about
Charging and discharging of single colloidal particles at oil/water interfaces.Effects of pH and ionic strength on the stability of nanobubbles in aqueous solutions of alpha-cyclodextrin.Depletion attraction between a polystyrene particle and a hydrophilic surface in a pluronic aqueous solution.Revisit the complexation of PEI and DNA - how to make low cytotoxic and highly efficient PEI gene transfection non-viral vectors with a controllable chain length and structure?Dynamic and structural scalings of the complexation between pDNA and bPEI in semidilute and low-salt solutions.Revisit complexation between DNA and polyethylenimine - Effect of uncomplexed chains free in the solution mixture on gene transfection.Bacteria differently deploy type-IV pili on surfaces to adapt to nutrient availabilityFlagella and pili-mediated near-surface single-cell motility mechanisms in P. aeruginosa.Emergence of complex behavior in pili-based motility in early stages of P. aeruginosa surface adaptation.Liquid-crystalline ordering of antimicrobial peptide-DNA complexes controls TLR9 activation.A review of immune amplification via ligand clustering by self-assembled liquid-crystalline DNA complexes.Synergistically enhance magnetic resonance/fluorescence imaging performance of responsive polymeric nanoparticles under mildly acidic biological milieu.Bacteria use type IV pili to walk upright and detach from surfaces.Optogenetics Manipulation Enables Prevention of Biofilm Formation of Engineered Pseudomonas aeruginosa on Surfaces.Influence of an Additive-Free Particle Spreading Method on Interactions between Charged Colloidal Particles at an Oil/Water Interface.Bioprinting Living Biofilms through Optogenetic Manipulation.Quantitative study of effects of free cationic chains on gene transfection in different intracellular stages.Conditional privatization of a public siderophore enables Pseudomonas aeruginosa to resist cheater invasion.Helical antimicrobial peptides assemble into protofibril scaffolds that present ordered dsDNA to TLR9Observation of the first-order transition in ultrafiltration of flexible linear polymer chainsHeterogeneity in surface sensing suggests a division of labor in populationsSimultaneous Visualization of Multiple Gene Expression in Single Cells Using an Engineered Multicolor Reporter Toolbox and Approach of Spectral Crosstalk CorrectionDual-Color Fluorescent Timer Enables Detection of Growth-Arrested Pathogenic BacteriumImaging the Separation Distance between the Attached Bacterial Cells and the Surface with a Total Internal Reflection Dark-Field MicroscopeCorrection: Heterogeneity in surface sensing suggests a division of labor in Pseudomonas aeruginosa populations
P50
Q30577409-89AAC4E1-B7C6-4B3A-B5B1-0ED386687283Q33299563-773E9D2E-51BD-4717-ADB8-488CD289893BQ33429196-BB7A06CB-E8F8-43E8-902F-5A9ADC532C36Q33485618-2711AF6D-5487-412F-B57A-B8EF14E3FF7AQ33529199-E60B2552-4EB2-477A-9277-F11B96B111F6Q33740338-090B3E55-287C-4165-9788-7F12D9E6C519Q33914889-0DA8333D-B9B3-4A25-BDCB-0E5B439E7ADAQ34772188-BD2C8AE5-741D-4559-82C8-CE49EF5B4EB5Q37743206-53C818A3-9B34-48F5-8590-7DBA63CD9197Q38298455-3699981C-D9B3-4B3D-9721-6446DD13CD04Q38766089-B2CC621F-06E0-45C6-94DA-10FADB67FC07Q44188305-ACCF2AD2-1D43-4057-A67B-B6E7DC0D7264Q45937762-2AB5053C-1308-457C-8928-8F561437B6F8Q47426492-62326471-CC83-43D4-8DE2-86F58308CD61Q51359002-3315BB47-5263-427E-968B-AEBF8DFC66EDQ52583238-6A7DE53D-EF13-4856-B552-EC1C85E64ED0Q53056762-5E23460E-6245-4879-81EC-6027AB17AEFFQ53412824-E757ED0E-7C64-4F93-AA26-EB231466DD19Q62659975-4823047F-43D3-4C79-AFE8-CFA9DD62C4F4Q79799451-2A5A15D3-D04D-40D0-A638-2A07DF4597D6Q83231576-470D3BE2-B503-421B-A5DD-387999F86C55Q90608944-FC083FBF-83AF-42DF-A3FE-9303B511954FQ91443798-0BBF9FEE-8388-4151-B57F-FDAEDC0381CEQ92717301-E2E3754D-CDBA-4463-8013-3A1D5F9426A0Q95840624-7F785871-08D0-46A7-A8E2-7403769F9616
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Fan Jin
@ast
Fan Jin
@en
Fan Jin
@es
Fan Jin
@nl
Fan Jin
@sl
type
label
Fan Jin
@ast
Fan Jin
@en
Fan Jin
@es
Fan Jin
@nl
Fan Jin
@sl
prefLabel
Fan Jin
@ast
Fan Jin
@en
Fan Jin
@es
Fan Jin
@nl
Fan Jin
@sl
P106
P1153
35315971100
P31
P496
0000-0003-2313-0388