2019
DOI: 10.1021/acs.est.9b05335
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Graphene Oxide-Functionalized Membranes: The Importance of Nanosheet Surface Exposure for Biofouling Resistance

Abstract: Surface functionalization using two-dimensional (2D) graphene oxide (GO) materials is a promising technique to enhance the biofouling resistance of membranes used in water purification and reuse. However, the role of GO exposure, which is crucial for the contact-mediated toxicity mechanism, has not been well evaluated or elucidated in previous studies. Herein, we employ bioinspired polydopamine chemistry to fabricate GO-functionalized membranes through two strategies: coating and blending. The two types of GO-… Show more

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Cited by 54 publications
(42 citation statements)
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“…Increasing GNP concentration increased the chances of exposing platelets at the surface and thus the contact with bacteria. This correlates with the literature that states the importance of GBM sheets orientation, exposure and concentration on the antibacterial performance of surfaces integrating GBM [40,83]. Therefore, increasing platelets exposure increased contact with bacteria, which consequently seemed to potentiate the effects of the sharp edges and basal planes of the GNP platelets, either due to disruption of the cell membrane [36,84] or oxidative stress induction [41,85].…”
Section: Pu/gnp Coatingssupporting
confidence: 87%
See 1 more Smart Citation
“…Increasing GNP concentration increased the chances of exposing platelets at the surface and thus the contact with bacteria. This correlates with the literature that states the importance of GBM sheets orientation, exposure and concentration on the antibacterial performance of surfaces integrating GBM [40,83]. Therefore, increasing platelets exposure increased contact with bacteria, which consequently seemed to potentiate the effects of the sharp edges and basal planes of the GNP platelets, either due to disruption of the cell membrane [36,84] or oxidative stress induction [41,85].…”
Section: Pu/gnp Coatingssupporting
confidence: 87%
“…This affects the way GBM are deposited and oriented on the surface, thus impacting bacteria-GBM interaction and ultimately the antibacterial activity of the surfaces [40]. This relation of GBM exposure with the antibacterial activity of GBM-containing surfaces has been suggested in other studies, as recently by Cheng et al [83]. Even though antibacterial activity has been observed both when basal planes [84][85][86] or sharp edges are exposed [87], a direct contact between bacteria and the surface must occur, as reinforced by the absence of antibacterial effects both on the bacteria incubated with the composites and on bacteria collected in the supernatant with both surfaces.…”
Section: Pu/gnp Coatingsmentioning
confidence: 68%
“…The adhesive properties of PDA coatings can also be exploited to graft graphene-based materials onto various surfaces or to secure strong interactions within a composite matrix, such as with polymers [198] or cloth. [43] Notably, this can be achieved without altering the properties of the substrate, such as the periodic-structure-dependent optical properties of photonic crystal nanoparticles when GO nanosheets are immobilized on its surface using a PDA interlayer (Figure 10a).…”
Section: (16 Of 26)mentioning
confidence: 99%
“…Hence, the exposure of GMs in the coating surface is crucial. [ 34 ] In addition, GMs have a large surface area that is beneficial when loading with other nanoparticles, which can enhance antifouling property due to the synergistic effect. [ 35 ] GMs and bacteria both have negative charges in a marine environment.…”
Section: Antifouling Mechanisms Of Gms and Gms‐based Coatingsmentioning
confidence: 99%
“…As discussed in Section 2, the exposure of GMs in the coating surface is crucial for their antifouling activity. [ 34 ] As a result, the search for new suitable matrix materials and fabrication methods may be emphasized in future studies.…”
Section: Applications Of Graphene For Combating Marine Biofoulingmentioning
confidence: 99%