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Journal articles on the topic 'Tert-Butylamine Borane'

Author: Grafiati
Published: 5 June 2025
Last updated: 1 August 2025

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1

Kundu, Debashis, Sankar Chakma, Gopal Pugazhenthi, and Tamal Banerjee. "Ionic Liquid Facilitated Dehydrogenation of tert-Butylamine Borane." ACS Omega 3, no. 2 (2018): 2273–81. http://dx.doi.org/10.1021/acsomega.7b01781.

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2

Lau, Cheuk K., Haydn W. R. Williams, Sylvie Tardiff, Claude Dufresne, John Scheigetz, and Patrice C. Bélanger. "ortho-Specific alkylation of phenols via 1,3,2-benzodioxaborins." Canadian Journal of Chemistry 67, no. 9 (1989): 1384–87. http://dx.doi.org/10.1139/v89-212.

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Reaction of a phenol with an aldehyde in the presence of phenylboronic acid gives a 1,3,2-benzodioxaborin. The latter could be reduced to the corresponding ortho-alkylphenol with tert-butylamine borane in the presence of aluminum chloride. Alternatively, the dioxaborin, when reacted with an alkylthiol or an alcohol in the presence of an acid, gave the corresponding ortho-alkylthiomethyl- or ortho-alkoxymethylphenol. Keywords: phenol, alkylation, ortho-specific, 1,3,2-benzodioxaborin.
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3

Bellham, Peter, Michael S. Hill, and Gabriele Kociok-Köhn. "Stoichiometric and Catalytic Reactivity of tert-Butylamine–Borane with Calcium Silylamides." Organometallics 33, no. 20 (2014): 5716–21. http://dx.doi.org/10.1021/om500467b.

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4

Hatice, Begüm Murathan, and Özkan Göksel. "The hydrolysis of tert-butylamine borane by using Ni-Zr-B-O catalyst for hydrogen production." Journal of Indian Chemical Society Vol. 97, No. 10c, Oct 2020 (2020): 2037–42. https://doi.org/10.5281/zenodo.5970530.

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Department of Chemical Engineering, Gazi University, 06570 Maltepe, Ankara, Turkey <em>E-mail</em>: gozkan@gazi.edu.tr <em>Manuscript received online 20 October 2020, revised and accepted 31 October 2020</em> This study focuses on the catalytic hydrolysis of tert-butylamine borane (TBAB, C<sub>4</sub>H<sub>9</sub>NH<sub>2</sub>BH<sub>3</sub>) with Ni-Zr-B-O. For this aim, catalyst mixture was prepared by co-precipitation method using NaBH<sub>4</sub>. The effect of temperature and catalyst amount on the hydrolysis of TBAB was examined. It has been observed that for each catalyst amounts, an in
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5

BICCHIERI, MARINA, and PAOLA BRUSA. "The Bleaching of Paper by Reduction with the Borane Tert-Butylamine Complex." Restaurator 18, no. 1 (1997): 1–11. http://dx.doi.org/10.1515/rest.1997.18.1.1.

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6

Lau, Cheuk K., Sylvie Tardif, Claude Dufresne, and John Scheigetz. "Reductive deoxygenation of aryl aldehydes and ketones by tert-butylamine-borane and aluminum chloride." Journal of Organic Chemistry 54, no. 2 (1989): 491–94. http://dx.doi.org/10.1021/jo00263a045.

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7

Morenko, Ivan, Irina Isaeva, Varvara Grushina, and Galina Ostaeva. "Synthesis of copper-containing nanoparticles and their potential application as biocidal agents." BIO Web of Conferences 149 (2024): 01054. http://dx.doi.org/10.1051/bioconf/202414901054.

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The paper presents the results of a study on the possibility of obtaining Cu nanoparticles stabilized with various polymers using chemical reduction method. The following stabilizer-reductant pairs were used for nanoparticles synthesis: gelatin - ascorbic acid, polyvinylpyrrolidone - tert- butylamine borane, polyethylene oxide - hydrazine borane. The formation of Cu nanoparticles was confirmed by electron spectroscopy. All the samples studied showed an absorbance maximum in the region of 580 nm, in agreement with the literature data on the phenomenon of localized plasmon resonance of copper na
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8

Morenko, Ivan, Irina Isaeva, Irina Odinokova, and Galina Ostaeva. "Traditional and green approaches to the synthesis of copper-containing nanoparticles using chemical reduction." E3S Web of Conferences 471 (2024): 04016. http://dx.doi.org/10.1051/e3sconf/202447104016.

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The problem of obtaining copper-containing nanoparticles by chemical reduction has been studied. A comparison is made of traditional and “green” approaches to synthesis. The experimental data obtained during the synthesis of copper nanoparticles in the presence of a polymer stabilizer (polyvinylpyrrolidone) and a reducing agent (tert-butylamine-borane), as well as literature data on the synthesis of nanoparticles using plant and conditionally “green” substances (glucose, extracts of Ocimum sanctum and Celastrus paniculatus leaves, Sarcostemma acidum stem). The advantages and disadvantages of t
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9

Kim, Na Rae, Inyu Jung, Yun Hwan Jo, and Hyuck Mo Lee. "A Simple Process for the Preparation of Copper (I) Oxide Nanoparticles by a Thermal Decomposition Process with Borane Tert-Butylamine Complex." Journal of Nanoscience and Nanotechnology 13, no. 9 (2013): 6027–32. http://dx.doi.org/10.1166/jnn.2013.7649.

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10

Ostaeva, G. Yu, I. Yu Isaeva, V. V. Grushina, A. N. Stuzhuk, and I. V. Odinokova. "Influence of the Molecular Mass of Poly(N-vinylpyrrolidone) on Formation of Cu2O Nanoparticles During Reduction of Divalent Copper Ions with tert-Butylamine Borane in Polymer Solution." Polymer Science, Series B 60, no. 4 (2018): 455–63. http://dx.doi.org/10.1134/s1560090418040085.

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11

BICCHIERI, MARINA, MARCO BELLA, and FRANCESCA SEMETILLI. "A Quantitative Measure of Borane Tert-Butylamine Complex Effectiveness in Carbonyl Reduction of Aged Papers." Restaurator 20, no. 1 (1999). http://dx.doi.org/10.1515/rest.1999.20.1.22.

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12

LAU, C. K., S. TARDIF, C. DUFRESNE, and J. SCHEIGETZ. "ChemInform Abstract: Reductive Deoxygenation of Aryl Aldehydes and Ketones by tert-Butylamine-Borane and Aluminum Chloride." ChemInform 20, no. 35 (1989). http://dx.doi.org/10.1002/chin.198935134.

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13

Kim, Sollee, and Sukeun Yoon. "tert-Butylamine borane as a reductant in electroless nickel plating for improved etch resistance in the electrolyte." Bulletin of Materials Science 43, no. 1 (2020). http://dx.doi.org/10.1007/s12034-020-02186-4.

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14

Zhu, Albert, Qiong Li, and Xiaoyi Chen. "Understanding the Mechanism of Star-Block Copolymers as Nanoreactors for Synthesis of Well-Defined Silver Nanoparticles." Journal of Emerging Investigators, 2018. http://dx.doi.org/10.59720/18-009.

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Facile and large-scale synthesis of well-defined, thermally stable silver nanoparticles protected by polymer brushes for use in practical applications is still a challenge. Recent work has reported a nanoreactor approach that can be used to synthesize these silver nanoparticles. This approach uses amphiphilic star-block copolymers, which have a hydrophilic core surrounded by a hydrophobic exterior. These polymers thus can serve as the nanoreactors. In this study, we hypothesize that the local high concentration of silver ions in the inner hydrophilic cores of these star-block copolymers facili
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15

Tonthat, Loi, Tomoyuki Ogawa, and Shin Yabukami. "Dumbbell-like Au–Fe3O4 nanoparticles for magnetic hyperthermia." AIP Advances 14, no. 1 (2024). http://dx.doi.org/10.1063/9.0000821.

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Dumbbell-shaped hybrid nanoparticles, consisting of gold and iron oxide (Au-Fe3O4 NPs), show promise for magnetic hyperthermia cancer therapy. However, conventional synthesis methods using toxic iron pentacarbonyl (Fe(CO)5) raise safety concerns. We propose a safer approach using triiron dodecacarbonyl (Fe3(CO)12) as a precursor. We synthesize these NPs by initially reducing gold (III) chloride trihydrate with a tert-butylamine-borane complex at room temperature, yielding Au NPs. These Au NPs are combined with a Fe3(CO)12 solution and heated to 300 °C for 1 hour, resulting in the desired dumbb
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