| R | W | S | K | 1 | 10774 | 1.5.11 | Early stage biofilm formation on bio-based microplastics in a freshwater reservoir | JI | 2023 | RIV23 | I,P | 0,17 | |
| | W | S | K | 1 | 11467 | 1.6.8 | Mechanistic Insights into the Biological Effects of Engineered Nanomaterials: A Focus on Gold Nanoparticles | JI | 2023 | RIV24 | I | 0,5 | |
| | | N | V | | 11696 | 1.5.11 | Interaction between unicellular green alga Raphidocelis subcapitata with bio-compostable plastic bags | D | 2023 | RIV25 | S | 0,33 | |
| R | W | S | K | 3 | 9032 | 1.4.4 | Composite yarns with antibacterial nanofibrous sheaths produced by collectorless alternating-current electrospinning for suture applications | JI | 2022 | RIV22 | I,S | 0,08 | |
| R | W | S | K | 1 | 9267 | 1.5.11 | Enhanced degradation of sulfamethoxazole by a modified nano zero-valent iron with a β-cyclodextrin polymer: Mechanism and toxicity evaluation | JI | 2022 | RIV22 | P | 0,1 | |
| R | W | S | K | 2 | 9996 | 1.4.4 | Gum Hydrocolloids Reinforced Silver Nanoparticle Sponge for Catalytic Degradation of Water Pollutants | JI | 2022 | RIV23 | P,S | 0,09 | |
| R | W | S | K | 1 | 10035 | 1.3.0.1 | Growth suppression of bacteria by biofilm deterioration using silver nanoparticles with magnetic doping | JI | 2022 | RIV23 | P(2) | 0,08 | |
| R | W | S | K | 1 | 10136 | 2.7.1.1 | Dissolved Iron Released from Nanoscale Zero-valent Iron (nzvi) Activates the Defense System in Bacterium Pseudomonas Putida, Leading to High Tolerance to Oxidative Stress | JI | 2022 | RIV23 | I,P | 0,13 | |
| R | | S | K | | 10522 | 2.5.0.2 | Oční kapky na bázi CeO2 | GB | 2022 | RIV23 | P | 0,2 | |
| R | W | S | F | 1 | 8761 | 1.5.11 | Attached and planktonic bacterial communities on bio-based plastic granules and micro-debris in seawater and freshwater | JI | 2021 | RIV22 | I,P | 0,14 | |
| R | W | S | K | 1 | 8765 | 1.4.0.1 | Alkenyl succinic anhydride modified tree-gum kondagogu: A bio-based material with potential for food packaging | JI | 2021 | RIV22 | P(4) | 0,11 | |
| R | W | S | K | 1 | 9195 | 1.5.11 | Discovering the potential of an nZVI-biochar composite as a material for the nanobioremediation of chlorinated solvents in groundwater: Degradation efficiency and effect on resident microorganisms | JI | 2021 | RIV22 | P(2) | 0,07 | |
| R | W | S | K | 3 | 9196 | 1.6.6 | Impact of Zero-Valent Iron on Freshwater Bacterioplankton Metabolism as Predicted from 16S rRNA Gene Sequence Libraries | JI | 2021 | RIV22 | I,P(2) | 0,25 | |
| R | W | S | K | | 9748 | 1.6.8 | RNA Extraction from Soil Bacterium Pseudomonas Putida And Green Alga Raphidocelis Subcapitata After Exposure to Nanoscale Zero Valent Iron | D | 2021 | RIV22 | I,P | 0,14 | |
| R | W | S | K | | 6833 | 2.10.1 | An across–species comparison of the sensitivity of different organisms to Pb– based perovskites used in solar cells | JI | 2020 | RIV20 | P(2) | 0,33 | |
| R | W | P | K | 1 | 7772 | 1.5.11 | Environmental fate of sulfidated nZVI particles: the interplay of nanoparticle corrosion and toxicity during aging | JI | 2020 | RIV21 | P | 0,25 | |
| R | W | S | K | 1 | 8628 | 1.5.11 | In situ pilot application of nZVI embedded in activated carbon for remediation of chlorinated ethene-contaminated groundwater: effect on microbial communities. | JI | 2020 | RIV22 | P(3),S | 0,1 | |
| R | W | S | K | 1 | 5194 | 2.10.1 | In vitro and environmental toxicity of reduced graphene oxide as an additive in automotive lubricants | JI | 2018 | RIV19 | P(2) | 0,33 | |
| R | W | S | K | 1 | 5397 | 1.5.11 | Different effects of nano-scale and micro-scale zero-valent iron particles on planktonic microorganisms from natural reservoir water | JI | 2018 | RIV19 | P(3),S | 0,17 | |
| R | W | S | K | 1 | 5563 | 1.4.4 | A poly(3-hydroxybutyrate)-chitosan polymer conjugate for the synthesis of safer gold nanoparticles and their applications | JI | 2018 | RIV19 | P(4) | 0,08 | |
| R | W | S | K | | 4100 | 1.5.11 | Ecotoxicity testing and environmental risk assessment of iron nanomaterials for sub-surface remediation – Recommendations from the FP7 project NanoRem | JI | 2017 | RIV18 | P(2) | 0,14 | |
| R | W | S | K | | 4398 | 2.5.3 | Electrical conductivity and physiological comfort of silver coated cotton fabrics | JI | 2017 | RIV18 | S | 0,13 | |
| R | W | P | F | | 664 | JI | Dual-modality self-heating and antibacterial polymer-coated nanoparticles for magnetic hyperthermia | JI | 2016 | RIV17 | P(3) | 0,2 | |
| R | S | S | K | | 3939 | DJ | Behaviour of Ag and Si-graphite nanomaterials in environmental and extreme conditions | D | 2016 | RIV17 | I,P(3),S | 0,17 | |
| R | W | S | F | | 1495 | 1.4.4 | Synthesis, fabrication and antibacterial properties of a plasma modified electrospun membrane consisting of gum Kondagogu, dodecenyl succinic anhydride and poly (vinyl alcohol) | JI | 2015 | RIV16 | P(2) | 0,2 | |
| R | W | P | F | | 2344 | EI | Functionalized Magnetic Nanoparticles and Their Effect on Escherichia coli and Staphylococcus aureus | JI | 2015 | RIV16 | P(3) | 0,25 | |
| R | | N | K | | 42 | JI | Fabrication, Characterization, and Antibacterial Properties of Electrospun Membrane Composed of Gum Karaya, Polyvinyl Alcohol, and Silver Nanoparticles | JI | 2014 | RIV15 | P | 0,24 | |