Jan 29, 2022 · The fluorescent 2.0G PAMAM-DCM PDs show a great Fe 3+ sensing property with the detection limit of 56.6 nM, which is much lower than the safety limits (5.36 μM ...

The quantum yield achieved was 32.1%, which was 25 times stronger than that of 2.0G PAMAM due to the lone-pair electron leap of the amine groups ...

Jul 25, 2024 · In addition, the fluorescent 2.0G PAMAM-DCM PDs show a great Fe3+ sensing property with the detection limit of 56.6 nM, which is much lower than ...

The authors report blue-and-green photoluminescence from polyamine-amine (PAMAM)treated with dichloromethane as a cross-linker that can specifically detect Fe3+ ...

In this work, we prepared blue fluorescent PAMAM polymer dots (PDs) via a simple hydrothermal method based on dichloromethane (DCM) and 2.0G PAMAM. The quantum ...

Intrinsic Blue Fluorescence of 2.0G PAMAM-DCM Polymer Dots and Its Applications for Fe3+ Sensing. Sensors Pub Date : 2022-01-30. DOI : 10.3390/s22031075.

Xin Wang's 4 research works with 13 citations, including: Intrinsic Blue Fluorescence of 2.0G PAMAM-DCM Polymer Dots and Its Applications for Fe3+ Sensing.

A study using quantum chemical theory methods on the intrinsic fluorescence emission and the possible emission mechanisms of PAMAM.

Intrinsic Blue Fluorescence of 2.0G PAMAM-DCM Polymer Dots and Its Applications for Fe3+ Sensing. Sensors 22(3): 1075 (2022). [c3]. view. electronic edition ...

New insights into the blue intrinsic fluorescence of oxidized PAMAM dendrimers considering their use as bionanomaterials. · Intrinsic Blue Fluorescence of 2.0G ...