76 skills found · Page 1 of 3
henniggroup / MPInterfacesPython package that enables high throughput analysis of interfaces(two dimensional materials, hetero-structures, nanoparticles with and without ligands/solvents).
PaulKlinger / Mrna Vaccine BadgeA small badge showing a schematic of an mRNA vaccine nanoparticle and blinking the RNA sequence of the Moderna or Pfizer vaccines.
Nikolaos-Matthaiakakis / MNPBEMMNPBEM is a toolbox for the simulation of metallic nanoparticles (MNP), using a boundary element method (BEM) approach.
mahdeslami11 / Mojtaba.laghaeiThe effect of magnetic nanoparticles used in MRI on liver enzymes
SASfit / SASfitA curve fitting program for small-angle scattering curves, mostly from SAXS and SANS experiments in analytical or biological chemistry. 📄https://doi.org/10.1107/S1600576722009037 📄https://doi.org/10.1107/S1600576717011979 📄https://doi.org/10.1107/S1600576715016544
ArdaGen / STEM Automated Nanoparticle Analysis YOLOv8 SAMS/TEM Automated Nanoparticle Analysis
EmilSkaaning / DeepStrucDeepStruc is a Conditional Variational Autoencoder which can predict the mono-metallic nanoparticle from a Pair Distribution Function.
Martini-Force-Field-Initiative / M3 Ionizable LipidsMartini 3 Building Blocks for Lipid Nanoparticle Design
Light-in-complex-nanostructures / RETOPRETOP is an free Matlab toobox that implements a near-to-far-field transformation for computing the radiation diagram. This transformation is implemented in many electromagnetic software, however for most of them, like COMSOL multiphysics, the transformation is restricted to object surrounded by uniform media (free space). RETOP operates for objects on substrates or buried in stratified media. It can be used to compute the radiation diagram in the superstrate and the substrate . The substrate may support guided modes or surface plasmon modes with metal layers. RETOP additionally computes the in-plane radiation diagram in the guided modes. It just needs the near-field (computed on a rectangular box that contains the object with any full-wave Maxwell’s solver) to compute the radiation diagrams. It is especially relevant for calculating the scattering of nanoparticle on substrates. Special attention is made to the interface with COMSOL Multiphysics.
schuberm / Dsmcmonte carlo of heat conduction from nanoparticle
jhalverson / NanotechnologyA C++ code and Python scripts used to simulate the self-assembly of nanoparticles that have been directionally functionalized by DNA.
Jlischner / MaxTBTools to help study and analyze the hot carrier generation and relaxation in plasmonic nanoparticles
pharmbio / Phil LNP ModellingPython code and jupyter notebooks to accompany the manuscript "Deep learning models for lipid-nanoparticle-based drug delivery"
JLeliaert / VinamaxA macrospin simulation tool for nanoparticles
BlauGroup / NanoParticleToolsNo description available
rybakov-ks / ParticleAnalyzerA Computer Vision-Based Tool for Automatic Segmentation and Size Analysis of Nanoparticles in Scanning Electron Microscope (SEM) and Transmission Electron Microscope (TEM) Images
mosdef-hub / Nanoparticle OptimizationNanoOpt: Deriving potentials for coarse-grained nanoparticles via potential-matching
refetaliyalcin / ColorRCMCColored Radiative Cooling Coatings with Nanoparticles
djdt / SpcalspICP-MS calculator.
lavakyan / Ase BimetallCollection of ASE (Atomic Simulation Environment) Scripts for Bimetallic Nanoparticles
