2019
DOI: 10.1016/j.colsurfb.2019.04.063
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Polyaniline-grafted nanodiamonds for efficient photothermal tumor therapy

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Cited by 24 publications
(7 citation statements)
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“…In traditional solar–thermal energy conversion systems, metal nanoparticles are often used as solar-light absorbers to generate heat on the basis of their surface plasmonic effect, which are also used in the field of photothermal energy conversion and biomedicines. In addition, organic hydrogels could reduce the phase-change enthalpy of the water and hence improve their solar steam generation rates, , but their water transport rates could be an issue under concentrated solar irradiation . Besides, polypyrrole, , polyaniline, , graphene, graphite, carbon nanotube, , and MXene , have also been utilized as photothermal energy conversion materials because of their strong ability of absorbing solar light and converting solar energy to thermal energy. As reported, a black body is regarded as the most efficient solar-light absorber and emitter because it can absorb solar light without any reflection or transmission .…”
Section: Introductionmentioning
confidence: 99%
“…In traditional solar–thermal energy conversion systems, metal nanoparticles are often used as solar-light absorbers to generate heat on the basis of their surface plasmonic effect, which are also used in the field of photothermal energy conversion and biomedicines. In addition, organic hydrogels could reduce the phase-change enthalpy of the water and hence improve their solar steam generation rates, , but their water transport rates could be an issue under concentrated solar irradiation . Besides, polypyrrole, , polyaniline, , graphene, graphite, carbon nanotube, , and MXene , have also been utilized as photothermal energy conversion materials because of their strong ability of absorbing solar light and converting solar energy to thermal energy. As reported, a black body is regarded as the most efficient solar-light absorber and emitter because it can absorb solar light without any reflection or transmission .…”
Section: Introductionmentioning
confidence: 99%
“…The property of boron-doped NDs to heat a solvent under laser radiation (1-5 W/cm 2 ) opens broad prospects for their use to create nanoagents for medical oncology and local hyperthermia. Choi et al fabricated polyaniline grafted ND nanoparticles (PAN-ND) by polymerizing aniline on the surface of amine modified NDs for efficient PTT [122]. PAN-NDs have smaller particle sizes, are more rounded, and have higher cellular uptake efficiency compared to PAN nanoparticles.…”
Section: Photothermal and Photodynamic Therapy Based On Nanodiamondmentioning
confidence: 99%
“…Therefore, based on the advantages of organic CPs and inorganic NIR nanomaterials, it is of great prospect to design several types of NIR absorbing materials with a simple process, low price, and excellent photothermal treatment effects. In this regard, many types of research have been reported based on PANI-containing nanocomposites, aiming at obtaining nanomaterials with excellent compatibility, biostability, and strong NIR absorbance and thus outstanding PTT efficiency. , For example, Au/PANI core–shell nanocomposite, lanthanide-based upconversion NPs/PANI core–shell nanocomposite, PANI/porous silicon, graphene and Au NP core–PANI shell, surface-modified PANI NPs by Pluronic F127, etc.…”
Section: Conjugated Polymer-based Ptasmentioning
confidence: 99%
“…In this regard, many types of research have been reported based on PANI-containing nanocomposites, aiming at obtaining nanomaterials with excellent compatibility, biostability, and strong NIR absorbance and thus outstanding PTT efficiency. 60,61 For example, Au/PANI core−shell nanocomposite, 62 lanthanidebased upconversion NPs/PANI core−shell nanocomposite, 63 PANI/porous silicon, 64 graphene and Au NP core−PANI shell, 65 surface-modified PANI NPs by Pluronic F127, 66 etc.…”
Section: Conjugated Polymer-based Ptasmentioning
confidence: 99%