| scholarly article | Q13442814 |
| P6179 | Dimensions Publication ID | 1031618067 |
| P356 | DOI | 10.1007/S00894-012-1721-8 |
| P698 | PubMed publication ID | 23283544 |
| P2093 | author name string | Morteza Moghimiwaskasi | |
| Sepideh Ketabi | |||
| Seyed Majid Hashemianzadeh | |||
| P2860 | cites work | Equation of State Calculations by Fast Computing Machines | Q5384234 |
| Comparison of simple potential functions for simulating liquid water | Q26778447 | ||
| Cytotoxicity assessment of some carbon nanotubes and related carbon nanoparticle aggregates and the implications for anthropogenic carbon nanotube aggregates in the environment | Q28390484 | ||
| Biological toxicity and inflammatory response of semi-single-walled carbon nanotubes | Q28392447 | ||
| A review of carbon nanotube toxicity and assessment of potential occupational and environmental health risks | Q29615419 | ||
| Carbon nanotubes as multifunctional biological transporters and near-infrared agents for selective cancer cell destruction | Q33221340 | ||
| The emerging field of nanotube biotechnology | Q34530172 | ||
| Biomedical applications of functionalised carbon nanotubes | Q36020728 | ||
| Applications of carbon nanotubes in drug delivery | Q36289993 | ||
| Theoretical Evidence for the Stronger Ability of Thymine to Disperse SWCNT than Cytosine and Adenine: self-stacking of DNA bases vs their cross-stacking with SWCNT. | Q36944071 | ||
| A critical review of the biological mechanisms underlying the in vivo and in vitro toxicity of carbon nanotubes: The contribution of physico-chemical characteristics | Q37783302 | ||
| Free energy via molecular simulation: applications to chemical and biomolecular systems | Q38648060 | ||
| Carbon nanotubes as intracellular transporters for proteins and DNA: an investigation of the uptake mechanism and pathway | Q40340698 | ||
| Carbon nanotubes as intracellular protein transporters: generality and biological functionality | Q40429515 | ||
| First-principles study of physisorption of nucleic acid bases on small-diameter carbon nanotubes. | Q42728227 | ||
| Noncovalent sidewall functionalization of single-walled carbon nanotubes for protein immobilization | Q43754840 | ||
| Self-assembly of single-stranded RNA on carbon nanotube: polyadenylic acid to form a duplex structure | Q45877150 | ||
| Binding of DNA nucleobases and nucleosides with graphene | Q46349700 | ||
| Structures and interaction energies of stacked graphene-nucleobase complexes | Q46606169 | ||
| Targeted delivery of amphotericin B to cells by using functionalized carbon nanotubes | Q46683449 | ||
| Simulation of DNA bases in water: Comparison of the Monte Carlo algorithm with molecular mechanics force fields. | Q46950916 | ||
| Detection of trace Hg2+ via induced circular dichroism of DNA wrapped around single-walled carbon nanotubes. | Q54677825 | ||
| General atomic and molecular electronic structure system | Q56017006 | ||
| SiC Nanotubes: A Novel Material for Hydrogen Storage | Q56638644 | ||
| Formation of Silicon Carbide Nanotubes and Nanowires via Reaction of Silicon (from Disproportionation of Silicon Monoxide) with Carbon Nanotubes | Q58621837 | ||
| Theoretical Investigation on the Solubilization in Water of Functionalized Single-Wall Carbon Nanotubes | Q58910695 | ||
| DNA-assisted dispersion and separation of carbon nanotubes | Q73263504 | ||
| The solvation study of carbon, silicon and their mixed nanotubes in water solution | Q83310113 | ||
| Toxicity of silicon carbide nanowires to sediment-dwelling invertebrates in water or sediment exposures | Q83390812 | ||
| P433 | issue | 4 | |
| P921 | main subject | computer simulation | Q925667 |
| P304 | page(s) | 1605-1615 | |
| P577 | publication date | 2013-01-03 | |
| P1433 | published in | Journal of Molecular Modeling | Q1709860 |
| P1476 | title | Study of DNA base-Li doped SiC nanotubes in aqueous solutions: a computer simulation study | |
| P478 | volume | 19 |
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