Surface-induced Selective Formation of Biphenylene Dimers

Dezhou Guo; Zhiwen Zeng; Jean Sabin McEwen; Junfa Zhu

Surface-induced Selective Formation of Biphenylene Dimers

Dezhou Guo, Zhiwen Zeng, Jean Sabin McEwen, Junfa Zhu

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We report an example that demonstrates the clear interdependence between surface-supported reactions and molecular adsorption configurations. Two biphenyl-based molecules with two and four bromine substituents, i.e. 2,2'-dibromo-biphenyl (DBBP) and 2,2',6,6'-tetrabromo-1,1'-biphenyl (TBBP), show completely different reaction pathways on a Ag(111) surface, leading to the selective formation of dibenzo[e,l]pyrene and biphenylene dimer, respectively. By combining low-temperature scanning tunneling microscopy, synchrotron radiation photoemission spectroscopy, and density functional theory calculations, we unravel the underlying reaction mechanism. After debromination, a bi-radical biphenyl can be stabilized by surface Ag adatoms, while a four-radical biphenyl undergoes spontaneous intramolecular annulation due to its extreme instability on Ag(111). Such different chemisorption-induced precursor states between DBBP and TBBP consequently lead to different reaction pathways after further annealing.

Original language	English
Title of host publication	2021 AIChE Annual Meeting
Publisher	American Institute of Chemical Engineers
ISBN (Electronic)	9781713852834
Publication status	Published - 2021
Externally published	Yes
Event	2021 AIChE Annual Meeting - Boston, Virtual, United States Duration: 15 Nov 2021 → 19 Nov 2021

Publication series

Name	AIChE Annual Meeting, Conference Proceedings
Volume	2021-November

Conference

Conference	2021 AIChE Annual Meeting
Country/Territory	United States
City	Boston, Virtual
Period	15/11/21 → 19/11/21

Cite this

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title = "Surface-induced Selective Formation of Biphenylene Dimers",

abstract = "We report an example that demonstrates the clear interdependence between surface-supported reactions and molecular adsorption configurations. Two biphenyl-based molecules with two and four bromine substituents, i.e. 2,2'-dibromo-biphenyl (DBBP) and 2,2',6,6'-tetrabromo-1,1'-biphenyl (TBBP), show completely different reaction pathways on a Ag(111) surface, leading to the selective formation of dibenzo[e,l]pyrene and biphenylene dimer, respectively. By combining low-temperature scanning tunneling microscopy, synchrotron radiation photoemission spectroscopy, and density functional theory calculations, we unravel the underlying reaction mechanism. After debromination, a bi-radical biphenyl can be stabilized by surface Ag adatoms, while a four-radical biphenyl undergoes spontaneous intramolecular annulation due to its extreme instability on Ag(111). Such different chemisorption-induced precursor states between DBBP and TBBP consequently lead to different reaction pathways after further annealing.",

author = "Dezhou Guo and Zhiwen Zeng and McEwen, {Jean Sabin} and Junfa Zhu",

year = "2021",

language = "English",

series = "AIChE Annual Meeting, Conference Proceedings",

publisher = "American Institute of Chemical Engineers",

booktitle = "2021 AIChE Annual Meeting",

address = "United States",

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TY - GEN

T1 - Surface-induced Selective Formation of Biphenylene Dimers

AU - Guo, Dezhou

AU - Zeng, Zhiwen

AU - McEwen, Jean Sabin

AU - Zhu, Junfa

PY - 2021

Y1 - 2021

N2 - We report an example that demonstrates the clear interdependence between surface-supported reactions and molecular adsorption configurations. Two biphenyl-based molecules with two and four bromine substituents, i.e. 2,2'-dibromo-biphenyl (DBBP) and 2,2',6,6'-tetrabromo-1,1'-biphenyl (TBBP), show completely different reaction pathways on a Ag(111) surface, leading to the selective formation of dibenzo[e,l]pyrene and biphenylene dimer, respectively. By combining low-temperature scanning tunneling microscopy, synchrotron radiation photoemission spectroscopy, and density functional theory calculations, we unravel the underlying reaction mechanism. After debromination, a bi-radical biphenyl can be stabilized by surface Ag adatoms, while a four-radical biphenyl undergoes spontaneous intramolecular annulation due to its extreme instability on Ag(111). Such different chemisorption-induced precursor states between DBBP and TBBP consequently lead to different reaction pathways after further annealing.

AB - We report an example that demonstrates the clear interdependence between surface-supported reactions and molecular adsorption configurations. Two biphenyl-based molecules with two and four bromine substituents, i.e. 2,2'-dibromo-biphenyl (DBBP) and 2,2',6,6'-tetrabromo-1,1'-biphenyl (TBBP), show completely different reaction pathways on a Ag(111) surface, leading to the selective formation of dibenzo[e,l]pyrene and biphenylene dimer, respectively. By combining low-temperature scanning tunneling microscopy, synchrotron radiation photoemission spectroscopy, and density functional theory calculations, we unravel the underlying reaction mechanism. After debromination, a bi-radical biphenyl can be stabilized by surface Ag adatoms, while a four-radical biphenyl undergoes spontaneous intramolecular annulation due to its extreme instability on Ag(111). Such different chemisorption-induced precursor states between DBBP and TBBP consequently lead to different reaction pathways after further annealing.

UR - http://www.scopus.com/inward/record.url?scp=85136181429&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85136181429

T3 - AIChE Annual Meeting, Conference Proceedings

BT - 2021 AIChE Annual Meeting

PB - American Institute of Chemical Engineers

T2 - 2021 AIChE Annual Meeting

Y2 - 15 November 2021 through 19 November 2021

ER -

Surface-induced Selective Formation of Biphenylene Dimers

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