Detail publikace

Partial Thermal Condensation Mediated Synthesis of High-Density Nickel Single Atom Sites on Carbon Nitride for Selective Photooxidation of Methane into Methanol

Kumar, P. Antal, P. Wang, XY. Wang, J. Trivedi, D. Fellner, OF. Wu, YA. Nemec, I. Santana, VT. Kopp, J. Neugebauer, P. Hu, JG. Kibria, MG. Kumar, S.

Originální název

Partial Thermal Condensation Mediated Synthesis of High-Density Nickel Single Atom Sites on Carbon Nitride for Selective Photooxidation of Methane into Methanol

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

angličtina

Originální abstrakt

Direct selective transformation of greenhouse methane (CH4) to liquid oxygenates (methanol) can substitute energy-intensive two-step (reforming/Fischer-Tropsch) synthesis while creating environmental benefits. The development of inexpensive, selective, and robust catalysts that enable room temperature conversion will decide the future of this technology. Single-atom catalysts (SACs) with isolated active centers embedded in support have displayed significant promises in catalysis to drive challenging reactions. Herein, high-density Ni single atoms are developed and stabilized on carbon nitride (NiCN) via thermal condensation of preorganized Ni-coordinated melem units. The physicochemical characterization of NiCN with various analytical techniques including HAADF-STEM and X-ray absorption fine structure (XAFS) validate the successful formation of Ni single atoms coordinated to the heptazine-constituted CN network. The presence of uniform catalytic sites improved visible absorption and carrier separation in densely populated NiCN SAC resulting in 100% selective photoconversion of (CH4) to methanol using H2O2 as an oxidant. The superior catalytic activity can be attributed to the generation of high oxidation (NiIIIO) sites and selective CH bond cleavage to generate center dot CH3 radicals on Ni centers, which can combine with center dot OH radicals to generate CH3OH. Performing selective photooxidation of methane into methanol under visible light using an inexpensive and robust Ni single atom catalysts. The catalyst synthesis involves two steps: i) nickel complexation with melem units; ii) thermal condensation. Melem units prevent the probability of metal coarsening during thermal treatment generating unsymmetrical tetra-coordinated Ni-N4 sites embedded in the heptazine cavity.image

Klíčová slova

carbon nitride; heterogeneous catalysts; methane oxidation; Ni single atom catalysts; photocatalysis

Autoři

Kumar, P.; Antal, P.; Wang, XY.; Wang, J.; Trivedi, D.; Fellner, OF.; Wu, YA.; Nemec, I.; Santana, VT.; Kopp, J.; Neugebauer, P.; Hu, JG.; Kibria, MG.; Kumar, S.

Vydáno

11. 4. 2024

Nakladatel

WILEY-V C H VERLAG GMBH

Místo

WEINHEIM

ISSN

1613-6829

Periodikum

Small

Ročník

20

Číslo

15

Stát

Spolková republika Německo

Strany počet

12

URL

https://onlinelibrary.wiley.com/doi/10.1002/smll.202304574

BibTex

@article{BUT187772,
  author="Kumar, P. and Antal, P. and Wang, XY. and Wang, J. and Trivedi, D. and Fellner, OF. and Wu, YA. and Nemec, I. and Santana, VT. and Kopp, J. and Neugebauer, P. and Hu, JG. and Kibria, MG. and Kumar, S.",
  title="Partial Thermal Condensation Mediated Synthesis of High-Density Nickel Single Atom Sites on Carbon Nitride for Selective Photooxidation of Methane into Methanol",
  journal="Small",
  year="2024",
  volume="20",
  number="15",
  pages="12",
  doi="10.1002/smll.202304574",
  issn="1613-6829",
  url="https://onlinelibrary.wiley.com/doi/10.1002/smll.202304574"
}