded ...