Detail publikace

Mechanism of WS2 Nanotube Formation Revealed by in Situ/ex Situ Imaging

KUNDRÁT, V. NOVÁK, L. BUKVIŠOVÁ, K. ZÁLEŠÁK, J. KOLÍBALOVÁ, E. ROSENTVEIG, R. SREEDHARA, M. SHALOM, H. YADGAROV, L. ZAK, A. KOLÍBAL, M. TENNE, R.

Originální název

Mechanism of WS2 Nanotube Formation Revealed by in Situ/ex Situ Imaging

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

angličtina

Originální abstrakt

Multiwall WS2 nanotubes have been synthesized from W18O49 nanowhiskers in substantial amounts for more than a decade. The established growth model is based on the "surface-inward" mechanism, whereby the high-temperature reaction with H2S starts on the nanowhisker surface, and the oxide-to-sulfide conversion progresses inward until hollow-core multiwall WS2 nanotubes are obtained. In the present work, an upgraded in situ SEM mu Reactor with H-2 and H2S sources has been conceived to study the growth mechanism in detail. A hitherto undescribed growth mechanism, named "receding oxide core", which complements the "surface-inward" model, is observed and kinetically evaluated. Initially, the nanowhisker is passivated by several WS2 layers via the surface-inward reaction. At this point, the diffusion of H2S through the already existing outer layers becomes exceedingly sluggish, and the surface-inward reaction is slowed down appreciably. Subsequently, the tungsten suboxide core is anisotropically volatilized within the core close to its tips. The oxide vapors within the core lead to its partial out-diffusion, partially forming a cavity that expands with reaction time. Additionally, the oxide vapors react with the internalized H2S gas, forming fresh WS2 layers in the cavity of the nascent nanotube. The rate of the receding oxide core mode increases with temperatures above 900 degrees C. The growth of nanotubes in the atmospheric pressure flow reactor is carried out as well, showing that the proposed growth model (receding oxide core) is also relevant under regular reaction parameters. The current study comprehensively explains the WS2 nanotube growth mechanism, combining the known model with contemporary insight.

Klíčová slova

WS2 nanotube; sulfidation; in situ; ex situ; electronmicroscopy; reaction mechanism

Autoři

KUNDRÁT, V.; NOVÁK, L.; BUKVIŠOVÁ, K.; ZÁLEŠÁK, J.; KOLÍBALOVÁ, E.; ROSENTVEIG, R.; SREEDHARA, M.; SHALOM, H.; YADGAROV, L.; ZAK, A.; KOLÍBAL, M.; TENNE, R.

Vydáno

3. 5. 2024

Nakladatel

AMER CHEMICAL SOC

Místo

WASHINGTON

ISSN

1936-0851

Periodikum

ACS Nano

Ročník

18

Číslo

19

Stát

Spojené státy americké

Strany od

12284

Strany do

12294

Strany počet

11

URL

https://pubs.acs.org/doi/10.1021/acsnano.4c01150

Plný text v Digitální knihovně

http://hdl.handle.net/11012/249513

BibTex

@article{BUT188679,
  author="Vojtěch {Kundrát} and Libor {Novák} and Kristýna {Bukvišová} and Jakub {Zálešák} and Eva {Kolíbalová} and Rita {Rosentveig} and M.B. {Sreedhara} and Hila {Shalom} and Lena {Yadgarov} and Alla {Zak} and Miroslav {Kolíbal} and Reshef {Tenne}",
  title="Mechanism of WS2 Nanotube Formation Revealed by in Situ/ex Situ Imaging",
  journal="ACS Nano",
  year="2024",
  volume="18",
  number="19",
  pages="12284--12294",
  doi="10.1021/acsnano.4c01150",
  issn="1936-0851",
  url="https://pubs.acs.org/doi/10.1021/acsnano.4c01150"
}