6 research outputs found
Switchable sol-gel transition controlled by ultrasound and body temperature
<p>Herein, we reported a new kind of naphthalimide-based derivative (<b>N1</b>), which could undergo direct sol–gel transition accelerated by ultrasound in 2-methoxyethanol. The gels are very sensitive to the body temperature in the range from 35 to 42 °C, which is the scope range of clinical thermometer. The gel-to-sol transition temperatures enhanced with the increased concentrations of the gels. The reversible gel-sol transition, together with emission intensity and morphological changes, controlled by body temperature and ultrasound could be repeated by many circles without fatigue. Therefore, the gel could be developed to an ideal sensor for detecting human body temperature.</p
Cyclodextrin-Assisted Two-Component Sonogel for Visual Humidity Sensing
In this work, two naphthalimide-based
compounds, <b>1a</b> and <b>1b</b>, have been designed
and synthesized. Both compounds can form stable two-component gels
in <i>n</i>-propanol or <i>n</i>-butanol upon
addition of α-cyclodextrin (α-CD) followed by sonication
at room temperature. Interestingly, the <b>1a</b>/α-CD
gel is thixotropic and very sensitive to water. Addition of a small
amount of water induces rapid gel collapse, allowing further development
of the gel as a visual relative humidity sensor. Specificity of the
sensor has been confirmed using several approaches, such as scanning
electron microscopy and fluorescence, Fourier transform infrared,
and <sup>1</sup>H NMR spectroscopy experiments. The results show that
α-CD acts as a junction for the assembly of <b>1a</b> or <b>1b</b> through hydrogen bonding between hydroxyl and amide groups.
Upon addition of water, α-CD interacts with the adamantane group
of <b>1a</b> via an incomplete host–guest encapsulation,
resulting in the dissociation of the hydrogen-bonding-assisted two-component
assembly, accompanied by gel collapse
Visual Recognition of Aliphatic and Aromatic Amines Using a Fluorescent Gel: Application of a Sonication-Triggered Organogel
A naphthalimide-based
fluorescent gelator (<b>N1</b>) containing
an alkenyl group has been designed and characterized. This material
is able to gelate alcohols via a precipitate-to-gel transformation
when triggered with ultrasound for less than 2 min (S-gel). The gelation
process in <i>n</i>-propanol was studied by means of absorption,
fluorescence, and IR spectra, scanning electron microscopy (SEM) images,
and X-ray diffraction patterns. The fluorescence intensity of <b>N1</b> decreased during the gelation process in a linear relationship
with the sonication time. The S-gel of <b>N1</b> could be used
to sense aliphatic and aromatic amines by measuring the change in
the signal output. For example, the addition of propylamine to the
S-gel of <b>N1</b> resulted in a dramatic enhancement of the
fluorescence intensity, accompanied by a gel-to-sol transition. On
the contrary, when the S-gel of <b>N1</b> was treated with aromatic
amines such as aniline, fluorescence was quenched and there was no
gel collapse. The sensing mechanisms were studied by <sup>1</sup>H
NMR, small-angle X-ray scattering, SEM and spectroscopic experiments.
It is proposed that isomerization of the alkenyl group of <b>N1</b> from the trans to cis form occurs when the S-gel is treated with
propylamine, resulting in a gel–sol transition. However, the
aromatic aniline molecules prefer to insert into the gel networks
of <b>N1</b> via hydrogen-bonding and charge-transfer interactions,
maintaining the gel state. As potential applications, testing strips
of <b>N1</b> were prepared to detect aniline
Additional file 3: of Follow-up of the manganese-exposed workers healthy cohort (MEWHC) and biobank management from 2011 to 2017 in China
Table S2. Summary of the number of samples deposited in the biobank obtained from the heavy-metal cohort (MEWHC) initiated in 2011. (PDF 89 kb
Additional file 1: of Follow-up of the manganese-exposed workers healthy cohort (MEWHC) and biobank management from 2011 to 2017 in China
Table S1. Air monitoring of different workshops and jobs in the ferro-Mn alloy production plant in 2017. (PDF 107 kb
Additional file 2: of Follow-up of the manganese-exposed workers healthy cohort (MEWHC) and biobank management from 2011 to 2017 in China
Supplementary information for the biobank of the MEWHC. (PDF 398 kb