| # | Title | Journal | Year | Citations |
|---|
| 1 | Polysaccharides and phytochemicals: a natural reservoir for the green synthesis of gold and silver nanoparticles | IET Nanobiotechnology | 2011 | 386 |
| 2 | Biological synthesis of metallic nanoparticles using algae | IET Nanobiotechnology | 2013 | 179 |
| 3 | Toxicity of copper oxide nanoparticles: a review study | IET Nanobiotechnology | 2020 | 176 |
| 4 | Effect of nanosilica and silicon sources on plant growth promoting rhizobacteria, soil nutrients and maize seed germination | IET Nanobiotechnology | 2013 | 139 |
| 5 | Application of silica nanoparticles in maize to enhance fungal resistance | IET Nanobiotechnology | 2014 | 138 |
| 6 | Biomimetic synthesis of silver nanoparticles from Streptomyces atrovirens and their potential anticancer activity against human breast cancer cells | IET Nanobiotechnology | 2017 | 123 |
| 7 | AC electrothermal manipulation of conductive fluids and particles for lab-chip applications | IET Nanobiotechnology | 2007 | 119 |
| 8 | Analytical electric field and sensitivity analysis for two microfluidic impedance cytometer designs | IET Nanobiotechnology | 2007 | 108 |
| 9 | Plants as potential synthesiser of precious metal nanoparticles: progress and prospects | IET Nanobiotechnology | 2013 | 108 |
| 10 | Recent advances in microparticle continuous separation | IET Nanobiotechnology | 2008 | 94 |
| 11 | Medicinal plants mediated the green synthesis of silver nanoparticles and their biomedical applications | IET Nanobiotechnology | 2022 | 94 |
| 12 | Biological synthesis of manganese dioxide nanoparticles by Kalopanax pictus plant extract | IET Nanobiotechnology | 2015 | 91 |
| 13 | Electrospinning and electrospun nanofibres | IET Nanobiotechnology | 2014 | 89 |
| 14 | Biosynthesis and wound healing activity of copper nanoparticles | IET Nanobiotechnology | 2014 | 87 |
| 15 | Green synthesis of silver nanoparticles for selective toxicity towards cancer cells | IET Nanobiotechnology | 2015 | 87 |
| 16 | Dielectrophoretic detection of membrane morphology changes in Jurkat T-cells undergoing etoposide-induced apoptosis | IET Nanobiotechnology | 2007 | 84 |
| 17 | Nanodiagnostics: fast colorimetric method for single nucleotide polymorphism/mutation detection | IET Nanobiotechnology | 2007 | 84 |
| 18 | Digital microfluidic operations on micro-electrode dot array architecture | IET Nanobiotechnology | 2011 | 83 |
| 19 | Cytotoxic effects of MgO nanoparticles on human umbilical vein endothelial cells in vitro | IET Nanobiotechnology | 2011 | 82 |
| 20 | Green synthesis of silver nanoparticles using Mentha pulegium and investigation of their antibacterial, antifungal and anticancer activity | IET Nanobiotechnology | 2017 | 82 |
| 21 | Fungal xylanases‐mediated synthesis of silver nanoparticles for catalytic and biomedical applications | IET Nanobiotechnology | 2018 | 82 |
| 22 | Size‐dependent antimicrobial response of zinc oxide nanoparticles | IET Nanobiotechnology | 2014 | 79 |
| 23 | Biosynthesis of bimetallic and core–shell nanoparticles: their biomedical applications – a review | IET Nanobiotechnology | 2018 | 79 |
| 24 | Review: three synthesis methods of CdX (X = Se, S or Te) quantum dots | IET Nanobiotechnology | 2014 | 78 |
| 25 | Review on nanoadsorbents: a solution for heavy metal removal from wastewater | IET Nanobiotechnology | 2017 | 77 |
| 26 | Biogenic synthesis of nanostructured iron compounds: applications and perspectives | IET Nanobiotechnology | 2013 | 76 |
| 27 | Copper/copper oxide nanoparticles synthesis usingStachys lavandulifoliaand its antibacterial activity | IET Nanobiotechnology | 2017 | 76 |
| 28 | Plant‐mediated green synthesis of silver nanoparticles usingTrifolium resupinatumseed exudate and their antifungal efficacy onNeofusicoccum parvumandRhizoctonia solani | IET Nanobiotechnology | 2016 | 72 |
| 29 | Salicylic acid nanoparticles (SANPs) improve growth and phytoremediation efficiency of Isatis cappadocica Desv., under As stress | IET Nanobiotechnology | 2017 | 70 |
| 30 | Development of rapid oral bacteria detection apparatus based on dielectrophoretic impedance measurement method | IET Nanobiotechnology | 2011 | 68 |
| 31 | Nanobiotechnology and its applications in drug delivery system: a review | IET Nanobiotechnology | 2015 | 67 |
| 32 | Phoenix dactylifera (date palm) pit aqueous extract mediated novel route for synthesis high stable silver nanoparticles with high antifungal and antibacterial activity | IET Nanobiotechnology | 2015 | 67 |
| 33 | Interactions of electrical fields with fluids:laboratory-on-a-chip applications | IET Nanobiotechnology | 2008 | 66 |
| 34 | Development of a miniaturised drug delivery system with wireless power transfer and communication | IET Nanobiotechnology | 2007 | 65 |
| 35 | Green synthesis of gold nanoparticles using Citrus maxima peel extract and their catalytic/antibacterial activities | IET Nanobiotechnology | 2017 | 64 |
| 36 | Green synthesis of copper oxide nanoparticles and mosquito larvicidal activity against dengue, zika and chikungunya causing vector Aedes aegypti | IET Nanobiotechnology | 2018 | 63 |
| 37 | Discrimination and analysis of phytoplankton using a microfluidic cytometer | IET Nanobiotechnology | 2007 | 62 |
| 38 | Efficacy of green nanoparticles against cancerous and normal cell lines: a systematic review and meta‐analysis | IET Nanobiotechnology | 2018 | 62 |
| 39 | Dielectric and dielectrophoretic properties of DNA | IET Nanobiotechnology | 2009 | 61 |
| 40 | In vitro and in vivo antifungal properties of silver nanoparticles against Rhizoctonia solani , a common agent of rice sheath blight disease | IET Nanobiotechnology | 2017 | 61 |
| 41 | Green synthesis of silver nanoparticles from grape and tomato juices and evaluation of biological activities | IET Nanobiotechnology | 2017 | 61 |
| 42 | Metal nanoparticles synthesis through natural phenolic acids | IET Nanobiotechnology | 2019 | 61 |
| 43 | Biogenic synthesis of silver nanoparticles from Cassia fistula (Linn.): In vitro assessment of their antioxidant, antimicrobial and cytotoxic activities | IET Nanobiotechnology | 2016 | 60 |
| 44 | Biogenic copper nanoparticles promote the growth of pigeon pea ( Cajanus cajan L.) | IET Nanobiotechnology | 2017 | 60 |
| 45 | Optimisation of green synthesis of MnO nanoparticles via utilising response surface methodology | IET Nanobiotechnology | 2018 | 60 |
| 46 | Eco‐friendly synthesis of silver and gold nanoparticles with enhanced antimicrobial, antioxidant, and catalytic activities | IET Nanobiotechnology | 2018 | 60 |
| 47 | Influence of ZrO2, SiO2, Al2O3and TiO2nanoparticles on maize seed germination under different growth conditions | IET Nanobiotechnology | 2016 | 58 |
| 48 | Nanomicelles: Types, properties and applications in drug delivery | IET Nanobiotechnology | 2021 | 57 |
| 49 | FISH and chips: chromosomal analysis on microfluidic platforms | IET Nanobiotechnology | 2007 | 55 |
| 50 | Field‐programmable lab‐on‐a‐chip based on microelectrode dot array architecture | IET Nanobiotechnology | 2014 | 55 |
