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Researcher Details
 
Name: Professor HJ Snaith
Organisation: University of Oxford
Department: Oxford Physics
Current EPSRC-Supported Research Topics:
Materials Characterisation Materials Synthesis & Growth
Optoelect. Devices & Circuits Optoelect. Devices & Circuits
Solar Technology

Current EPSRC Support
EP/X037169/1 Interface Engineering for Terawatt Scale Deployment of Perovskite-on-Silicon Tandem Solar Cells(C)
EP/X038777/1 Advanced Device Concepts for Next-Generation Photovoltaics(P)
EP/V027131/1 High-Efficiency Flexible and Scalable Halide-Perovskite Solar Modules(C)
EP/V061747/1 ECCS-EPSRC Superlattice Architectures for Efficient and Stable Perovskite LEDs(P)
EP/V010840/1 Metal halide semiconductors: materials discovery beyond ABX3 perovskites(C)
EP/T028513/1 Application Targeted and Integrated Photovoltaics - Enhancing UK Capability in Solar(C)
EP/S516119/1 Prosperity Partnership Call 2 Strategic Students-Oxford PV and University of Oxford(P)
EP/S004947/1 All-perovskite Multi-junction Solar Cells(P)
Previous EPSRC Support
EP/S000763/1 Supergen Solar Network+(C)
EP/P033229/1 Unravelling halide segregation in hybrid perovskites for Si tandem photovoltaics(C)
EP/R023581/1 ISCF Wave 1: Materials research hub for energy conversion, capture, and storage(C)
EP/P02484X/1 SuperSolar Hub Extension(C)
EP/M015254/2 Self-assembling Perovskite Absorbers - Cells Engineered into Modules (SPACE-Modules)(C)
EP/P006329/1 Perovskite Heterostructures by Vapour Deposition(C)
EP/M022900/1 A National Thin-Film Cluster Facility for Advanced Functional Materials(P)
EP/M024881/1 Organic-inorganic perovskite hybrid tandem solar cells(P)
EP/M015254/1 Self-assembling Perovskite Absorbers - Cells Engineered into Modules (SPACE-Modules)(C)
EP/M014797/1 Improved Understanding, Development and Optimisation of Perovskite-based Solar Cells(C)
EP/M005143/1 Control of spin and coherence in electronic excitations in organic and hybrid organic/inorganic semiconductor structures(C)
EP/M023532/1 [Newton] Advancing the efficiency and production potential of excitonic solar cells (APEX), Phase- II(C)
EP/L024667/1 Organometal halide photovoltaic cells: tailoring fundamental light conversion pathways(C)
EP/J009857/1 Rational design of solid-state semiconductor-sensitized solar cells: from materials modelling to device fabrication(C)
EP/J017361/1 SUPERSOLAR Solar Energy Hub(C)
EP/I017070/1 Mathematical analysis of nanostructured electrochemical systems for lithium batteries and solar cells(C)
EP/H046887/1 Materials World Network: Nano-structured materials from nanoparticle- and block copolymer assemblies for nanophotonics and optoelectronics(C)
EP/H040218/1 Advancing the efficiency and production potential of Excitonic Solar Cells (APEX)(C)
EP/H015701/1 Probing and enhancing charge generation and transport in solid-state dye-sensitized solar cells(C)
EP/G049653/1 Enhanced solar light harvesting and charge transport in dye-sensitized solar cells(P)
EP/G031088/1 SUPERGEN Excitonic Solar Cell Consortium - MAIN CORE(C)
EP/F065884/1 Self-organized nanostructures in hybrid solar cells(P)
EP/F056702/1 Manufacturable nanoscale architectures for heterojunction solar cells(C)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator