Omnidispersible Microscale Colloids with Nanoscale Polymeric Spikes

Montjoy, Douglas G.; Hou, Hechuan; Bahng, Joong Hwan; Kotov, Nicholas A.

doi:10.1021/acs.chemmater.0c02472

Cited by 9 publications

(10 citation statements)

References 60 publications

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“…The development of catalysts and catalytical systems requires particular attention. 61,[86][87][88] The integration of multiple reaction steps into one system, including CO 2 capture, is of particular interest. 61,89,90 Engineered materials Fundamentally, the conversion of CO 2 into carbon black and derived solid carbon products opens extensive market opportunities.…”

Section: Paper Faraday Discussionmentioning

confidence: 99%

Spiers Memorial Lecture: CO₂ utilization: why, why now, and how?

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2021

Faraday Discuss.

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Section: Paper Faraday Discussionmentioning

confidence: 99%

Spiers Memorial Lecture: CO₂ utilization: why, why now, and how?

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2021

Faraday Discuss.

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“…Nanostructured materials are one of the most studied research subject to date in Science. They are used, for example, in chemical synthesis, catalysis, drug delivery, sensors, optics, energy systems, mechanics and also in wetting properties [1][2][3][4][5][6] . In Nature, some species can have similar hydrophobic properties but with very different water adhesion [7] .…”

Section: Introductionmentioning

confidence: 99%

Formation of Nanotubular Structures with Petal Effect by Soft-Template Electropolymerization of Benzotrithiophene with Hydrophilic Carboxyl Group

et al. 2022

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The bioinspiration is one of the best ways to make a breakthrough in a field, and particularly in the wetting properties. Bioinspired by natural species such as rose petals and gecko foot and previous researches, nanotubular structures are prepared here by soft-template electropolymerization in organic solvent and using an original benzotrithiophene with a hydrophilic carboxyl group, as the monomer. The best results are obtained by cyclic voltammetry because of a much higher amount of gas bubbles released with this deposition method. Both nanoparticles and nanotubes are observed while the water content has an influence on the number of nanotubes. Even if the monomer has hydrophilic carboxyl group, the best films have both high hydrophobicity (apparent water contact angle up to 130.7°) and strong water adhesion (petal effect). These surfaces could be used in the future in applications such as water harvesting systems.

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“…Controlling the shape of surface structures is fundamental for various applications including optical and electronical devices, sensors, catalysis, membranes and surface wetting properties. [1][2][3][4] Ordered surface structures are omnipresent in Nature as reported for example for the cicada wings able to both repel water and kill bacteria, or for the gecko known for its strong adhesion to substrates and surface hydrophobicity. [5][6][7][8][9][10] Among the surface structures, nanotubes were reported as unique surface structures with tunable surface hydrophobicity and water/substrate adhesion.…”

Section: Introductionmentioning

confidence: 99%

Tunable Nanoporous Structures with Rose Petal Effect by Soft‐Template Electropolymerization of Benzotrithiophene Monomers

et al. 2022

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Here, various original benzotrithiophene-based monomers are synthesized and studied for their capacity to form nanoporous structures by soft-template electropolymerization in organic solvent while studying the influence of water (H 2 O). Here, nanoporous structures are especially observed in solvent saturated with H 2 O, while the substituent has in influence especially on the size of the porous structures. The highest hydrophobic properties Θ w = 141.1°are obtained with perfluorooctyl chains (BTT-F 8 ), which leads to a huge number of nanoporous structures of extremely small size. Moreover, the surfaces have also strong water adhesion comparable to rose petals or gecko foot and could be used in future applications in water harvesting systems.

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Omnidispersible Microscale Colloids with Nanoscale Polymeric Spikes

Cited by 9 publications

References 60 publications

Spiers Memorial Lecture: CO₂ utilization: why, why now, and how?

Spiers Memorial Lecture: CO₂ utilization: why, why now, and how?

Formation of Nanotubular Structures with Petal Effect by Soft-Template Electropolymerization of Benzotrithiophene with Hydrophilic Carboxyl Group

Tunable Nanoporous Structures with Rose Petal Effect by Soft‐Template Electropolymerization of Benzotrithiophene Monomers

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Omnidispersible Microscale Colloids with Nanoscale Polymeric Spikes

Cited by 9 publications

References 60 publications

Spiers Memorial Lecture: CO2 utilization: why, why now, and how?

Spiers Memorial Lecture: CO2 utilization: why, why now, and how?

Formation of Nanotubular Structures with Petal Effect by Soft-Template Electropolymerization of Benzotrithiophene with Hydrophilic Carboxyl Group

Tunable Nanoporous Structures with Rose Petal Effect by Soft‐Template Electropolymerization of Benzotrithiophene Monomers

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Product

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Spiers Memorial Lecture: CO₂ utilization: why, why now, and how?

Spiers Memorial Lecture: CO₂ utilization: why, why now, and how?