2019
DOI: 10.1016/j.msec.2019.04.078
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A thermo-responsive adsorbent-heater-thermometer nanomaterial for controlled drug release: (ZIF-8,EuxTby)@AuNP core-shell

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Cited by 51 publications
(41 citation statements)
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“…However, it's unrealistic to release drugs in the body at a high temperature, which will cause tissue burns. A thermal sensitive drug carrier (ZIF-8, EuxTby)@AuNP, was synthesized successfully to control the drug release at temperatures close to 37 °C 243 .…”
Section: Applications Of Mofs In Therapy and Drug Deliverymentioning
confidence: 99%
“…However, it's unrealistic to release drugs in the body at a high temperature, which will cause tissue burns. A thermal sensitive drug carrier (ZIF-8, EuxTby)@AuNP, was synthesized successfully to control the drug release at temperatures close to 37 °C 243 .…”
Section: Applications Of Mofs In Therapy and Drug Deliverymentioning
confidence: 99%
“…By studying the thermal controlledrelease behavior of (ZIF-8, Tb 20 )@AuNP/5-FU drug carrier system under three different conditions: 514.5 nm irradiation, 50 C water bath, and room temperature, it was found that: (ZIF-8, Tb 20 )@AuNP/5-FU releases up to 5.7 wt% of the drug in 300 s at room temperature, and the drug release increases to 7 wt% when placed in a water bath at 50 C for 300 s, while the release amount of the drug reaches 9.7% when irradiated for 300 s, so the use of photothermal conduction can better control the rate and amount of drug release. 80 6.2.5 Light response-controlled release. Combining ZIF-8 with a semiconductor photocatalyst can prepare a lightresponsive drug controlled release system, where the semiconductor photocatalyst will induce the system to generate a local pH gradient under the action of external light (the energy of irradiated photons is higher than the semiconductor band gap), so as to control the drug release.…”
Section: Zif-8@mesoporous Nanoparticle Compositesmentioning
confidence: 99%
“…Non-organic nanoparticles also can poses the core-shell structure by coating with other metals or polymers for additional stabilisation/functionality to use , for example, in drug delivery [57], imaging techniques [58], medicine [59] etc. Overall, the effects of surface topology and non-uniform charge distribution becomes very important on the nanometre length scale.…”
Section: Experimental Studies Of Nano-particle Interactionsmentioning
confidence: 99%