Wetting‐Controlled Localized Placement of Surface Functionalities within Nanopores

Ochs, Maria; Mohammadi, Reza; Vogel, Nicolas; Andrieu‐Brunsen, Annette

doi:10.1002/smll.201906463

Cited by 13 publications

(13 citation statements)

References 85 publications

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“…Andrieu-Brunsens Gruppe hat durch Steuerung der Oberflächenbenetzung und orthogonale Oberflächenchemie reaktive Polymere selektiv innerhalb der Poren von nanoporösem Silicaoberflächen angebracht. 53) Interessant für die Strukturbildung im Bulk erscheinen auch die Entwicklungen bei In-silico-Simulationen, die dazu beitragen, kinetische Prozesse während der Assemblierung zu verstehen. Dies schreiben etwa Rottler und Müller.…”

Section: Grenzflächen-und Bulkeigenschaftenunclassified

Trendbericht: Makromolekulare Chemie

Gröschel¹,

Träger²,

Brendel³

2021

Nachr Chem

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Wie das letzte Jahr zeigte, ist die Forschung über Polymere und ihre Aggregate wichtig, um die Coronapandemie einzudämmen. Darüber hinaus gab es in der makromolekularen Forschung eine Vielzahl an Neuerungen und wegweisende Entwicklungen, etwa bei Materialien und polymerbasierter Elektronik. Dieser Trendbericht umfasst nicht nur Highlights, sondern präsentiert auch die Forschungsinteressen des akademischen Nachwuchses.

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Section: Grenzflächen-und Bulkeigenschaftenunclassified

Trendbericht: Makromolekulare Chemie

Gröschel¹,

Träger²,

Brendel³

2021

Nachr Chem

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“…[ 143,185,186 ] It is not surprising that capillary forces and polarity in nanochannels influence the location of guest species. [ 187 ] This effect was investigated for titania clusters entrapped in the micropores of SBA‐15 silica. Three impregnations with small amounts of titanium isopropoxide in isopropanol were performed, leading to a filling of the microporosity while the mesopores were not affected.…”

Section: Selectivity Strategiesmentioning

confidence: 99%

Selective Modification of Hierarchical Pores and Surfaces in Nanoporous Materials

Tiemann

Weinberger

2020

Adv Materials Inter

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Tailor‐made ordered mesoporous materials bear great potential in numerous fields of application where large interfaces are required. However, the inherent surfacechemical properties of conventional materials, such as silica, carbon or organosilica, poses some limitations with respect to their application. Surface manipulation by functionalization with chemically more reactive groups is one way to improve materials for their desired purpose. Another approach is the design of high surface‐area composite materials. The surface manipulation, either by functionalization or by introducing guest species, can be performed selectively. This means that when several distinct, i.e. , hierarchical, types of surfaces or pore systems exist in a material, each of them may be chosen for manipulation. Several strategies can be identified to achieve this goal. Molecules or molecule assemblies can be utilized to temporarily protect pores or surfaces (soft protection), while manipulation occurs at the accessible sites. This approach is a recurring motive in this review and can also be applied to rigid template matrices (hard protection). Furthermore, the size of functionalization agents (size protection) and their reactivity/diffusion (kinetic protection) into the pores can also be utilized to achieve selectivity. In addition, challenges in the synthesis and characterization of selectively manipulated ordered mesoporous materials are discussed.

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“…In relation, organic media has been effective to control deposition of alike materials as CoO-NP 18 in PS-DVB, functionalization of porous solids with precise nanoscale resolution using individual localized wetting states 19 and, bene cial to impregnate metallic salts in alumina extrudates 15 using glycerol but, when physical a nity is not met at any level, alternative interactions as ones presented here are necessary.…”

Section: Introductionmentioning

confidence: 98%

Joining host/guest with contrary affinity at the nanoscale by chemical bonds or non-covalent interactions with organic media under diffusion: control of embedded versus exposed magnetite dispersions.

Jansat¹,

Moncusi

2021

Preprint

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Emulating natural dynamism distributing earth minerals using diffusion and gravity, herein it is reported a strategy to unite nanostructured materials of similar size but intrinsic physical repellence, magnetite guest bestowed with C18 alkyl chain ligands and highly hydrophilic ammonium dawsonite NH4Al(OH)2CO3 host, based in electromagnetic and chemical forces. Notwithstanding augmented polarity of nanostructured surface’s carrier, has been used as fine-tuning tool in conjunction with continuum, for triggering a disseminated array of specific interactions covering entire carrier NH4+-RDW-NP periphery. Strong interactions heighten enthalpic contributions balancing unfavourable entropic penalty. Shelter adsorbs diffused guest like conventional Fe3O4-NP dispersions but additionally, whether restricts void’s access or, sinters carrier enabling isolation of a second morphology where magnetite is quantitatively embedded into cavities left between agglomerates. Reported deposition protocol extends sort of practical interactions beyond the known dipole-dipole derived ones, to ion-p and truly chemical coordination bonds, strengthening wetting interfaces that define noticeable g-Al2O3 crystalline domains at minor temperatures. Manuscript illustrates how certain organic media may assist to reliable guest depositions in, hydrotalcite to alumina carriers within controlled morphology, at the same weight level than common procedures reported for more akin host/guest. Interestingly, protocol enables practical SBET measurements for solids with significative contributions of interparticle porosity. Detrimental effects are also addressed.

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Wetting‐Controlled Localized Placement of Surface Functionalities within Nanopores

Cited by 13 publications

References 85 publications

Trendbericht: Makromolekulare Chemie

Trendbericht: Makromolekulare Chemie

Selective Modification of Hierarchical Pores and Surfaces in Nanoporous Materials

Joining host/guest with contrary affinity at the nanoscale by chemical bonds or non-covalent interactions with organic media under diffusion: control of embedded versus exposed magnetite dispersions.

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