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Journal of Thermodynamics & Catalysis

Journal of Thermodynamics & Catalysis
Open Access

ISSN: 2157-7544

+44 1300 500008

Journal of Thermodynamics & Catalysis : Citations & Metrics Report

Articles published in Journal of Thermodynamics & Catalysis have been cited by esteemed scholars and scientists all around the world. Journal of Thermodynamics & Catalysis has got h-index 17, which means every article in Journal of Thermodynamics & Catalysis has got 17 average citations.

Following are the list of articles that have cited the articles published in Journal of Thermodynamics & Catalysis.

  2022 2021 2020 2019 2018

Year wise published articles

31 24 29 3 6

Year wise citations received

110 109 116 106 102
Journal total citations count 852
Journal impact factor 4.77
Journal 5 years impact factor 6.77
Journal cite score 7.74
Journal h-index 17
Journal h-index since 2018 13
Important citations (501)

Microalgal growth and nutrient uptake in heavy metal polluted environments

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Low-temperature h2s sensors based on si-coated sno2 nanowires

Reversible metal sulfide transition in a two-step thermochemical h2s splitting

Transforming bad electrocatalysts into good ones: dual functional hot h2s treatment

Owing to the exceptional optoelectronic properties of single-walled carbon nanotubes (swcnts), the transparent conducting films (tcfs) incorporating swcnts have been applied in areas like solar cells, touch screens, organic light-emitting diodes, and thin-film transistors (tfts). particularly, the swcnt tcfs on a polymer substrate can maintain their properties well under mechanical bending and stretching. thus, high-yield production of swcnts with desired morphological and structural features for the fabrication of highly conductive tcfs is of significance for their scaled-up applications. as for the representative application of swcnts in tfts, semiconducting-enriched nanotubes are preferable. this dissertation focuses on the high-yield production of swcnts for conductive film applications and the synthesis of semiconducting-enriched swcnts (s-swcnts). a dedicatedly designed aerosol reactor was constructed for swcnt synthesis using liquid hydrocarbons as the carbon source injected with a syringe pump. ethanol was first selected as the carbon source to produce swcnts. we optimized the growth parameters including thiophene and ferrocene concentrations, the hydrogen flow rate, the temperature as well as the feeding rate of the precursor solution. limiting the feeding rate reduces the sheet resistance of the swcnt tcf to ca. 78 ?/sq at 90% transmittance at 550 nm. the swcnts synthesized from ethanol have morphological features like a mean diameter of 2 nm, a mean bundle length of 28.4 ?m, a mean bundle diameter of 5.3 nm, and the chiral structures are clustered around the armchair edge. the roles of sulfur were systematically investigated as well using a spark-discharge aerosol reactor for swcnt synthesis. an optimal amount of sulfur was found to promote the growth of large-diameter and long swcnts with high yield and improved quality. sulfur was proposed to assist the formation of active sites on the catalyst surface to enhance swcnt growth. to further decrease the sheet resistance and simultaneously keep a high yield, toluene was appointed to be an alternative carbon source. by producing larger-diameter (mean diameter is 2.3 nm) swcnts and longer (mean bundle length is 41.4 ?m) nanotube bundles, the sheet resistance of the swcnt tcf was decreased to ca. 57 ?/sq at 90% transmittance with a much higher yield than that in the ethanol case. the chirality map of the swcnts depicted from the electron diffraction results presents a bimodal distribution of the chiral angles. in addition, high-purity s-swcnts were also continuously produced with ethanol as the carbon source and methanol as a growth enhancer. the s-swcnt purity determined from the optical absorption spectrum can be higher than 95% which is beneficial for the high-performance electronics.

The crucial role of catalysts in the reaction of low temperature decomposition of hydrogen sulfide: non-equilibrium thermodynamics of the irreversible process in an open system

Enhanced electrocatalytic h 2 s splitting on a multiwalled carbon nanotubes-graphene oxide nanocomposite

Diatomic sulfur: a mysterious molecule

Roles of sulfur in floating-catalyst cvd growth of single-walled carbon nanotubes for transparent conductive film applications

A robust and biocompatible bismuth ellagate mof synthesized under green ambient conditions

Biodesulfurization of petroleum distillates—current status, opportunities and future challenges

Characterization, determination and elimination technologies for sulfur from petroleum: toward cleaner fuel and a safe environment

Antimicrobial activity of titanium dioxide and zinc oxide nanoparticles supported in 4a zeolite and evaluation the morphological characteristic

Progress in the growth and characterization of nano-structured bismuth ferrite thin films

Uv light driven selective oxidation of cyclohexane in gaseous phase using mo-functionalized zeolites

Photocatalytic activity of hierarchical ti–zr–zsm-5 catalysts from attapulgite by mrs

Nano cuo immobilized zeolite photocatalyst from coal fly ash for visible light photodegradation of methylene blue without h2o2

Enhanced stability and photocatalytic performance of transition metal-doped zno with magnetite nanoparticle and zeolite

Zeolite-based biomaterials for biomedical application: a review

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