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A Bis(terpyridine)nickel(II)-Based Coordination Nanosheet: A Redox-Active Materials with Flexibility and Transparency

Fig. 2f from Kenji Takada et al. 2024 “A Bis(terpyridine)nickel(II)-Based Coordination Nanosheet: A Redox-Active Material with Flexibility and Transparency” Synthesis and morphology identification of 1-Ni. f Topographic AFM image of 1-Ni on a flat Si substrate and the cross-sectional analysis inset For the full figure please refer to the cited article. NANOSENSORS PointProbe Plus® PPP-NCL AFM probes were used for the characterization with atomic force microscopy.

Since the discovery of graphene, extensive studies have revealed various types of novel two-dimensional polymers such as transition metal dichalcogenides, covalent organic frameworks, and carbon… Read More »A Bis(terpyridine)nickel(II)-Based Coordination Nanosheet: A Redox-Active Materials with Flexibility and Transparency

Monitoring SARS-CoV-2 Surrogate TGEV Individual Virions Structure Survival under Harsh Physicochemical Environments

Figure 3 from “Monitoring SARS-CoV-2 Surrogate TGEV Individual Virions Structure Survival under Harsh Physicochemical Environments” by Miguel Cantero et al.: Treatment of TGEV with IGEPAL 0.2% (A). Topographical images before (left) and after (right) IGEPAL treatment (B). Profiles traced over the particles before (black) and after (blue) the treatment. The time interval between images was ~30 s (C). Height distribution of TGEV particles before (black) and after (blue) treatment (n = 103). Counts taken from the distribution curve were normalized for comparison. The peak shifts from the value of the intact particle height to the height of the cores. NANOSENSORS uniqprobe qp-BioAC AFM probes were used for the atomic force microscopy measurements.

Successful airborne transmission of coronaviruses through fluid microdroplets requires a virion structure that must withstand harsh natural conditions. * Because of the strict biosafety requirements… Read More »Monitoring SARS-CoV-2 Surrogate TGEV Individual Virions Structure Survival under Harsh Physicochemical Environments