RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: A phosphorescent probe for in vivo imaging in the second near-infrared window https://t.co/Z9dzbhXcvg https://t.co/GqXEQn8aIv
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tumour-specific imaging in the second near-infrared spectral window. https://t.co/D4EaXKJBm6 https://t.co/mV1btMto7r
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tumour-specific imaging in the second near-infrared spectral window. https://t.co/tmpzeC4g2u https://t.co/DCf3BcPaqY
This new phosphorescent #probe works in acidic pH and is suitable for invivo #imaging via #nanotubes: https://t.co/Nw1DwsQr2Y
Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tumour-specific imaging in the second near-infrared spectral window. https://t.co/h5HaCvJ0Fw https://t.co/OoBVsRKP11
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tumour-specific imaging in the second near-infrared spectral window. https://t.co/0yuIlZXiVw https://t.co/SNYJbptW5O
Congratulations to Dr. Zhen Cheng et al of @StanfordMIPS for this highlight by @natBME on their NIR-II developments.
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
RT @natBME: Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tum…
Glutathione-capped copper–indium–selenium nanotubes that display phosphorescence in acidic environments facilitate enhanced tumour-specific imaging in the second near-infrared spectral window. https://t.co/2DAu8mnDFh https://t.co/aEZsP12hcr
RT @natBME: A phosphorescent probe for in vivo imaging in the second near-infrared window https://t.co/Z9dzbhXcvg https://t.co/GqXEQn8aIv
A phosphorescent probe for in vivo imaging in the second near-infrared window https://t.co/Z9dzbhXcvg https://t.co/GqXEQn8aIv
New article: A phosphorescent probe for in vivo imaging in the second near-infrared window https://t.co/8TNqK031QI #breastcancer #oncology https://t.co/7AMFFKY5c6
RT @biophotonicat: A phosphorescent probe for in vivo imaging in the second near-infrared window (relevance: 82%) https://t.co/iRqqgjaS9b #…
RT @ChemistryNews: A phosphorescent probe for in vivo imaging in the second near-infrared window https://t.co/dOq4j5CGK4 https://t.co/7lW6f…
A phosphorescent probe for in vivo imaging in the second near-infrared window (relevance: 82%) https://t.co/iRqqgjaS9b #biophotonics #biomedicaloptics
RT @ChemistryNews: A phosphorescent probe for in vivo imaging in the second near-infrared window https://t.co/dOq4j5CGK4 https://t.co/7lW6f…
ChemistryNews: A phosphorescent probe for in vivo imaging in the second near-infrared window https://t.co/G5dHESpflM https://t.co/1X6SJfD0yE
A phosphorescent probe for in vivo imaging in the second near-infrared window https://t.co/dOq4j5CGK4 https://t.co/7lW6fQTdLu