Quenching of Defect-Induced Photoluminescence in a Boron-Nitride and Carbon Hetero-nanotube

Desman Perdamaian Gulo; Nguyen Tuan Hung; Wei Liang Chen; Shuhui Wang; Ming Liu; Esko I. Kauppinen; Hikaru Takehara; Atsushi Taguchi; Takashi Taniguchi; Shigeo Maruyama; Yu Ming Chang; Riichiro Saito; Hsiang Lin Liu

doi:10.1021/acs.jpclett.4c03681

Quenching of Defect-Induced Photoluminescence in a Boron-Nitride and Carbon Hetero-nanotube

Desman Perdamaian Gulo, Nguyen Tuan Hung, Wei Liang Chen, Shuhui Wang, Ming Liu, Esko I. Kauppinen, Hikaru Takehara, Atsushi Taguchi, Takashi Taniguchi, Shigeo Maruyama, Yu Ming Chang, Riichiro Saito^*, Hsiang Lin Liu^*

^*Tämän työn vastaava kirjoittaja

Tutkimustuotos: Lehtiartikkeli › Article › Scientific › vertaisarvioitu

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Abstrakti

Using a 266 nm laser, we simultaneously observe Raman and photoluminescence (PL) spectra of vertically aligned boron-nitride nanotubes (VA-BNNT) and single-walled carbon nanotubes (SWNT) encapsulated by boron nitride (VA-SWNT@BNNT). The larger PL intensity in VA-BNNT compared to that of the h-BN single crystal suggests that VA-BNNT contains more defect states. VA-SWNT@BNNT exhibits two multiphonon Raman peaks at 3033 and 3142 cm^-1 and four PL peaks at 4639, 5859, 6905, and 8293 cm^-1. Notably, the PL intensity of VA-SWNT@BNNT is 20 times smaller than that of VA-BNNT. In VA-SWNT, we observe an additional Raman peak at 4677 cm^-1, which closely aligns with the 4639 cm^-1 PL peak of VA-SWNT@BNNT, suggesting photoexcited electrons in VA-BNNT may transfer to the Raman process within VA-SWNT component of VA-SWNT@BNNT. The first-principles calculations identify possible donor and acceptor states in BN bilayers with substitutional defects (e.g., carbon replacing boron or nitrogen). These defect states are also relevant to understanding the origin of PL in BNNT.

Alkuperäiskieli	Englanti
Sivut	1711-1719
Sivumäärä	9
Julkaisu	Journal of Physical Chemistry Letters
Vuosikerta	16
Numero	7
DOI - pysyväislinkit	https://doi.org/10.1021/acs.jpclett.4c03681
Tila	Julkaistu - 20 helmik. 2025
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

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10.1021/acs.jpclett.4c03681

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Gulo, D. P., Tuan Hung, N., Chen, W. L., Wang, S., Liu, M., Kauppinen, E. I., Takehara, H., Taguchi, A., Taniguchi, T., Maruyama, S., Chang, Y. M., Saito, R., & Liu, H. L. (2025). Quenching of Defect-Induced Photoluminescence in a Boron-Nitride and Carbon Hetero-nanotube. Journal of Physical Chemistry Letters, 16(7), 1711-1719. https://doi.org/10.1021/acs.jpclett.4c03681

@article{6d63523f00ee4f8888e77926b7a0a586,

title = "Quenching of Defect-Induced Photoluminescence in a Boron-Nitride and Carbon Hetero-nanotube",

abstract = "Using a 266 nm laser, we simultaneously observe Raman and photoluminescence (PL) spectra of vertically aligned boron-nitride nanotubes (VA-BNNT) and single-walled carbon nanotubes (SWNT) encapsulated by boron nitride (VA-SWNT@BNNT). The larger PL intensity in VA-BNNT compared to that of the h-BN single crystal suggests that VA-BNNT contains more defect states. VA-SWNT@BNNT exhibits two multiphonon Raman peaks at 3033 and 3142 cm-1 and four PL peaks at 4639, 5859, 6905, and 8293 cm-1. Notably, the PL intensity of VA-SWNT@BNNT is 20 times smaller than that of VA-BNNT. In VA-SWNT, we observe an additional Raman peak at 4677 cm-1, which closely aligns with the 4639 cm-1 PL peak of VA-SWNT@BNNT, suggesting photoexcited electrons in VA-BNNT may transfer to the Raman process within VA-SWNT component of VA-SWNT@BNNT. The first-principles calculations identify possible donor and acceptor states in BN bilayers with substitutional defects (e.g., carbon replacing boron or nitrogen). These defect states are also relevant to understanding the origin of PL in BNNT.",

author = "Gulo, {Desman Perdamaian} and {Tuan Hung}, Nguyen and Chen, {Wei Liang} and Shuhui Wang and Ming Liu and Kauppinen, {Esko I.} and Hikaru Takehara and Atsushi Taguchi and Takashi Taniguchi and Shigeo Maruyama and Chang, {Yu Ming} and Riichiro Saito and Liu, {Hsiang Lin}",

note = "Publisher Copyright: {\textcopyright} 2025 American Chemical Society.",

year = "2025",

month = feb,

day = "20",

doi = "10.1021/acs.jpclett.4c03681",

language = "English",

volume = "16",

pages = "1711--1719",

journal = "Journal of Physical Chemistry Letters",

issn = "1948-7185",

publisher = "American Chemical Society",

number = "7",

}

Gulo, DP, Tuan Hung, N, Chen, WL, Wang, S, Liu, M, Kauppinen, EI, Takehara, H, Taguchi, A, Taniguchi, T, Maruyama, S, Chang, YM, Saito, R & Liu, HL 2025, 'Quenching of Defect-Induced Photoluminescence in a Boron-Nitride and Carbon Hetero-nanotube', Journal of Physical Chemistry Letters, Vuosikerta 16, Nro 7, Sivut 1711-1719. https://doi.org/10.1021/acs.jpclett.4c03681

TY - JOUR

T1 - Quenching of Defect-Induced Photoluminescence in a Boron-Nitride and Carbon Hetero-nanotube

AU - Gulo, Desman Perdamaian

AU - Tuan Hung, Nguyen

AU - Chen, Wei Liang

AU - Wang, Shuhui

AU - Liu, Ming

AU - Kauppinen, Esko I.

AU - Takehara, Hikaru

AU - Taguchi, Atsushi

AU - Taniguchi, Takashi

AU - Maruyama, Shigeo

AU - Chang, Yu Ming

AU - Saito, Riichiro

AU - Liu, Hsiang Lin

PY - 2025/2/20

Y1 - 2025/2/20

N2 - Using a 266 nm laser, we simultaneously observe Raman and photoluminescence (PL) spectra of vertically aligned boron-nitride nanotubes (VA-BNNT) and single-walled carbon nanotubes (SWNT) encapsulated by boron nitride (VA-SWNT@BNNT). The larger PL intensity in VA-BNNT compared to that of the h-BN single crystal suggests that VA-BNNT contains more defect states. VA-SWNT@BNNT exhibits two multiphonon Raman peaks at 3033 and 3142 cm-1 and four PL peaks at 4639, 5859, 6905, and 8293 cm-1. Notably, the PL intensity of VA-SWNT@BNNT is 20 times smaller than that of VA-BNNT. In VA-SWNT, we observe an additional Raman peak at 4677 cm-1, which closely aligns with the 4639 cm-1 PL peak of VA-SWNT@BNNT, suggesting photoexcited electrons in VA-BNNT may transfer to the Raman process within VA-SWNT component of VA-SWNT@BNNT. The first-principles calculations identify possible donor and acceptor states in BN bilayers with substitutional defects (e.g., carbon replacing boron or nitrogen). These defect states are also relevant to understanding the origin of PL in BNNT.

AB - Using a 266 nm laser, we simultaneously observe Raman and photoluminescence (PL) spectra of vertically aligned boron-nitride nanotubes (VA-BNNT) and single-walled carbon nanotubes (SWNT) encapsulated by boron nitride (VA-SWNT@BNNT). The larger PL intensity in VA-BNNT compared to that of the h-BN single crystal suggests that VA-BNNT contains more defect states. VA-SWNT@BNNT exhibits two multiphonon Raman peaks at 3033 and 3142 cm-1 and four PL peaks at 4639, 5859, 6905, and 8293 cm-1. Notably, the PL intensity of VA-SWNT@BNNT is 20 times smaller than that of VA-BNNT. In VA-SWNT, we observe an additional Raman peak at 4677 cm-1, which closely aligns with the 4639 cm-1 PL peak of VA-SWNT@BNNT, suggesting photoexcited electrons in VA-BNNT may transfer to the Raman process within VA-SWNT component of VA-SWNT@BNNT. The first-principles calculations identify possible donor and acceptor states in BN bilayers with substitutional defects (e.g., carbon replacing boron or nitrogen). These defect states are also relevant to understanding the origin of PL in BNNT.

UR - http://www.scopus.com/inward/record.url?scp=85217384844&partnerID=8YFLogxK

U2 - 10.1021/acs.jpclett.4c03681

DO - 10.1021/acs.jpclett.4c03681

M3 - Article

AN - SCOPUS:85217384844

SN - 1948-7185

VL - 16

SP - 1711

EP - 1719

JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 7

ER -

Quenching of Defect-Induced Photoluminescence in a Boron-Nitride and Carbon Hetero-nanotube

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