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Keyword [iron nanoparticles]
Result: 61 - 80 | Page: 4 of 5
61. Green Nanometer Iron Carbon Nanotubes Composite Materials To Remove Heavy Metal Water U(?)?Pb(?)performance Research
62. Synthesis Of Iron Nanoparticles From Pomegranate Leaves And Its Application On Indole Removal
63. The Toxicity Of Green Synthesized Graphene And Iron Nanoparticles To Microorganisms
64. Preparation,Structure And Magnetic Properties Of Carbon-encapsulated Magnetite,Martensite,and Iron Nanoparticles By High Energy Ball Milling Method
65. The Aggregation Behavior Of Graphene Oxide In Complex Water Systerms And Its Removal
66. Application Of Iron-Based Catalysts In The Electrocatalytic Conversion Of CO2 In Marine Oil And Gas
67. Investigation Into Mechanism Of Green Synthesis Of Iron Nanoparticles By Reducing Component Of Sunflower
68. Green Synthesis And Application Of Iron Nanoparticles And Their Composites
69. Preparation And Performance Of The Iron Nanoparticles And Iron Nanoparticles/Carbonyl Iron Particles Co-doped Magnetorheological Fluids
70. Investigation On Oral Micro/Nano Drug Delivery System For Enhanced Tumor Combined Chemotherapy Based On Lymphatic Transport
71. Transport, reactivity and fate of polyelectrolyte modified zero valent iron nanoparticles used for groundwater remediation in heterogeneous porous media
72. Polyelectrolyte surface modification of reactive iron nanoparticles
73. Removal of copper(II) and lead(II) from soils by poly(amidoamine) dendrimers and reductive immobilization of chromium(VI) by stabilized zero-valent iron nanoparticles
74. Enhancement of dispersibility of zero-valent iron nanoparticles for environmental remediation: Entrapment and surface modification with polymers
75. Phosphate removal and recovery using iron nanoparticles and iron cross-linked biopolymer
76. Iron nanoparticles: Reactions with lindane and the hexachlorocyclohexanes
77. Magnetic properties of iron-oxide passivated iron nanoparticles synthesized by a gas condensation technique
78. Transport of surface-modified iron nanoparticles through model subsurface porous media
79. Remediation of aqueous chromium(VI), lead(II), and technetium(VII) by supported zero-valent iron nanoparticles and ion exchange of cesium from complex aqueous streams
80. Nucleation, growth, and passivation of cobalt and iron nanoparticles
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