CLONABLE SELENIUM NANOPARTICLES: IN SITU PROTEIN LABELING FOR BIOLOGICAL MICROSCOPY
Biological microscopic studies, once revolutionized by the discovery of clonable fluorophores like Green Fluorescent Protein (GFP), engender foundational evidence for cellular processes via in [...]
Studying Radiation Stability of a Thorium–Binaphthol Metal–Organic Framework
Literature Seminar Metal organic frameworks (MOF) have become of interest for application in radioactive environments as studies have shown γ-irradiation resistance in MOFs. MOFs are [...]
Ram Welcome 2020
Materials Seminar Series Orientation
Join Zoom Meeting https://zoom.us/j/92396827077?pwd=ZHMrSU5ZNFgwSklQZlJ6VFlCMEVTdz09 Meeting ID: 923 9682 7077 Passcode: 625136 Join by SIP 92396827077@zoomcrc.com
How to discover new solids containing alkali metals: predictive screening, facile synthesis and in situ studies
Materials discovery can be accelerated by the development of synthesis methods and in-situ characterization techniques allowing for the rapid “screening” of multicomponent systems, [...]
Analytical Division Poster Session
Analytical Division Poster Session Links to presentations: TBA
Activity-based Ratiometric FRET Probe Reveals Oncogene-Driven Changes in Labile Copper Pools Induced by Altered Glutathione Metabolism
Literature Seminar Cellular labile copper(I) as dynamic and loosely bound Cu(I) stores play an important role in cell signaling. Current fluorescent has the inconsistency issue in qualitative [...]
APPLICATION OF 1H-NMR SPECTROSCOPY TO DETERMINE THE PRESENCE OF ORGANIC COMPOUNDS IN WASTEWATER
Literature Seminar The Eastern Cape of South Africa has experienced a major water crisis in recent years, which could lead to desperation and the consumption of river water by economically [...]
Brillouin confocal microscopy for non-invasive 3D imaging of biomechanical properties
Literature Seminar Biomechanical properties of cells have emerged as an important indicator in characterizing cancer tumor progression. Traditional biomechanical techniques are quite limited. [...]