Matches in DBpedia 2016-04 for { ?s ?p "Jillian Fiona (Jill) Banfield (born Armidale, Australia) is a geomicrobiologist and biogeochemist whose work focuses on the fundamental relationship between microorganisms and their chemical environments. Her most noted work includes publications on on the structure and functioning of microbial communities and the nature, properties and reactivity (especially crystal growth) of nanomaterials."@en }
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- Jillian_Banfield abstract "Jillian Fiona (Jill) Banfield (born Armidale, Australia) is a geomicrobiologist and biogeochemist whose work focuses on the fundamental relationship between microorganisms and their chemical environments. Her most noted work includes publications on on the structure and functioning of microbial communities and the nature, properties and reactivity (especially crystal growth) of nanomaterials.".
- Q6193127 abstract "Jillian Fiona (Jill) Banfield (born Armidale, Australia) is a geomicrobiologist and biogeochemist whose work focuses on the fundamental relationship between microorganisms and their chemical environments. Her most noted work includes publications on on the structure and functioning of microbial communities and the nature, properties and reactivity (especially crystal growth) of nanomaterials.".
- Jillian_Banfield comment "Jillian Fiona (Jill) Banfield (born Armidale, Australia) is a geomicrobiologist and biogeochemist whose work focuses on the fundamental relationship between microorganisms and their chemical environments. Her most noted work includes publications on on the structure and functioning of microbial communities and the nature, properties and reactivity (especially crystal growth) of nanomaterials.".
- Q6193127 comment "Jillian Fiona (Jill) Banfield (born Armidale, Australia) is a geomicrobiologist and biogeochemist whose work focuses on the fundamental relationship between microorganisms and their chemical environments. Her most noted work includes publications on on the structure and functioning of microbial communities and the nature, properties and reactivity (especially crystal growth) of nanomaterials.".