In-situ multi-step pulsed vapor phase surface functionalization of zirconia nanoparticles via copper-free click chemistry

Saric Iva; Markovic Maria Kolympadi; Peter Robert; Linic Petra; Wittine Karlo; Piltaver Ivna Kavre; Badovinac Ivana Jelovica; Markovic Dean; Knez Mato; Ambrozic Gabriela

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In-situ multi-step pulsed vapor phase surface functionalization of zirconia nanoparticles via copper-free click chemistry

机译：通过无铜咔哒化学的氧化锆纳米颗粒的原位多步脉冲相形官能化

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We report on multi-step copper-free vapor phase azide-alkyne click reactions for the functionalization of metal oxide nanopowders, automated with the atomic layer deposition (ALD) technique. The synthetic approach consists of the following reaction steps: chemisorption of propiolic acid (PA) to ZrO2 from the gas phase, followed by the formation of a triazole ring through a click reaction with 1,4-bis(azidomethyl)benzene (BisA), and, in the final step, click-coupling of the pendant azide groups with a second dose of propiolic acid (PA). The chemical composition and nature of the chemical bonding in the samples obtained after each of the ALD processing steps were investigated in detail by ATR-FTIR and XPS. As confirmed by an additional ALD deposition of ZnO, the latter reaction step introduces free polar carboxylic acid functionalities to the nanomaterial surface, which enhance the stability of the chemically modified zirconia in ethanolic dispersion. This proof-of-concept study offers great potential toward the fabrication of functional organic layers on metal oxide surfaces by sequential azide-alkyne cycloadditions performed in ALD.

机译：我们报告了用于金属氧化物纳米粉末官能化的多步无铜气相叠氮化物 - 炔烃基反应，用原子层沉积（ALD）技术自动化。合成方法由以下反应步骤组成：从气相中的丙醇酸（PA）至ZrO 2的化学吸附，然后通过与1,4-双（氮甲基）苯（Bisa）的咔哒反应形成三唑环，并且，在最后一步中，用第二剂量的丙酸（PA）点击垂叠静脉基团的耦合。通过ATR-FTIR和XPS详细研究了在每种ALD处理步骤后获得的样品中的化学键合的化学成分和性质。如通过ZnO的额外ALD沉积证实，后一反应步骤将自由的极性羧酸官能引向纳米材料表面，这提高了化学改性氧化锆在乙醇分散中的稳定性。该概念证据研究通过在ALD中的序列叠氮化物 - 炔烃环加装备通过序列叠氮化物 - 炔烃环加成来制造功能有机层的巨大潜力。

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《Applied Surface Science》 |2021年第15期|148254.1-148254.10|共10页
作者
Saric Iva; Markovic Maria Kolympadi; Peter Robert; Linic Petra; Wittine Karlo; Piltaver Ivna Kavre; Badovinac Ivana Jelovica; Markovic Dean; Knez Mato; Ambrozic Gabriela;
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Univ Rijeka Dept Phys Radmile Matejcic 2 Rijeka 51000 Croatia|Univ Rijeka Ctr Micro & Nanosci & Technol Radmile Matejcic 2 Rijeka 51000 Croatia;

Univ Rijeka Dept Phys Radmile Matejcic 2 Rijeka 51000 Croatia|Univ Rijeka Ctr Micro & Nanosci & Technol Radmile Matejcic 2 Rijeka 51000 Croatia;

Univ Rijeka Dept Phys Radmile Matejcic 2 Rijeka 51000 Croatia|Univ Rijeka Ctr Micro & Nanosci & Technol Radmile Matejcic 2 Rijeka 51000 Croatia;

Univ Rijeka Dept Biotechnol Radmile Matejcic 2 Rijeka 51000 Croatia;

Univ Rijeka Dept Biotechnol Radmile Matejcic 2 Rijeka 51000 Croatia;

Univ Rijeka Dept Phys Radmile Matejcic 2 Rijeka 51000 Croatia|Univ Rijeka Ctr Micro & Nanosci & Technol Radmile Matejcic 2 Rijeka 51000 Croatia;

Univ Rijeka Dept Phys Radmile Matejcic 2 Rijeka 51000 Croatia|Univ Rijeka Ctr Micro & Nanosci & Technol Radmile Matejcic 2 Rijeka 51000 Croatia;

Univ Rijeka Dept Biotechnol Radmile Matejcic 2 Rijeka 51000 Croatia;

CIC NanoGUNE San Sebastian 20018 Spain|Basque Fdn Sci Ikerbasque Bilbao 48013 Spain;

Univ Rijeka Dept Phys Radmile Matejcic 2 Rijeka 51000 Croatia|Univ Rijeka Ctr Micro & Nanosci & Technol Radmile Matejcic 2 Rijeka 51000 Croatia;

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正文语种 eng
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关键词
Azide-alkyne click chemistry; Atomic layer deposition; Molecular layer deposition; Zirconia nanoparticles; ATR-FTIR; XPS;

机译：Azide-alkyne点击化学;原子层沉积;分子层沉积;氧化锆纳米粒子;ATR-FTIR;XPS;

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In-situ multi-step pulsed vapor phase surface functionalization of zirconia nanoparticles via copper-free click chemistry

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