n-decane dehydrogenation on bimetallic PtSn and PtGe catalysts prepared by dip-coating

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Cite
Ballarini, A. D., et al. “N-Decane Dehydrogenation on Bimetallic PtSn and PtGe Catalysts Prepared by Dip-Coating”. Catalysis in Industry, vol. 5, no. 4, 2013, pp. 283-96, https://doi.org/10.1134/s2070050413040028.
Ballarini, A. D., de Miguel, S., Castro, A., & Scelza, O. (2013). n-decane dehydrogenation on bimetallic PtSn and PtGe catalysts prepared by dip-coating. Catalysis in Industry, 5(4), 283-296. https://doi.org/10.1134/s2070050413040028
Ballarini, A. D., S. de Miguel, A. Castro, and O. Scelza. “N-Decane Dehydrogenation on Bimetallic PtSn and PtGe Catalysts Prepared by Dip-Coating”. Catalysis in Industry 5, no. 4 (2013): 283-96. https://doi.org/10.1134/s2070050413040028.
Ballarini AD, de Miguel S, Castro A, Scelza O. n-decane dehydrogenation on bimetallic PtSn and PtGe catalysts prepared by dip-coating. Catalysis in Industry. 2013;5(4):283-96.
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Technology
Chemical technology
Chemical engineering
Refrences
Title Journal Journal Categories Citations Publication Date
10.1007/BF02068129 Reaction Kinetics and Catalysis Letters 1996
Study of alumino-platinum-lithium catalysts during dehydrogenation of n-decane using the pulse method Petroleum Chemistry U.S.S.R. 2 1980
n-Butane dehydrogenation on Pt, PtSn and PtGe supported on γ-Al2O3 deposited on spheres of α-Al2O3 by washcoating Applied Catalysis A: General
  • Science: Chemistry: Physical and theoretical chemistry
  • Geography. Anthropology. Recreation: Environmental sciences
  • Technology: Chemical technology: Chemical engineering
  • Science: Chemistry: Physical and theoretical chemistry
  • Science: Chemistry
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Highly selective and stable bimetallic catalysts supported on different materials for n-butane dehydrogenation Catalysis Today
  • Science: Chemistry
  • Science: Chemistry: Physical and theoretical chemistry
  • Technology: Chemical technology: Chemical engineering
  • Science: Chemistry: Physical and theoretical chemistry
  • Science: Chemistry
 26 2009
Use of Al2O3–SnO2 as a support of Pt for selective dehydrogenation of light paraffins Catalysis Today
  • Science: Chemistry
  • Science: Chemistry: Physical and theoretical chemistry
  • Technology: Chemical technology: Chemical engineering
  • Science: Chemistry: Physical and theoretical chemistry
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Refrences Analysis
Category Category Repetition
Science: Chemistry: Physical and theoretical chemistry50
Science: Chemistry38
Technology: Chemical technology: Chemical engineering31
Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials28
Technology: Chemical technology9
Geography. Anthropology. Recreation: Environmental sciences8
Science: Physics4
Technology: Chemical technology: Clay industries. Ceramics. Glass3
Science: Chemistry: General. Including alchemy1
The category Science: Chemistry: Physical and theoretical chemistry 50 is the most frequently represented among the references in this article. It primarily includes studies from Applied Catalysis A: General and Catalysis Today. The chart below illustrates the number of referenced publications per year.
Refrences used by this article by year
Citations
Title Journal Journal Categories Citations Publication Date
Got Coke? Self-Limiting Poisoning Makes an Ultra Stable and Selective Sub-Nano Cluster Catalyst ACS Catalysis
  • Science: Chemistry: Physical and theoretical chemistry
  • Science: Chemistry: Physical and theoretical chemistry
  • Science: Chemistry
 6 2023
Citations Analysis
Category Category Repetition
Science: Chemistry: Physical and theoretical chemistry1
Science: Chemistry1
The category Science: Chemistry: Physical and theoretical chemistry 1 is the most commonly referenced area in studies that cite this article. The first research to cite this article was titled Got Coke? Self-Limiting Poisoning Makes an Ultra Stable and Selective Sub-Nano Cluster Catalyst and was published in 2023. The most recent citation comes from a 2023 study titled Got Coke? Self-Limiting Poisoning Makes an Ultra Stable and Selective Sub-Nano Cluster Catalyst. This article reached its peak citation in 2023, with 1 citations. It has been cited in 1 different journals. Among related journals, the ACS Catalysis cited this research the most, with 1 citations. The chart below illustrates the annual citation trends for this article.
Citations used this article by year