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Smart Nano-objects for Alteration of Lipid bilayers (SNAL) Initial Training Network is a multidisciplinary EU-funded 7th Framework Programme specially designed to provide scientific and transferable skill training and career development for early stage researchers and experienced researchers in the field of lipid research.

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  • Simulations of Protein Adsorption on Nanostructured Surfaces
  • The Interaction of Giant Unilamellar Vesicles (GUVs) with the Surface Nanostructures on Dragonfly Wings
  • High-Throughput 3D Visualization of Nanoparticles attached to the Surface of Red Blood Cells
  • Tension-Induced Translocation of Ultra-Short Carbon Nanotube through a Phospholipid Bilayer
  • Kinetic evolution of DOPC lipid bilayers exposed to α-cyclodextrins
  • Bridging molecular simulation models and elastic theories for amphiphilic membranes
  • High Aspect Ratio Nanostructures Kill Bacteria via Storage and Release of Mechanical Energy
  • Structure and Chemical Organization in Damselfly Calopteryx haemorrhoidalis Wings: A Spatially Resolved FTIR and XRF Analysis with Synchrotron Radiation
  • Antioxidant modified amphiphilic polymer improves intracellular cryoprotectant delivery and alleviates oxidative stress in HeLa cells
  • DPPC Bilayers in Solutions of High Sucrose Content

 

  • Simulations of Protein Adsorption on Nanostructured Surfaces
  • The Interaction of Giant Unilamellar Vesicles (GUVs) with the Surface Nanostructures on Dragonfly Wings
  • High-Throughput 3D Visualization of Nanoparticles attached to the Surface of Red Blood Cells
  • Tension-Induced Translocation of Ultra-Short Carbon Nanotube through a Phospholipid Bilayer
  • Kinetic evolution of DOPC lipid bilayers exposed to α-cyclodextrins
  • Bridging molecular simulation models and elastic theories for amphiphilic membranes
  • High Aspect Ratio Nanostructures Kill Bacteria via Storage and Release of Mechanical Energy
  • Structure and Chemical Organization in Damselfly Calopteryx haemorrhoidalis Wings: A Spatially Resolved FTIR and XRF Analysis with Synchrotron Radiation
  • Antioxidant modified amphiphilic polymer improves intracellular cryoprotectant delivery and alleviates oxidative stress in HeLa cells
  • DPPC Bilayers in Solutions of High Sucrose Content
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Vladimir Baulin
Vladimir Baulin
@vbaulin

I'll be speaking at #NFTLondon2022 - Attendees will be able to claim my personalised NFT Speaker Card during the event! nftlondon.sessionize…

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12:51 · 19/10/2022
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Vladimir Baulin
Vladimir Baulin
@vbaulin

Our new study suggests #microplastics can mechanically destabilize membranes of human red #blood #cells and stretch them out such that it may potentially affect their ability to transport #oxygen pnas.org/content/118…

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09:34 · 09/08/2021
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Vladimir Baulin
Vladimir Baulin
@vbaulin

Phys. Rev. Lett. 124, 038001 (2020) - Unexpected Cholesterol-Induced Destabilization of Lipid Membranes near Transmembrane Carbon Nanotubes journals.aps.org/prl…

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11:06 · 25/01/2020
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Vladimir Baulin
Vladimir Baulin
@vbaulin

Most read from the journal. twitter.com/biointer…

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15:29 · 08/04/2019
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Vladimir Baulin
Vladimir Baulin
@vbaulin

Simulations of Protein Adsorption on Nanostructured Surfaces dlvr.it/R1FvX5 pic.twitter.com/rG3T…

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09:18 · 21/03/2019
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Vladimir Baulin
Vladimir Baulin
@vbaulin

The Interaction of Giant Unilamellar Vesicles (GUVs) with the Surface Nanostructures on Dragonfly Wings dlvr.it/QwWZvT pic.twitter.com/90xK…

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11:58 · 12/01/2019
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Vladimir Baulin
Vladimir Baulin
@vbaulin

High-Throughput 3D Visualization of Nanoparticles attached to the Surface of Red Blood Cells dlvr.it/QvP3tM pic.twitter.com/OxM2…

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15:46 · 26/12/2018
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Vladimir Baulin
Vladimir Baulin
@vbaulin

Tension-Induced Translocation of Ultra-Short Carbon Nanotube through a Phospholipid Bilayer dlvr.it/QrlJhX pic.twitter.com/2xSe…

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07:52 · 21/11/2018
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Vladimir Baulin
Vladimir Baulin
@vbaulin

Kinetic evolution of DOPC lipid bilayers exposed to α-cyclodextrins dlvr.it/QZgHSm pic.twitter.com/SFN6…

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12:45 · 06/07/2018
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Vladimir Baulin
Vladimir Baulin
@vbaulin

Bridging molecular simulation models and elastic theories for amphiphilic membranes dlvr.it/QZMjfV pic.twitter.com/9vEd…

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19:59 · 03/07/2018
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SNAL Publications

Simulations of Protein Adsorption on Nanostructured Surfaces

The Interaction of Giant Unilamellar Vesicles (GUVs) with the Surface Nanostructures on Dragonfly Wings

High-Throughput 3D Visualization of Nanoparticles attached to the Surface of Red Blood Cells

Tension-Induced Translocation of Ultra-Short Carbon Nanotube through a Phospholipid Bilayer

Kinetic evolution of DOPC lipid bilayers exposed to α-cyclodextrins

Bridging molecular simulation models and elastic theories for amphiphilic membranes

ITN SNAL – Marie Curie Initial Training Network
ITN SNAL – Marie Curie Initial Training Network Copyright © 2023. FP7-peo-RGB

Coordinator: Dr. Vladimir Baulin

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