Probing the Contribution of Different Intermolecular Forces to the Adsorption of Spheroproteins onto Hydrophilic Surfaces

Borges, João; Campiña, José M.; Silva, A. Fernando

doi:10.1021/jp409238b

Cited by 6 publications

(9 citation statements)

References 67 publications

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“…Chit95 is rich in hydroxyl and amino groups, which interact with the hydrophilic residues in the outer regions of GOx ( protein cores are usually hydrophobic) to help maintain the biomolecule in its folded state. 42,56 (2) The enhanced redox response is consistent with the enhanced capacitive currents recorded in pure buffer (Fig. 3a).…”

Section: Stability and Catalytic Activity Of Goxsupporting

confidence: 79%

Reduced graphene oxide-nickel nanoparticles/biopolymer composite films for the sub-millimolar detection of glucose

Krishna

Campiña

Fernandes

et al. 2016

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Hybrid conjugates of graphene with metallic/semiconducting nanostructures can improve the sensitivity of electrochemical sensors due to their combination of well-balanced electrical/electrocatalytic properties and superior surface-to-volume ratio. In this study, the synthesis and physical characterization of a hybrid conjugate of reduced graphene oxide and nickel nanoparticles (rGO-Ni NPs) is presented. The conjugate was further deposited onto a glassy carbon electrode as a nanocomposite film of chitosan and glucose oxidase. The electrochemical response and morphology of the films were investigated using SEM, CV, and EIS, and their applications as a glucose biosensor explored for the first time in proof-of-concept tests. The low operating potential along with the good linearity and sensitivity (up to 129 μA cm(-2) mM(-1)) found in the sub-millimolar range suggest potential applications in the self-management of hypoglycemia from blood samples or in the development of non-invasive assays for body fluids such as saliva, tears or breath.

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Section: Stability and Catalytic Activity Of Goxsupporting

confidence: 79%

Reduced graphene oxide-nickel nanoparticles/biopolymer composite films for the sub-millimolar detection of glucose

Krishna

Campiña

Fernandes

et al. 2016

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“…Two critical parameters were examined during surface coating: (i) the polymer/MagAlg ratio and (ii) the pH of the components during mixing. These parameters are associated with the charge stoichiometry of the system (i.e., protonation/deprotonation of the amino and carboxyl groups) and the competition between electrostatic and nonelectrostatic forces, 54 which can induce irreversible clustering and aggregation of the colloids. 55 The pH of the starting solutions was adjusted at physiological pH 7.4 or alkaline pH 11 to obtain two products, termed MPEG-7 and MPEG-11, respectively.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Condensed Clustered Iron Oxides for Ultrahigh Photothermal Conversion and In Vivo Multimodal Imaging

Kolokithas-Ntoukas

Bakandritsos

Belza

et al. 2021

ACS Appl. Mater. Interfaces

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Magnetic iron oxide nanocrystals (MIONs) are established as potent theranostic nanoplatforms due to their biocompatibility and the multifunctionality of their spin-active atomic framework. Recent insights have also unveiled their attractive near-infrared photothermal properties, which are, however, limited by their low near-infrared absorbance, resulting in noncompetitive photothermal conversion efficiencies (PCEs). Herein, we report on the dramatically improved photothermal conversion of condensed clustered MIONs, reaching an ultrahigh PCE of 71% at 808 nm, surpassing the so‑far MION‑based photothermal agents and even benchmark near‑infrared photothermal nanomaterials. Moreover, their surface passivation is achieved through a simple self-assembly process, securing high colloidal stability and structural integrity in complex biological media. The bifunctional polymeric canopy simultaneously provided binding sites for anchoring additional cargo, such as a strong near-infrared-absorbing and fluorescent dye, enabling in vivo optical and photoacoustic imaging in deep tissues, while the iron oxide core ensures detection by magnetic resonance imaging. In vitro studies also highlighted a synergy-amplified photothermal effect that significantly reduces the viability of A549 cancer cells upon 808 nm laser irradiation. Integration of suchpreviously elusivephotophysical properties with simple and cost-effective nanoengineering through self-assembly represents a significant step toward sophisticated nanotheranostics, with great potential in the field of nanomedicine.

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“…In addition, larger proteins bind more strongly and can even repel pre-adsorbed proteins during post-adsorption spreading. [66]…”

Section: Resultsmentioning

confidence: 99%

Tuning cell adhesive properties via layer-by-layer assembly of chitosan and alginate

et al. 2017

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Understanding the mechanisms controlling cell-multilayer film interactions is crucial to the successful engineering of these coatings for biotechnological and biomedical applications. Herein, we present a strategy to tune the cell adhesive properties of multilayers based on marine polysaccharides with and without cross-linking and/or coating with extracellular matrix proteins. Chemical cross-linking of multilayers improved mechanical properties of the coatings but also elicited changes in surface chemistry that alter the adhesion of human umbilical vein endothelial cells. We evaluated a strategy to decouple the mechanical and chemical properties of these films, enabling the transition from cell-adhesive to cell-resistant multilayers. Addition of chitosan/alginate multilayers on top of cross-linked films decreased endothelial cell adhesion, spreading, and proliferation to similar levels as uncross-linked films. Our findings highlight the key role of surface chemistry in cell-multilayer film interactions, and these engineered nanocoatings represent a tunable model of cell adhesive and non-adhesive multilayered films.

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Probing the Contribution of Different Intermolecular Forces to the Adsorption of Spheroproteins onto Hydrophilic Surfaces

Cited by 6 publications

References 67 publications

Reduced graphene oxide-nickel nanoparticles/biopolymer composite films for the sub-millimolar detection of glucose

Reduced graphene oxide-nickel nanoparticles/biopolymer composite films for the sub-millimolar detection of glucose

Condensed Clustered Iron Oxides for Ultrahigh Photothermal Conversion and In Vivo Multimodal Imaging

Tuning cell adhesive properties via layer-by-layer assembly of chitosan and alginate

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