Innovation in Layer-by-Layer Assembly

Richardson, Joseph J.; Cui, Jiwei; Björnmalm, Mattias; Braunger, Julia A.; Ejima, Hirotaka; Caruso, Frank

doi:10.1021/acs.chemrev.6b00627

Cited by 706 publications

(573 citation statements)

References 487 publications

(1,079 reference statements)

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“…Electrostatic layer-by-layer (LbL) assembly has proven to be a simple, green and effective method to produce various kinds of coatings [10][11][12] . It can provide sufficient control over the thickness (in nanoscales) and structure of the coating to obtain AR properties, and therefore, wavelengths for maximum transmittance (antireflection) can be turned over the entire visible region by simply controlling the number of deposited bilayers.…”

Section: Spin-lbl Assembled Coatings Of Sio 2 and Tio 2 Oppositely Chmentioning

confidence: 99%

“…It can provide sufficient control over the thickness (in nanoscales) and structure of the coating to obtain AR properties, and therefore, wavelengths for maximum transmittance (antireflection) can be turned over the entire visible region by simply controlling the number of deposited bilayers. Dip-LbL, Spray-LbL and Spin-LbL are often used to produce various ultra-thin coatings [7,10,13] . However, the drawback of DipLbL is time consuming; Spray-LbL is difficult to control the uniformity of a coating thickness.…”

Section: Spin-lbl Assembled Coatings Of Sio 2 and Tio 2 Oppositely Chmentioning

confidence: 99%

“…For this reason, we have employed a Spin-LbL assembly method to rapidly produce thin Antifogging (AF) and AR coatings [13] . [3,10] . Therefore we used them as building blocks for fabricating the coatings.…”

Section: Spin-lbl Assembled Coatings Of Sio 2 and Tio 2 Oppositely Chmentioning

confidence: 99%

See 2 more Smart Citations

Spin-LbL Assembled Coatings of SiO2 and TiO2 oppositely Charged Nanoparticles for Superhydrophilicity, Antifogging and Antireflection

Fu¹,

Wang²,

Yang³

et al. 2017

JNMS

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Section: Spin-lbl Assembled Coatings Of Sio 2 and Tio 2 Oppositely Chmentioning

confidence: 99%

Section: Spin-lbl Assembled Coatings Of Sio 2 and Tio 2 Oppositely Chmentioning

confidence: 99%

See 1 more Smart Citation

Spin-LbL Assembled Coatings of SiO2 and TiO2 oppositely Charged Nanoparticles for Superhydrophilicity, Antifogging and Antireflection

Fu¹,

Wang²,

Yang³

et al. 2017

JNMS

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“…In addition, the microcapsule shell should disintegrate to release the encapsulated agents [16]. Layer-by-layer assembly particle systems have received intense and growing attention in the past few years, but the complex techniques required have seriously compromised their scale-up manufacturing and applications [17]. Hence, it is necessary to develop physically and chemically stable porous carriers for the surface coating industry.…”

Section: Introductionmentioning

confidence: 99%

Anti-Corrosive and Scale Inhibiting Polymer-Based Functional Coating with Internal and External Regulation of TiO2 Whiskers

Wang

et al. 2018

Coatings

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Abstract:A novel multi-functional carrier of mesoporous titanium dioxide whiskers (TiO 2 (w)) modified by ethylenediamine tetra (methylene phosphonic acid) (EDTMPA) and imidazoline was devised in epoxy coating to improve the anti-corrosion and scale inhibition properties of metal surface. Rigorous characterization using analytical techniques showed that a mesoporous structure was developed on the TiO 2 (w). EDTMPA and imidazoline were successfully grafted on the outer and inner surfaces of mesoporous TiO 2 (w) to synthesize iETiO 2 (w). The results demonstrated that the corrosion resistance of the final iETiO 2 (w) epoxy coating is 40 times higher than that of the conventional unmodified OTiO 2 (w) epoxy coating. The enhanced corrosion resistance of the iETiO 2 (w) functional coating is due to the chelation of the scaling cations by EDTMPA and electron sharing between imidazoline and Fe. Scale formation on the iETiO 2 (w) coating is 35 times lower than that on the unmodified OTiO 2 (w) epoxy coating. In addition, EDTMPA and imidazoline act synergistically in promoting the barrier property of mesoporous TiO 2 (w) in epoxy coating. It is believed that this novel, simple, and inexpensive route for fabricating functional surface protective coatings on various metallic materials will have a wide range of practical applications.

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“…Layer‐by‐layer (LbL) assembly is a powerful and versatile technique to facilely prepare multilayered materials and precisely tailor the surface properties with low‐cost laboratory equipment . To date, this green LbL method has been used in a broad spectrum of fields spanning from controlled delivery systems, tissue engineering, separation, energy storage devices to electronics and food packaging .…”

mentioning

confidence: 99%

A Biocompatible Multilayer Film from an Asymmetric Picolinium‐Containing Polycation with Fast Visible‐Light/NIR‐Degradability

Zhang

Zhou

Shen

et al. 2019

Macromol. Rapid Commun.

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Finely tuning the photodegradation behavior of the layer‐by‐layer (LbL) film from the view of controlling the chemical structure of the film‐building polymer is still a challenge in related fields. To meet this requirement, a photodegradable polymer (P1) is rationally designed for assembling a visible‐light‐degradable multilayer film with polystyrene sulfonate (PSS). Compared with similar photopolymers (P2 and P3), this asymmetric picolinium‐containing polymer can significantly enhance the degradation rate of as‐prepared LbL films; under the same degradation condition, the degradation rate of (P1/PSS)10 is 3 and 6.6 times that of (P2/PSS)10 and (P3/PSS)10, respectively. Moreover, near‐infrared light (NIR) is available for triggering the degradation of this film with the assistance of upconversion nanoparticles of YbTm@Lu. The cell cytotoxicity and cell proliferation experiments reveal that P1 is nontoxic and favorable for cell proliferation at concentrations of up to 500 μg mL−1. As for (PSS/P1)10 films, the ratio of cell number of these two samples ((PSS/P1)10 modified: photodegraded) increases dramatically and reaches about 1.67:1 after 72 h incubation. On the basis of these results, it is anticipated that P1 and this LbL film is an exceptional candidate for visible‐light/NIR degradable materials in materials and biological science, medicine, and optics.

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Innovation in Layer-by-Layer Assembly

Cited by 706 publications

References 487 publications

Spin-LbL Assembled Coatings of SiO2 and TiO2 oppositely Charged Nanoparticles for Superhydrophilicity, Antifogging and Antireflection

Spin-LbL Assembled Coatings of SiO2 and TiO2 oppositely Charged Nanoparticles for Superhydrophilicity, Antifogging and Antireflection

Anti-Corrosive and Scale Inhibiting Polymer-Based Functional Coating with Internal and External Regulation of TiO2 Whiskers

A Biocompatible Multilayer Film from an Asymmetric Picolinium‐Containing Polycation with Fast Visible‐Light/NIR‐Degradability

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