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Methane hydrate growth on a graphene substrate

Tat'yana Petrovna Adamova 1
Tat'yana Petrovna Adamova
Sergey Aleksandrovich Kartopol'cev 1
Sergey Aleksandrovich Kartopol'cev
Andrei Yur'evich Manakov 1
Andrei Yur'evich Manakov
Dmitrii Vladimirovich Smovzh 2
Dmitrii Vladimirovich Smovzh
Dmitrii Vladimirovich Sorokin 2
Dmitrii Vladimirovich Sorokin
10.71267/mencom.7964
Published 2026-03-24
CommunicationVolume 36, Issue 3, 320-322
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Adamova T. P. et al. Methane hydrate growth on a graphene substrate // Mendeleev Communications. 2026. Vol. 36. No. 3. pp. 320-322.
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Adamova T. P., Kartopol'cev S. A., Manakov A. Y., Smovzh D. V., Sorokin D. V. Methane hydrate growth on a graphene substrate // Mendeleev Communications. 2026. Vol. 36. No. 3. pp. 320-322.
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TY - JOUR
DO - 10.71267/mencom.7964
UR - https://mendcomm.colab.ws/publications/10.71267/mencom.7964
TI - Methane hydrate growth on a graphene substrate
T2 - Mendeleev Communications
AU - Adamova, Tat'yana Petrovna
AU - Kartopol'cev, Sergey Aleksandrovich
AU - Manakov, Andrei Yur'evich
AU - Smovzh, Dmitrii Vladimirovich
AU - Sorokin, Dmitrii Vladimirovich
PY - 2026
DA - 2026/03/24
PB - Mendeleev Communications
SP - 320-322
IS - 3
VL - 36
ER -
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@article{2026_Adamova,
author = {Tat'yana Petrovna Adamova and Sergey Aleksandrovich Kartopol'cev and Andrei Yur'evich Manakov and Dmitrii Vladimirovich Smovzh and Dmitrii Vladimirovich Sorokin},
title = {Methane hydrate growth on a graphene substrate},
journal = {Mendeleev Communications},
year = {2026},
volume = {36},
publisher = {Mendeleev Communications},
month = {Mar},
url = {https://mendcomm.colab.ws/publications/10.71267/mencom.7964},
number = {3},
pages = {320--322},
doi = {10.71267/mencom.7964}
}
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Adamova, Tat'yana Petrovna, et al. “Methane hydrate growth on a graphene substrate.” Mendeleev Communications, vol. 36, no. 3, Mar. 2026, pp. 320-322. https://mendcomm.colab.ws/publications/10.71267/mencom.7964.
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Keywords

electrical resistance
gas hydrate
graphene substrate
growth morphology
methane

Abstract

When methane hydrate was formed from a water droplet on a graphene substrate, a hydrate film initially appeared on the free water surface and then slowly grew across the graphene surface to completely or partially cover the entire visible graphene surface. Water for film growth came from the film-covered droplet and caused collapse of the initially formed hydrate film. These observations explained the mechanism by which graphene and graphite promoted gas hydrate nucleation.

Funders

Russian Science Foundation
25-19-00092

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