about
Microbial extracellular electron transfer and its relevance to iron corrosionWhen nanoparticles meet biofilms-interactions guiding the environmental fate and accumulation of nanoparticlesFormation and characteristics of biomimetic mineralo-organic particles in natural surface waterChallenges for the Modern Science in its Descend Towards Nano ScaleDid mineral surface chemistry and toxicity contribute to evolution of microbial extracellular polymeric substances?Nanotechnology in agriculture: prospects and constraints.Nanoparticles in the environment: assessment using the causal diagram approachMineralogy of iron microbial mats from loihi seamountToward responsible development and effective risk management of nano-enabled products in the U.S. construction industryIron Oxide Nanoparticles as a Potential Iron Fertilizer for Peanut (Arachis hypogaea).Terminal supraparticle assemblies from similarly charged protein molecules and nanoparticles.Nanominerals and nanoparticles in feed coal and bottom ash: implications for human health effects.Ordered ferrimagnetic form of ferrihydrite reveals links among structure, composition, and magnetism.A general strategy for colloidal stable ultrasmall amorphous mineral clusters in organic solvents.Methanogenesis facilitated by electric syntrophy via (semi)conductive iron-oxide minerals.Iron oxide nanoparticles induce Pseudomonas aeruginosa growth, induce biofilm formation, and inhibit antimicrobial peptide function.Cerium oxide nanoparticles inhibit oxidative stress and nuclear factor-κB activation in H9c2 cardiomyocytes exposed to cigarette smoke extract.Antioxidative effects of cerium dioxide nanoparticles ameliorate age-related male infertility: optimistic results in rats and the review of clinical clues for integrative concept of men health and fertility.Modification, adsorption, and geochemistry processes on altered minerals and amorphous phases on the nanometer scale: examples from copper mining refuse, Touro, Spain.Co-occurrence of Methanosarcina mazei and Geobacteraceae in an iron (III)-reducing enrichment culture.Microbial interspecies electron transfer via electric currents through conductive minerals.Prevention of NAFLD development in rats with obesity via the improvement of pro/antioxidant state by cerium dioxide nanoparticles.Cationic lipid-nanoceria hybrids, a novel nonviral vector-mediated gene delivery into mammalian cells: investigation of the cellular uptake mechanism.Noble metal nanoclusters and nanoparticles precede mineral formation in magmatic sulphide melts.Confounding experimental considerations in nanogenotoxicology.Influence of organic molecules on the aggregation of TiO2 nanoparticles in acidic conditions.Nanotoxicology: an interdisciplinary challenge.Origin, separation and identification of environmental nanoparticles: a review.Nanoparticles in aquatic systems.An approach for catalyst design in artificial photosynthetic systems: focus on nanosized inorganic cores within proteins.Challenges in assessing release, exposure and fate of silver nanoparticles within the UK environment.Spot the difference: engineered and natural nanoparticles in the environment--release, behavior, and fate.Barriers, pathways and processes for uptake, translocation and accumulation of nanomaterials in plants--Critical review.Natural inorganic nanoparticles--formation, fate, and toxicity in the environment.Discovery and ramifications of incidental Magnéli phase generation and release from industrial coal-burning.Comparative cytotoxicity of dolomite nanoparticles in human larynx HEp2 and liver HepG2 cells.Of nanobacteria, nanoparticles, biofilms and their role in health and disease: facts, fancy and future.Physicochemical and biological properties of biomimetic mineralo-protein nanoparticles formed spontaneously in biological fluids.Are engineered nano iron oxide particles safe? an environmental risk assessment by probabilistic exposure, effects and risk modeling.Bio-distribution and in vivo antioxidant effects of cerium oxide nanoparticles in mice.
P2860
Q26766819-EC9904AE-3AB6-4455-B8A9-80D8EB978AAFQ28081749-F71F1B87-26E0-4695-AF5C-6838496FD295Q28597202-37ED9AAD-012C-45F6-8CB9-EA188321C5EDQ28610676-CD58D21E-D8EE-4477-B579-6FE5EE929874Q28652314-BC6CCD8A-2BBF-4D25-AB6D-CF62EA394569Q28654600-F54DFCF1-1783-4C64-AA8E-7A51046CF9EEQ28727602-8D5122FA-1D6A-4241-AA11-94C103DB4CC6Q28730819-2905ABE9-547F-4725-BEC1-FBEC2952D925Q28950744-1A2121AE-FA56-4809-BB53-5BECBFB2A583Q30383073-7D9A3CAA-3FC9-4CD5-86C2-ED35E4AB2FA0Q30642302-DE401E42-71F0-4EFA-8501-55C6C6B3CD87Q33565826-148D8C68-F8DA-4705-8D76-51FF225E5027Q33733861-FB6599A2-4241-4A38-BAE3-484237E20850Q33768644-8D346324-754F-4DCD-8E9D-43583EBE23FAQ34049503-84C71E84-8055-4C8A-B887-85950254E7BBQ34154333-2DE1217B-0F85-4CC7-ACF5-252A4EFE4F6AQ35077951-31D07433-3331-43F0-83E2-23A9337363F1Q35762331-10A98DD4-3D75-489F-846B-1309B5F3E1FAQ35860611-5F5A9FF7-E2BC-42F6-BA03-91F9A8355555Q36035387-07FE201B-C0EA-48D1-BF9D-A98F704A96EDQ36056492-CB5A29F0-3977-41B1-A082-F00EC7C200A8Q36848119-4459F5DB-847F-4408-9D88-2B7717E0A260Q37067695-04D7EDEB-FF87-4B12-AE83-469C53ABE10AQ37186907-A675B463-9689-4BA2-9D89-FA7E56467EDAQ37436790-A3F3B9AD-BF47-442E-826C-D85D30122B62Q37737576-8F1ED37F-EEA6-433D-9719-20FFD5E07FB3Q37835204-BDFAF19E-B4A3-4259-BE80-11FDF05514BFQ37866998-BB00F1BE-DCEE-47A0-82A7-49522059AD1FQ37950935-3B6D0E2D-16E0-4CA5-8577-4E4D1D7AE54FQ38078844-755CB0BC-5C37-41E5-9037-980E940345F8Q38140620-C9E00DF1-5404-4F99-BD6D-5B4D348034B3Q38263073-12457C79-AF57-4D80-9BEC-39C18D358BE8Q38525602-B2F82ED2-7B9B-48E2-A0F2-06040CE35202Q38598957-D6256464-AF25-4266-82BC-9A9CD262C553Q38645239-68D29826-5632-46C7-8B7E-7BD00FFE56E4Q38911634-5872C179-9B0E-41C8-8045-D5B7434A3646Q39200253-59A3658F-2C70-4F01-AB02-6C92F963EF94Q39223140-5A4802C2-45AC-44A7-BFF8-F1ED5B90171FQ39249392-B3CE4323-DA57-4AB6-BEC5-8427E5CE4C83Q39535040-B70A5CB3-CDAD-4738-B6BA-C7A6947C078B
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on March 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Nanominerals, mineral nanoparticles, and Earth systems.
@en
Nanominerals, mineral nanoparticles, and Earth systems.
@nl
type
label
Nanominerals, mineral nanoparticles, and Earth systems.
@en
Nanominerals, mineral nanoparticles, and Earth systems.
@nl
prefLabel
Nanominerals, mineral nanoparticles, and Earth systems.
@en
Nanominerals, mineral nanoparticles, and Earth systems.
@nl
P2093
P356
P1433
P1476
Nanominerals, mineral nanoparticles, and Earth systems.
@en
P2093
Donald L Sparks
Michael F Hochella
Nita Sahai
Patricia A Maurice
R Lee Penn
Steven K Lower
P304
P356
10.1126/SCIENCE.1141134
P407
P577
2008-03-01T00:00:00Z