Robust, versatile, green and emerging Layer-by-Layer Self-Assembly platform for solar energy conversion

Liu, Bi‐Jian; Chen, Qing; Mo, Qiao‐Ling; Xiao, Fang‐Xing

doi:10.1016/j.ccr.2023.215285

Cited by 9 publications

(2 citation statements)

References 151 publications

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“…Among the host materials, metal-oxide nanosheets with their unique microstructure and high surface area can be advantageous for various chemical reactions, catalysis, and energy storage applications. [9][10][11][12][13][14][15][16] In particular, ruthenium oxide nanosheets demonstrate potential as a host material for energy storage applications owing to their excellent electrical and chemical properties. [17][18][19][20][21][22][23][24][25] Herein, ruthenium oxide nanosheets were introduced as a host material for the intercalation of Keggin-Al 13 ions.…”

Section: Introductionmentioning

confidence: 99%

Exfoliation and restacking route to Keggin-Al₁₃-treated layered ruthenium oxide for enhanced lithium ion storage performance

Lee,

Park,

Paek

2024

New J. Chem.

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Section: Introductionmentioning

confidence: 99%

Exfoliation and restacking route to Keggin-Al₁₃-treated layered ruthenium oxide for enhanced lithium ion storage performance

Lee,

Park,

Paek

2024

New J. Chem.

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“…or weak interaction forces (such as electrostatic attraction, hydrogen bond, coordination bond, etc.) between groups on a suitable template to drive the target compound to spontaneously form a film with complete structures, stable performances, and unique functions on the template [24][25][26][27]. The LBL technology has no limitation on the substrate, and can achieve controllable surface parameters and film thickness.…”

Section: Introductionmentioning

confidence: 99%

The layer-by-layer assembled ERGO+/ERGO− multilayer modified electrode for sensitive detection of dopamine

Lin,

Mo,

Dai

et al. 2024

Mater. Res. Express

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Graphene materials represented by graphene oxide (GO) have been widely regarded as functional coatings or films to modify surface of the electrode for detecting dopamine molecules. However, interfacial material properties for detection sensitivity, film stability, and applicability to electrodes are still highly desired. Herein, we first present a screen-printing carbon electrode (SPCE) coated with an electrochemically reduced layer-by-layer (LbL) assembled multilayer driven by an electrostatic interaction between positively charged polyethyleneimine-modified GO with amine groups (ERGO+) and negatively charged carboxyl-functionalized GO (ERGO-), which is briefly described as (ERGO+/ERGO-)n/SPCE. Firstly, without using conventional glassy carbon and gold electrodes, SPCE was tried to make coatings adapt to more flexible and unstable electrodes, simultaneously guaranteeing higher detection performance. Secondly, although a variety of electrochemical sensors such as GO-/SPCE and ERGO-/SPCE were obtained through the drop-casting technique, as-prepared (ERGO+/ERGO-)n/SPCE showed much higher electrocatalytic activities with enhanced peak current signals and reduced charge transfer resistance. Finally, excellent electrochemical properties and sensing performances of the (ERGO+/ERGO-)n/SPCE sensor for detection of dopamine were demonstrated, especially having a linear range of 1 μM to 1000 μM. Meanwhile, the detection limit is as low as 0.39 μM and S/N is equal to 3. The present work offers a potential direction to develop GO modified electrodes for sensitive biomolecular detection.

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Advances and opportunities of polydopamine coating in biosensing: Preparation, functionality, and applications

Gao,

Zhang,

Pedrero

et al. 2024

Coordination Chemistry Reviews

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Robust, versatile, green and emerging Layer-by-Layer Self-Assembly platform for solar energy conversion

Cited by 9 publications

References 151 publications

Exfoliation and restacking route to Keggin-Al₁₃-treated layered ruthenium oxide for enhanced lithium ion storage performance

Exfoliation and restacking route to Keggin-Al₁₃-treated layered ruthenium oxide for enhanced lithium ion storage performance

The layer-by-layer assembled ERGO+/ERGO− multilayer modified electrode for sensitive detection of dopamine

Advances and opportunities of polydopamine coating in biosensing: Preparation, functionality, and applications

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Robust, versatile, green and emerging Layer-by-Layer Self-Assembly platform for solar energy conversion

Cited by 9 publications

References 151 publications

Exfoliation and restacking route to Keggin-Al13-treated layered ruthenium oxide for enhanced lithium ion storage performance

Exfoliation and restacking route to Keggin-Al13-treated layered ruthenium oxide for enhanced lithium ion storage performance

The layer-by-layer assembled ERGO+/ERGO− multilayer modified electrode for sensitive detection of dopamine

Advances and opportunities of polydopamine coating in biosensing: Preparation, functionality, and applications

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Product

Resources

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Exfoliation and restacking route to Keggin-Al₁₃-treated layered ruthenium oxide for enhanced lithium ion storage performance

Exfoliation and restacking route to Keggin-Al₁₃-treated layered ruthenium oxide for enhanced lithium ion storage performance