A5023400499- Advanced Photocatalysis Techniques
- Electrocatalysts for Energy Conversion
- Advanced battery technologies research
- Ocean Acidification Effects and Responses
- Maritime Ports and Logistics
- MXene and MAX Phase Materials
- Sensor Technology and Measurement Systems
- Advanced Memory and Neural Computing
- Maritime Transport Emissions and Efficiency
- 2D Materials and Applications
BuroHappold (United Kingdom)
2023
University of Manchester
2019-2021
Henry Royce Institute
2019-2021
Shore power is one of just a few technologies available to the shipping sector that has potential deliver carbon reductions this decade in line with Paris Climate Agreement. connects ships land-side electricity grids, reducing fossil fuel use while at berth port and same time improving air quality. It also an enabling technology for future deployment electric vessels, allowing battery recharge. Despite being proven technology, global been slow, literature pointing clear economic barriers its...
Scalable synthesis of 2D materials is a prerequisite for their commercial exploitation. Here, novel method producing nanocrystalline molybdenum disulfide (MoS2) at the liquid-liquid interface demonstrated by decomposing molecular precursor (tetrakis(N,N-diethyldithiocarbamato) molybdenum(IV)) in an organic solvent. The decomposition occurs over few hours room temperature without stirring or addition any surfactants, MoS2 which can be isolated onto substrates choice. formation accelerated...
The scarcity and cost of noble metals used in commercial electrolyzers limit the sustainability scalability water electrolysis for green hydrogen production. Herein, we report ultralow loading Au nanoparticles onto MoS2 electrodes by spontaneous process galvanic deposition. AuNP@MoS2 electrode synthesis was optimized, containing smallest nanoparticle diameter (2.9 nm) lowest (0.044 μg cm–2) exhibited best overall intrinsic electrocatalytic performance. This enhancement is attributed to an...