Abstract

Transient reflection was performed on large-area chemical vapor deposition (CVD) grown monolayer MoS2 flakes with silver nano-triangles coated on the surface to characterize its modifications to the optical properties of MoS2. Broadband transient reflection was carried out over a range of different pump wavelengths to tune in and out of the plasmonic resonance band of the nano-triangles. Large enhancement in transient reflectivity was observed, which approximately followed the plasmon resonance spectrum of the nano-triangles. Finite-difference time-domain simulations were performed to verify that there is an increased absorption due to local surface plasmon-induced near-field enhancements. We also report observation of the dynamics of the MoS2 exciton bleaching bands, which showed subtle differences in recombination dynamics related to the exciton-plasmon coupling strength for excitation on-resonance and off-resonance at the silver nano-triangles plasmonic band.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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    [Crossref]
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    [Crossref]
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    [Crossref]
  29. S. Butun, E. Palacios, J. D. Cain, Z. Liu, V. P. Dravid, and K. Aydin, “Quantifying Plasmon-Enhanced Light Absorption in Monolayer WS2Films,” ACS Appl. Mater. Interfaces 9(17), 15044–15051 (2017).
    [Crossref]
  30. V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
    [Crossref]
  31. G. Kime, M. A. Leontiadou, J. R. Brent, N. Savjani, P. O’Brien, and D. Binks, “Ultrafast Charge Dynamics in Dispersions of Monolayer MoS 2 Nanosheets,” J. Phys. Chem. C 121(40), 22415–22421 (2017).
    [Crossref]
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    [Crossref]
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    [Crossref]
  34. H. Wang, C. Zhang, and F. Rana, “Ultrafast dynamics of defect-assisted electron-hole recombination in monolayer MoS2,” Nano Lett. 15(1), 339–345 (2015).
    [Crossref]
  35. D. Sun, Y. Rao, G. A. Reider, G. Chen, Y. You, L. Brézin, A. R. Harutyunyan, and T. F. Heinz, “Observation of rapid exciton-exciton annihilation in monolayer molybdenum disulfide,” Nano Lett. 14(10), 5625–5629 (2014).
    [Crossref]
  36. W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
    [Crossref]
  37. Y. Li, A. Chernikov, X. Zhang, A. Rigosi, H. M. Hill, A. M. Van Der Zande, D. A. Chenet, E. M. Shih, J. Hone, and T. F. Heinz, “Measurement of the optical dielectric function of monolayer transition-metal dichalcogenides: MoS2, MoSe2, WS2, and WS e2,” Phys. Rev. B 90, 205422 (2014).
    [Crossref]

2018 (1)

V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
[Crossref]

2017 (8)

G. Kime, M. A. Leontiadou, J. R. Brent, N. Savjani, P. O’Brien, and D. Binks, “Ultrafast Charge Dynamics in Dispersions of Monolayer MoS 2 Nanosheets,” J. Phys. Chem. C 121(40), 22415–22421 (2017).
[Crossref]

Y. Park, S. W. Han, C. C. S. Chan, B. P. L. Reid, R. A. Taylor, N. Kim, Y. Jo, H. Im, and K. S. Kim, “Interplay between many body effects and Coulomb screening in the optical bandgap of atomically thin MoS2,” Nanoscale 9(30), 10647–10652 (2017).
[Crossref]

L. Yuan, T. Wang, T. Zhu, M. Zhou, and L. Huang, “Exciton Dynamics, Transport, and Annihilation in Atomically Thin Two-Dimensional Semiconductors,” J. Phys. Chem. Lett. 8(14), 3371–3379 (2017).
[Crossref]

W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
[Crossref]

S. Butun, E. Palacios, J. D. Cain, Z. Liu, V. P. Dravid, and K. Aydin, “Quantifying Plasmon-Enhanced Light Absorption in Monolayer WS2Films,” ACS Appl. Mater. Interfaces 9(17), 15044–15051 (2017).
[Crossref]

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

B. Mukherjee, N. Kaushik, R. P. N. Tripathi, A. M. Joseph, P. K. Mohapatra, S. Dhar, B. P. Singh, G. V. P. Kumar, E. Simsek, and S. Lodha, “Exciton Emission Intensity Modulation of Monolayer MoS2 via Au Plasmon Coupling,” Sci. Rep. 7(1), 41175 (2017).
[Crossref]

2016 (6)

W. Liu, B. Lee, C. H. Naylor, H. S. Ee, J. Park, A. T. C. Johnson, and R. Agarwal, “Strong Exciton-Plasmon Coupling in MoS2 Coupled with Plasmonic Lattice,” Nano Lett. 16(2), 1262–1269 (2016).
[Crossref]

Y. Yu, Z. Ji, S. Zu, B. Du, Y. Kang, Z. Li, Z. Zhou, K. Shi, and Z. Fang, “Ultrafast Plasmonic Hot Electron Transfer in Au Nanoantenna/MoS2 Heterostructures,” Adv. Funct. Mater. 26(35), 6394–6401 (2016).
[Crossref]

J. R. Piper and S. Fan, “Broadband Absorption Enhancement in Solar Cells with an Atomically Thin Active Layer,” ACS Photonics 3(4), 571–577 (2016).
[Crossref]

S. M. Bahauddin, H. Robatjazi, and I. Thomann, “Broadband Absorption Engineering to Enhance Light Absorption in Monolayer MoS2,” ACS Photonics 3(5), 853–862 (2016).
[Crossref]

F. Ceballos, Q. Cui, M. Z. Bellus, and H. Zhao, “Exciton formation in monolayer transition metal dichalcogenides,” Nanoscale 8(22), 11681–11688 (2016).
[Crossref]

E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
[Crossref]

2015 (5)

S. Butun, S. Tongay, and K. Aydin, “Enhanced Light Emission from Large-Area Monolayer MoS2 Using Plasmonic Nanodisc Arrays,” Nano Lett. 15(4), 2700–2704 (2015).
[Crossref]

H. Wang, C. Zhang, and F. Rana, “Ultrafast dynamics of defect-assisted electron-hole recombination in monolayer MoS2,” Nano Lett. 15(1), 339–345 (2015).
[Crossref]

H. Wang, C. Zhang, W. Chan, S. Tiwari, and F. Rana, “Ultrafast response of monolayer molybdenum disulfide photodetectors,” Nat. Commun. 6, 8831 (2015).
[Crossref]

Z. Li, Y. Xiao, Y. Gong, Z. Wang, Y. Kang, S. Zu, P. M. Ajayan, P. Nordlander, and Z. Fang, “Active Light Control of the MoS 2 Monolayer Exciton Binding Energy,” ACS Nano 9(10), 10158–10164 (2015).
[Crossref]

C. Wu, X. Zhou, and J. Wei, “Localized Surface Plasmon Resonance of Silver Nanotriangles Synthesized by a Versatile Solution Reaction,” Nanoscale Res. Lett. 10(1), 1–6 (2015).
[Crossref]

2014 (6)

X. Ling, Y. H. Lee, Y. Lin, W. Fang, L. Yu, M. S. Dresselhaus, and J. Kong, “Role of the seeding promoter in MoS2growth by chemical vapor deposition,” Nano Lett. 14(2), 464–472 (2014).
[Crossref]

S. Huang, X. Ling, L. Liang, J. Kong, H. Terrones, V. Meunier, and M. S. Dresselhaus, “Probing the interlayer coupling of twisted bilayer MoS2 using photoluminescence spectroscopy,” Nano Lett. 14(10), 5500–5508 (2014).
[Crossref]

F. Xia, H. Wang, D. Xiao, M. Dubey, and A. Ramasubramaniam, “Two-dimensional material nanophotonics,” Nat. Photonics 8(12), 899–907 (2014).
[Crossref]

D. Sun, Y. Rao, G. A. Reider, G. Chen, Y. You, L. Brézin, A. R. Harutyunyan, and T. F. Heinz, “Observation of rapid exciton-exciton annihilation in monolayer molybdenum disulfide,” Nano Lett. 14(10), 5625–5629 (2014).
[Crossref]

Y. Li, A. Chernikov, X. Zhang, A. Rigosi, H. M. Hill, A. M. Van Der Zande, D. A. Chenet, E. M. Shih, J. Hone, and T. F. Heinz, “Measurement of the optical dielectric function of monolayer transition-metal dichalcogenides: MoS2, MoSe2, WS2, and WS e2,” Phys. Rev. B 90, 205422 (2014).
[Crossref]

Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
[Crossref]

2013 (4)

S. Sim, J. Park, J.-G. Song, C. In, Y.-S. Lee, H. Kim, and H. Choi, “Exciton dynamics in atomically thin MoS2: inter-excitonic interaction and broadening kinetics,” Phys. Rev. B 88(7), 075434 (2013).
[Crossref]

H. Shi, R. Yan, S. Bertolazzi, J. Brivio, B. Gao, A. Kis, D. Jena, H. G. Xing, and L. Huang, “Exciton dynamics in suspended monolayer and few-layer MoS2 2D crystals,” ACS Nano 7(2), 1072–1080 (2013).
[Crossref]

M. Bernardi, M. Palummo, and J. C. Grossman, “Extraordinary sunlight absorption and one nanometer thick photovoltaics using two-dimensional monolayer materials,” Nano Lett. 13(8), 3664–3670 (2013).
[Crossref]

Y. H. Chang, C. Te Lin, T. Y. Chen, C. L. Hsu, Y. H. Lee, W. Zhang, K. H. Wei, and L. J. Li, “Highly efficient electrocatalytic hydrogen production by MoSx grown on graphene-protected 3D Ni foams,” Adv. Mater. 25(5), 756–760 (2013).
[Crossref]

2012 (4)

K. F. Mak, K. He, J. Shan, and T. F. Heinz, “Control of valley polarization in monolayer MoS2 by optical helicity,” Nat. Nanotechnol. 7(8), 494–498 (2012).
[Crossref]

H. Li, Q. Zhang, C. C. R. Yap, B. K. Tay, T. H. T. Edwin, A. Olivier, and D. Baillargeat, “From bulk to monolayer MoS 2: Evolution of Raman scattering,” Adv. Funct. Mater. 22(7), 1385–1390 (2012).
[Crossref]

Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
[Crossref]

R. Wang, B. A. Ruzicka, N. Kumar, M. Z. Bellus, H. Y. Chiu, and H. Zhao, “Ultrafast and spatially resolved studies of charge carriers in atomically thin molybdenum disulfide,” Phys. Rev. B 86, 045406 (2012).
[Crossref]

2011 (1)

B. Radisavljevic, A. Radenovic, J. Brivio, V. Giacometti, and A. Kis, “Single-layer MoS2 transistors,” Nat. Nanotechnol. 6(3), 147–150 (2011).
[Crossref]

1999 (1)

H. X. Xu, E. J. Bjerneld, M. Käll, and L. Börjesson, “Spectroscopy of single hemoglobin molecules by surface enhanced Raman scattering,” Phys. Rev. Lett. 83(21), 4357–4360 (1999).
[Crossref]

1985 (1)

S. Schmitt-Rink, D. S. Chemla, and D. A. B. Miller, “Theory of transient excitonic optical nonlinearities in semiconductor quantum-well structures,” Phys. Rev. B 32(10), 6601–6609 (1985).
[Crossref]

Agarwal, R.

W. Liu, B. Lee, C. H. Naylor, H. S. Ee, J. Park, A. T. C. Johnson, and R. Agarwal, “Strong Exciton-Plasmon Coupling in MoS2 Coupled with Plasmonic Lattice,” Nano Lett. 16(2), 1262–1269 (2016).
[Crossref]

Ajayan, P. M.

Z. Li, Y. Xiao, Y. Gong, Z. Wang, Y. Kang, S. Zu, P. M. Ajayan, P. Nordlander, and Z. Fang, “Active Light Control of the MoS 2 Monolayer Exciton Binding Energy,” ACS Nano 9(10), 10158–10164 (2015).
[Crossref]

Aydin, K.

S. Butun, E. Palacios, J. D. Cain, Z. Liu, V. P. Dravid, and K. Aydin, “Quantifying Plasmon-Enhanced Light Absorption in Monolayer WS2Films,” ACS Appl. Mater. Interfaces 9(17), 15044–15051 (2017).
[Crossref]

S. Butun, S. Tongay, and K. Aydin, “Enhanced Light Emission from Large-Area Monolayer MoS2 Using Plasmonic Nanodisc Arrays,” Nano Lett. 15(4), 2700–2704 (2015).
[Crossref]

Backes, C.

V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
[Crossref]

Bahauddin, S. M.

S. M. Bahauddin, H. Robatjazi, and I. Thomann, “Broadband Absorption Engineering to Enhance Light Absorption in Monolayer MoS2,” ACS Photonics 3(5), 853–862 (2016).
[Crossref]

Baillargeat, D.

H. Li, Q. Zhang, C. C. R. Yap, B. K. Tay, T. H. T. Edwin, A. Olivier, and D. Baillargeat, “From bulk to monolayer MoS 2: Evolution of Raman scattering,” Adv. Funct. Mater. 22(7), 1385–1390 (2012).
[Crossref]

Bao, Q.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Bellus, M. Z.

F. Ceballos, Q. Cui, M. Z. Bellus, and H. Zhao, “Exciton formation in monolayer transition metal dichalcogenides,” Nanoscale 8(22), 11681–11688 (2016).
[Crossref]

R. Wang, B. A. Ruzicka, N. Kumar, M. Z. Bellus, H. Y. Chiu, and H. Zhao, “Ultrafast and spatially resolved studies of charge carriers in atomically thin molybdenum disulfide,” Phys. Rev. B 86, 045406 (2012).
[Crossref]

Bernardi, M.

M. Bernardi, M. Palummo, and J. C. Grossman, “Extraordinary sunlight absorption and one nanometer thick photovoltaics using two-dimensional monolayer materials,” Nano Lett. 13(8), 3664–3670 (2013).
[Crossref]

Bertolazzi, S.

H. Shi, R. Yan, S. Bertolazzi, J. Brivio, B. Gao, A. Kis, D. Jena, H. G. Xing, and L. Huang, “Exciton dynamics in suspended monolayer and few-layer MoS2 2D crystals,” ACS Nano 7(2), 1072–1080 (2013).
[Crossref]

Bin Li, X.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Binks, D.

G. Kime, M. A. Leontiadou, J. R. Brent, N. Savjani, P. O’Brien, and D. Binks, “Ultrafast Charge Dynamics in Dispersions of Monolayer MoS 2 Nanosheets,” J. Phys. Chem. C 121(40), 22415–22421 (2017).
[Crossref]

Bjerneld, E. J.

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Y. Park, S. W. Han, C. C. S. Chan, B. P. L. Reid, R. A. Taylor, N. Kim, Y. Jo, H. Im, and K. S. Kim, “Interplay between many body effects and Coulomb screening in the optical bandgap of atomically thin MoS2,” Nanoscale 9(30), 10647–10652 (2017).
[Crossref]

Kime, G.

G. Kime, M. A. Leontiadou, J. R. Brent, N. Savjani, P. O’Brien, and D. Binks, “Ultrafast Charge Dynamics in Dispersions of Monolayer MoS 2 Nanosheets,” J. Phys. Chem. C 121(40), 22415–22421 (2017).
[Crossref]

Kis, A.

H. Shi, R. Yan, S. Bertolazzi, J. Brivio, B. Gao, A. Kis, D. Jena, H. G. Xing, and L. Huang, “Exciton dynamics in suspended monolayer and few-layer MoS2 2D crystals,” ACS Nano 7(2), 1072–1080 (2013).
[Crossref]

B. Radisavljevic, A. Radenovic, J. Brivio, V. Giacometti, and A. Kis, “Single-layer MoS2 transistors,” Nat. Nanotechnol. 6(3), 147–150 (2011).
[Crossref]

Kong, J.

X. Ling, Y. H. Lee, Y. Lin, W. Fang, L. Yu, M. S. Dresselhaus, and J. Kong, “Role of the seeding promoter in MoS2growth by chemical vapor deposition,” Nano Lett. 14(2), 464–472 (2014).
[Crossref]

S. Huang, X. Ling, L. Liang, J. Kong, H. Terrones, V. Meunier, and M. S. Dresselhaus, “Probing the interlayer coupling of twisted bilayer MoS2 using photoluminescence spectroscopy,” Nano Lett. 14(10), 5500–5508 (2014).
[Crossref]

Kumar, G. V. P.

B. Mukherjee, N. Kaushik, R. P. N. Tripathi, A. M. Joseph, P. K. Mohapatra, S. Dhar, B. P. Singh, G. V. P. Kumar, E. Simsek, and S. Lodha, “Exciton Emission Intensity Modulation of Monolayer MoS2 via Au Plasmon Coupling,” Sci. Rep. 7(1), 41175 (2017).
[Crossref]

Kumar, N.

R. Wang, B. A. Ruzicka, N. Kumar, M. Z. Bellus, H. Y. Chiu, and H. Zhao, “Ultrafast and spatially resolved studies of charge carriers in atomically thin molybdenum disulfide,” Phys. Rev. B 86, 045406 (2012).
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Lee, B.

W. Liu, B. Lee, C. H. Naylor, H. S. Ee, J. Park, A. T. C. Johnson, and R. Agarwal, “Strong Exciton-Plasmon Coupling in MoS2 Coupled with Plasmonic Lattice,” Nano Lett. 16(2), 1262–1269 (2016).
[Crossref]

Lee, Y. H.

X. Ling, Y. H. Lee, Y. Lin, W. Fang, L. Yu, M. S. Dresselhaus, and J. Kong, “Role of the seeding promoter in MoS2growth by chemical vapor deposition,” Nano Lett. 14(2), 464–472 (2014).
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Y. H. Chang, C. Te Lin, T. Y. Chen, C. L. Hsu, Y. H. Lee, W. Zhang, K. H. Wei, and L. J. Li, “Highly efficient electrocatalytic hydrogen production by MoSx grown on graphene-protected 3D Ni foams,” Adv. Mater. 25(5), 756–760 (2013).
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Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
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S. Sim, J. Park, J.-G. Song, C. In, Y.-S. Lee, H. Kim, and H. Choi, “Exciton dynamics in atomically thin MoS2: inter-excitonic interaction and broadening kinetics,” Phys. Rev. B 88(7), 075434 (2013).
[Crossref]

Leontiadou, M. A.

G. Kime, M. A. Leontiadou, J. R. Brent, N. Savjani, P. O’Brien, and D. Binks, “Ultrafast Charge Dynamics in Dispersions of Monolayer MoS 2 Nanosheets,” J. Phys. Chem. C 121(40), 22415–22421 (2017).
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B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

Li, H.

H. Li, Q. Zhang, C. C. R. Yap, B. K. Tay, T. H. T. Edwin, A. Olivier, and D. Baillargeat, “From bulk to monolayer MoS 2: Evolution of Raman scattering,” Adv. Funct. Mater. 22(7), 1385–1390 (2012).
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Li, J.

W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
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Li, L. J.

Y. H. Chang, C. Te Lin, T. Y. Chen, C. L. Hsu, Y. H. Lee, W. Zhang, K. H. Wei, and L. J. Li, “Highly efficient electrocatalytic hydrogen production by MoSx grown on graphene-protected 3D Ni foams,” Adv. Mater. 25(5), 756–760 (2013).
[Crossref]

Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
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Y. Li, A. Chernikov, X. Zhang, A. Rigosi, H. M. Hill, A. M. Van Der Zande, D. A. Chenet, E. M. Shih, J. Hone, and T. F. Heinz, “Measurement of the optical dielectric function of monolayer transition-metal dichalcogenides: MoS2, MoSe2, WS2, and WS e2,” Phys. Rev. B 90, 205422 (2014).
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Li, Z.

Y. Yu, Z. Ji, S. Zu, B. Du, Y. Kang, Z. Li, Z. Zhou, K. Shi, and Z. Fang, “Ultrafast Plasmonic Hot Electron Transfer in Au Nanoantenna/MoS2 Heterostructures,” Adv. Funct. Mater. 26(35), 6394–6401 (2016).
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Z. Li, Y. Xiao, Y. Gong, Z. Wang, Y. Kang, S. Zu, P. M. Ajayan, P. Nordlander, and Z. Fang, “Active Light Control of the MoS 2 Monolayer Exciton Binding Energy,” ACS Nano 9(10), 10158–10164 (2015).
[Crossref]

Liang, L.

S. Huang, X. Ling, L. Liang, J. Kong, H. Terrones, V. Meunier, and M. S. Dresselhaus, “Probing the interlayer coupling of twisted bilayer MoS2 using photoluminescence spectroscopy,” Nano Lett. 14(10), 5500–5508 (2014).
[Crossref]

Liang, W.

W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
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Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
[Crossref]

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W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
[Crossref]

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X. Ling, Y. H. Lee, Y. Lin, W. Fang, L. Yu, M. S. Dresselhaus, and J. Kong, “Role of the seeding promoter in MoS2growth by chemical vapor deposition,” Nano Lett. 14(2), 464–472 (2014).
[Crossref]

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X. Ling, Y. H. Lee, Y. Lin, W. Fang, L. Yu, M. S. Dresselhaus, and J. Kong, “Role of the seeding promoter in MoS2growth by chemical vapor deposition,” Nano Lett. 14(2), 464–472 (2014).
[Crossref]

S. Huang, X. Ling, L. Liang, J. Kong, H. Terrones, V. Meunier, and M. S. Dresselhaus, “Probing the interlayer coupling of twisted bilayer MoS2 using photoluminescence spectroscopy,” Nano Lett. 14(10), 5500–5508 (2014).
[Crossref]

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W. Liu, B. Lee, C. H. Naylor, H. S. Ee, J. Park, A. T. C. Johnson, and R. Agarwal, “Strong Exciton-Plasmon Coupling in MoS2 Coupled with Plasmonic Lattice,” Nano Lett. 16(2), 1262–1269 (2016).
[Crossref]

Liu, Z.

B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

S. Butun, E. Palacios, J. D. Cain, Z. Liu, V. P. Dravid, and K. Aydin, “Quantifying Plasmon-Enhanced Light Absorption in Monolayer WS2Films,” ACS Appl. Mater. Interfaces 9(17), 15044–15051 (2017).
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Lodha, S.

B. Mukherjee, N. Kaushik, R. P. N. Tripathi, A. M. Joseph, P. K. Mohapatra, S. Dhar, B. P. Singh, G. V. P. Kumar, E. Simsek, and S. Lodha, “Exciton Emission Intensity Modulation of Monolayer MoS2 via Au Plasmon Coupling,” Sci. Rep. 7(1), 41175 (2017).
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Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
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Lombardo, A.

E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
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Long, R.

Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
[Crossref]

Luo, Y.

B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

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L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Mak, K. F.

K. F. Mak, K. He, J. Shan, and T. F. Heinz, “Control of valley polarization in monolayer MoS2 by optical helicity,” Nat. Nanotechnol. 7(8), 494–498 (2012).
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Manzoni, C.

E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
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Marini, A.

E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
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Marsili, M.

E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
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Meunier, V.

S. Huang, X. Ling, L. Liang, J. Kong, H. Terrones, V. Meunier, and M. S. Dresselhaus, “Probing the interlayer coupling of twisted bilayer MoS2 using photoluminescence spectroscopy,” Nano Lett. 14(10), 5500–5508 (2014).
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Mihailovic, D.

V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
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Miller, D. A. B.

S. Schmitt-Rink, D. S. Chemla, and D. A. B. Miller, “Theory of transient excitonic optical nonlinearities in semiconductor quantum-well structures,” Phys. Rev. B 32(10), 6601–6609 (1985).
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B. Mukherjee, N. Kaushik, R. P. N. Tripathi, A. M. Joseph, P. K. Mohapatra, S. Dhar, B. P. Singh, G. V. P. Kumar, E. Simsek, and S. Lodha, “Exciton Emission Intensity Modulation of Monolayer MoS2 via Au Plasmon Coupling,” Sci. Rep. 7(1), 41175 (2017).
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Mukherjee, B.

B. Mukherjee, N. Kaushik, R. P. N. Tripathi, A. M. Joseph, P. K. Mohapatra, S. Dhar, B. P. Singh, G. V. P. Kumar, E. Simsek, and S. Lodha, “Exciton Emission Intensity Modulation of Monolayer MoS2 via Au Plasmon Coupling,” Sci. Rep. 7(1), 41175 (2017).
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Naylor, C. H.

W. Liu, B. Lee, C. H. Naylor, H. S. Ee, J. Park, A. T. C. Johnson, and R. Agarwal, “Strong Exciton-Plasmon Coupling in MoS2 Coupled with Plasmonic Lattice,” Nano Lett. 16(2), 1262–1269 (2016).
[Crossref]

Nie, Z.

Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
[Crossref]

Nordlander, P.

Z. Li, Y. Xiao, Y. Gong, Z. Wang, Y. Kang, S. Zu, P. M. Ajayan, P. Nordlander, and Z. Fang, “Active Light Control of the MoS 2 Monolayer Exciton Binding Energy,” ACS Nano 9(10), 10158–10164 (2015).
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O’Brien, P.

G. Kime, M. A. Leontiadou, J. R. Brent, N. Savjani, P. O’Brien, and D. Binks, “Ultrafast Charge Dynamics in Dispersions of Monolayer MoS 2 Nanosheets,” J. Phys. Chem. C 121(40), 22415–22421 (2017).
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H. Li, Q. Zhang, C. C. R. Yap, B. K. Tay, T. H. T. Edwin, A. Olivier, and D. Baillargeat, “From bulk to monolayer MoS 2: Evolution of Raman scattering,” Adv. Funct. Mater. 22(7), 1385–1390 (2012).
[Crossref]

Palacios, E.

S. Butun, E. Palacios, J. D. Cain, Z. Liu, V. P. Dravid, and K. Aydin, “Quantifying Plasmon-Enhanced Light Absorption in Monolayer WS2Films,” ACS Appl. Mater. Interfaces 9(17), 15044–15051 (2017).
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M. Bernardi, M. Palummo, and J. C. Grossman, “Extraordinary sunlight absorption and one nanometer thick photovoltaics using two-dimensional monolayer materials,” Nano Lett. 13(8), 3664–3670 (2013).
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W. Liu, B. Lee, C. H. Naylor, H. S. Ee, J. Park, A. T. C. Johnson, and R. Agarwal, “Strong Exciton-Plasmon Coupling in MoS2 Coupled with Plasmonic Lattice,” Nano Lett. 16(2), 1262–1269 (2016).
[Crossref]

S. Sim, J. Park, J.-G. Song, C. In, Y.-S. Lee, H. Kim, and H. Choi, “Exciton dynamics in atomically thin MoS2: inter-excitonic interaction and broadening kinetics,” Phys. Rev. B 88(7), 075434 (2013).
[Crossref]

Park, Y.

Y. Park, S. W. Han, C. C. S. Chan, B. P. L. Reid, R. A. Taylor, N. Kim, Y. Jo, H. Im, and K. S. Kim, “Interplay between many body effects and Coulomb screening in the optical bandgap of atomically thin MoS2,” Nanoscale 9(30), 10647–10652 (2017).
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J. R. Piper and S. Fan, “Broadband Absorption Enhancement in Solar Cells with an Atomically Thin Active Layer,” ACS Photonics 3(4), 571–577 (2016).
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V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
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E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
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Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
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E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
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V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
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W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
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L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
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B. Radisavljevic, A. Radenovic, J. Brivio, V. Giacometti, and A. Kis, “Single-layer MoS2 transistors,” Nat. Nanotechnol. 6(3), 147–150 (2011).
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Radisavljevic, B.

B. Radisavljevic, A. Radenovic, J. Brivio, V. Giacometti, and A. Kis, “Single-layer MoS2 transistors,” Nat. Nanotechnol. 6(3), 147–150 (2011).
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F. Xia, H. Wang, D. Xiao, M. Dubey, and A. Ramasubramaniam, “Two-dimensional material nanophotonics,” Nat. Photonics 8(12), 899–907 (2014).
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H. Wang, C. Zhang, W. Chan, S. Tiwari, and F. Rana, “Ultrafast response of monolayer molybdenum disulfide photodetectors,” Nat. Commun. 6, 8831 (2015).
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H. Wang, C. Zhang, and F. Rana, “Ultrafast dynamics of defect-assisted electron-hole recombination in monolayer MoS2,” Nano Lett. 15(1), 339–345 (2015).
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D. Sun, Y. Rao, G. A. Reider, G. Chen, Y. You, L. Brézin, A. R. Harutyunyan, and T. F. Heinz, “Observation of rapid exciton-exciton annihilation in monolayer molybdenum disulfide,” Nano Lett. 14(10), 5625–5629 (2014).
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Reid, B. P. L.

Y. Park, S. W. Han, C. C. S. Chan, B. P. L. Reid, R. A. Taylor, N. Kim, Y. Jo, H. Im, and K. S. Kim, “Interplay between many body effects and Coulomb screening in the optical bandgap of atomically thin MoS2,” Nanoscale 9(30), 10647–10652 (2017).
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D. Sun, Y. Rao, G. A. Reider, G. Chen, Y. You, L. Brézin, A. R. Harutyunyan, and T. F. Heinz, “Observation of rapid exciton-exciton annihilation in monolayer molybdenum disulfide,” Nano Lett. 14(10), 5625–5629 (2014).
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Y. Li, A. Chernikov, X. Zhang, A. Rigosi, H. M. Hill, A. M. Van Der Zande, D. A. Chenet, E. M. Shih, J. Hone, and T. F. Heinz, “Measurement of the optical dielectric function of monolayer transition-metal dichalcogenides: MoS2, MoSe2, WS2, and WS e2,” Phys. Rev. B 90, 205422 (2014).
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R. Wang, B. A. Ruzicka, N. Kumar, M. Z. Bellus, H. Y. Chiu, and H. Zhao, “Ultrafast and spatially resolved studies of charge carriers in atomically thin molybdenum disulfide,” Phys. Rev. B 86, 045406 (2012).
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Sangalli, D.

E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
[Crossref]

Savjani, N.

G. Kime, M. A. Leontiadou, J. R. Brent, N. Savjani, P. O’Brien, and D. Binks, “Ultrafast Charge Dynamics in Dispersions of Monolayer MoS 2 Nanosheets,” J. Phys. Chem. C 121(40), 22415–22421 (2017).
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S. Schmitt-Rink, D. S. Chemla, and D. A. B. Miller, “Theory of transient excitonic optical nonlinearities in semiconductor quantum-well structures,” Phys. Rev. B 32(10), 6601–6609 (1985).
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Shan, H.

B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

Shan, J.

K. F. Mak, K. He, J. Shan, and T. F. Heinz, “Control of valley polarization in monolayer MoS2 by optical helicity,” Nat. Nanotechnol. 7(8), 494–498 (2012).
[Crossref]

Shen, Z.

Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
[Crossref]

Shi, H.

H. Shi, R. Yan, S. Bertolazzi, J. Brivio, B. Gao, A. Kis, D. Jena, H. G. Xing, and L. Huang, “Exciton dynamics in suspended monolayer and few-layer MoS2 2D crystals,” ACS Nano 7(2), 1072–1080 (2013).
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Shi, K.

Y. Yu, Z. Ji, S. Zu, B. Du, Y. Kang, Z. Li, Z. Zhou, K. Shi, and Z. Fang, “Ultrafast Plasmonic Hot Electron Transfer in Au Nanoantenna/MoS2 Heterostructures,” Adv. Funct. Mater. 26(35), 6394–6401 (2016).
[Crossref]

Shi, Y.

W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
[Crossref]

Shih, E. M.

Y. Li, A. Chernikov, X. Zhang, A. Rigosi, H. M. Hill, A. M. Van Der Zande, D. A. Chenet, E. M. Shih, J. Hone, and T. F. Heinz, “Measurement of the optical dielectric function of monolayer transition-metal dichalcogenides: MoS2, MoSe2, WS2, and WS e2,” Phys. Rev. B 90, 205422 (2014).
[Crossref]

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S. Sim, J. Park, J.-G. Song, C. In, Y.-S. Lee, H. Kim, and H. Choi, “Exciton dynamics in atomically thin MoS2: inter-excitonic interaction and broadening kinetics,” Phys. Rev. B 88(7), 075434 (2013).
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B. Mukherjee, N. Kaushik, R. P. N. Tripathi, A. M. Joseph, P. K. Mohapatra, S. Dhar, B. P. Singh, G. V. P. Kumar, E. Simsek, and S. Lodha, “Exciton Emission Intensity Modulation of Monolayer MoS2 via Au Plasmon Coupling,” Sci. Rep. 7(1), 41175 (2017).
[Crossref]

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B. Mukherjee, N. Kaushik, R. P. N. Tripathi, A. M. Joseph, P. K. Mohapatra, S. Dhar, B. P. Singh, G. V. P. Kumar, E. Simsek, and S. Lodha, “Exciton Emission Intensity Modulation of Monolayer MoS2 via Au Plasmon Coupling,” Sci. Rep. 7(1), 41175 (2017).
[Crossref]

Song, J.-G.

S. Sim, J. Park, J.-G. Song, C. In, Y.-S. Lee, H. Kim, and H. Choi, “Exciton dynamics in atomically thin MoS2: inter-excitonic interaction and broadening kinetics,” Phys. Rev. B 88(7), 075434 (2013).
[Crossref]

Sun, D.

D. Sun, Y. Rao, G. A. Reider, G. Chen, Y. You, L. Brézin, A. R. Harutyunyan, and T. F. Heinz, “Observation of rapid exciton-exciton annihilation in monolayer molybdenum disulfide,” Nano Lett. 14(10), 5625–5629 (2014).
[Crossref]

Sun, H. B.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Sun, L.

Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
[Crossref]

Sun, M.

W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
[Crossref]

Tay, B. K.

H. Li, Q. Zhang, C. C. R. Yap, B. K. Tay, T. H. T. Edwin, A. Olivier, and D. Baillargeat, “From bulk to monolayer MoS 2: Evolution of Raman scattering,” Adv. Funct. Mater. 22(7), 1385–1390 (2012).
[Crossref]

Taylor, R. A.

Y. Park, S. W. Han, C. C. S. Chan, B. P. L. Reid, R. A. Taylor, N. Kim, Y. Jo, H. Im, and K. S. Kim, “Interplay between many body effects and Coulomb screening in the optical bandgap of atomically thin MoS2,” Nanoscale 9(30), 10647–10652 (2017).
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Te Lin, C.

Y. H. Chang, C. Te Lin, T. Y. Chen, C. L. Hsu, Y. H. Lee, W. Zhang, K. H. Wei, and L. J. Li, “Highly efficient electrocatalytic hydrogen production by MoSx grown on graphene-protected 3D Ni foams,” Adv. Mater. 25(5), 756–760 (2013).
[Crossref]

Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
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Terrones, H.

S. Huang, X. Ling, L. Liang, J. Kong, H. Terrones, V. Meunier, and M. S. Dresselhaus, “Probing the interlayer coupling of twisted bilayer MoS2 using photoluminescence spectroscopy,” Nano Lett. 14(10), 5500–5508 (2014).
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Thomann, I.

S. M. Bahauddin, H. Robatjazi, and I. Thomann, “Broadband Absorption Engineering to Enhance Light Absorption in Monolayer MoS2,” ACS Photonics 3(5), 853–862 (2016).
[Crossref]

Tiwari, S.

H. Wang, C. Zhang, W. Chan, S. Tiwari, and F. Rana, “Ultrafast response of monolayer molybdenum disulfide photodetectors,” Nat. Commun. 6, 8831 (2015).
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Tongay, S.

S. Butun, S. Tongay, and K. Aydin, “Enhanced Light Emission from Large-Area Monolayer MoS2 Using Plasmonic Nanodisc Arrays,” Nano Lett. 15(4), 2700–2704 (2015).
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Tripathi, R. P. N.

B. Mukherjee, N. Kaushik, R. P. N. Tripathi, A. M. Joseph, P. K. Mohapatra, S. Dhar, B. P. Singh, G. V. P. Kumar, E. Simsek, and S. Lodha, “Exciton Emission Intensity Modulation of Monolayer MoS2 via Au Plasmon Coupling,” Sci. Rep. 7(1), 41175 (2017).
[Crossref]

Van Der Zande, A. M.

Y. Li, A. Chernikov, X. Zhang, A. Rigosi, H. M. Hill, A. M. Van Der Zande, D. A. Chenet, E. M. Shih, J. Hone, and T. F. Heinz, “Measurement of the optical dielectric function of monolayer transition-metal dichalcogenides: MoS2, MoSe2, WS2, and WS e2,” Phys. Rev. B 90, 205422 (2014).
[Crossref]

Vega-Mayoral, V.

V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
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Vella, D.

V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
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Wang, D.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Wang, H.

H. Wang, C. Zhang, W. Chan, S. Tiwari, and F. Rana, “Ultrafast response of monolayer molybdenum disulfide photodetectors,” Nat. Commun. 6, 8831 (2015).
[Crossref]

H. Wang, C. Zhang, and F. Rana, “Ultrafast dynamics of defect-assisted electron-hole recombination in monolayer MoS2,” Nano Lett. 15(1), 339–345 (2015).
[Crossref]

F. Xia, H. Wang, D. Xiao, M. Dubey, and A. Ramasubramaniam, “Two-dimensional material nanophotonics,” Nat. Photonics 8(12), 899–907 (2014).
[Crossref]

Wang, H. Y.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Wang, J. T. W.

Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
[Crossref]

Wang, L.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
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Wang, R.

R. Wang, B. A. Ruzicka, N. Kumar, M. Z. Bellus, H. Y. Chiu, and H. Zhao, “Ultrafast and spatially resolved studies of charge carriers in atomically thin molybdenum disulfide,” Phys. Rev. B 86, 045406 (2012).
[Crossref]

Wang, T.

L. Yuan, T. Wang, T. Zhu, M. Zhou, and L. Huang, “Exciton Dynamics, Transport, and Annihilation in Atomically Thin Two-Dimensional Semiconductors,” J. Phys. Chem. Lett. 8(14), 3371–3379 (2017).
[Crossref]

Wang, Z.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Z. Li, Y. Xiao, Y. Gong, Z. Wang, Y. Kang, S. Zu, P. M. Ajayan, P. Nordlander, and Z. Fang, “Active Light Control of the MoS 2 Monolayer Exciton Binding Energy,” ACS Nano 9(10), 10158–10164 (2015).
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Wee, A. S.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Wei, J.

C. Wu, X. Zhou, and J. Wei, “Localized Surface Plasmon Resonance of Silver Nanotriangles Synthesized by a Versatile Solution Reaction,” Nanoscale Res. Lett. 10(1), 1–6 (2015).
[Crossref]

Wei, K. H.

Y. H. Chang, C. Te Lin, T. Y. Chen, C. L. Hsu, Y. H. Lee, W. Zhang, K. H. Wei, and L. J. Li, “Highly efficient electrocatalytic hydrogen production by MoSx grown on graphene-protected 3D Ni foams,” Adv. Mater. 25(5), 756–760 (2013).
[Crossref]

Wu, C.

C. Wu, X. Zhou, and J. Wei, “Localized Surface Plasmon Resonance of Silver Nanotriangles Synthesized by a Versatile Solution Reaction,” Nanoscale Res. Lett. 10(1), 1–6 (2015).
[Crossref]

Xia, F.

F. Xia, H. Wang, D. Xiao, M. Dubey, and A. Ramasubramaniam, “Two-dimensional material nanophotonics,” Nat. Photonics 8(12), 899–907 (2014).
[Crossref]

Xiao, D.

F. Xia, H. Wang, D. Xiao, M. Dubey, and A. Ramasubramaniam, “Two-dimensional material nanophotonics,” Nat. Photonics 8(12), 899–907 (2014).
[Crossref]

Xiao, Y.

Z. Li, Y. Xiao, Y. Gong, Z. Wang, Y. Kang, S. Zu, P. M. Ajayan, P. Nordlander, and Z. Fang, “Active Light Control of the MoS 2 Monolayer Exciton Binding Energy,” ACS Nano 9(10), 10158–10164 (2015).
[Crossref]

Xing, H. G.

H. Shi, R. Yan, S. Bertolazzi, J. Brivio, B. Gao, A. Kis, D. Jena, H. G. Xing, and L. Huang, “Exciton dynamics in suspended monolayer and few-layer MoS2 2D crystals,” ACS Nano 7(2), 1072–1080 (2013).
[Crossref]

Xiong, Q.

Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
[Crossref]

Xu, H. X.

H. X. Xu, E. J. Bjerneld, M. Käll, and L. Börjesson, “Spectroscopy of single hemoglobin molecules by surface enhanced Raman scattering,” Phys. Rev. Lett. 83(21), 4357–4360 (1999).
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Xu, X.

W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
[Crossref]

Yan, R.

H. Shi, R. Yan, S. Bertolazzi, J. Brivio, B. Gao, A. Kis, D. Jena, H. G. Xing, and L. Huang, “Exciton dynamics in suspended monolayer and few-layer MoS2 2D crystals,” ACS Nano 7(2), 1072–1080 (2013).
[Crossref]

Yang, X.

W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
[Crossref]

Yap, C. C. R.

H. Li, Q. Zhang, C. C. R. Yap, B. K. Tay, T. H. T. Edwin, A. Olivier, and D. Baillargeat, “From bulk to monolayer MoS 2: Evolution of Raman scattering,” Adv. Funct. Mater. 22(7), 1385–1390 (2012).
[Crossref]

Ye, X. H.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Yoon, D.

E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
[Crossref]

You, Y.

D. Sun, Y. Rao, G. A. Reider, G. Chen, Y. You, L. Brézin, A. R. Harutyunyan, and T. F. Heinz, “Observation of rapid exciton-exciton annihilation in monolayer molybdenum disulfide,” Nano Lett. 14(10), 5625–5629 (2014).
[Crossref]

Yu, L.

X. Ling, Y. H. Lee, Y. Lin, W. Fang, L. Yu, M. S. Dresselhaus, and J. Kong, “Role of the seeding promoter in MoS2growth by chemical vapor deposition,” Nano Lett. 14(2), 464–472 (2014).
[Crossref]

Yu, Y.

Y. Yu, Z. Ji, S. Zu, B. Du, Y. Kang, Z. Li, Z. Zhou, K. Shi, and Z. Fang, “Ultrafast Plasmonic Hot Electron Transfer in Au Nanoantenna/MoS2 Heterostructures,” Adv. Funct. Mater. 26(35), 6394–6401 (2016).
[Crossref]

Yu, Y. C.

Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
[Crossref]

Yuan, L.

L. Yuan, T. Wang, T. Zhu, M. Zhou, and L. Huang, “Exciton Dynamics, Transport, and Annihilation in Atomically Thin Two-Dimensional Semiconductors,” J. Phys. Chem. Lett. 8(14), 3371–3379 (2017).
[Crossref]

Zhang, C.

H. Wang, C. Zhang, and F. Rana, “Ultrafast dynamics of defect-assisted electron-hole recombination in monolayer MoS2,” Nano Lett. 15(1), 339–345 (2015).
[Crossref]

H. Wang, C. Zhang, W. Chan, S. Tiwari, and F. Rana, “Ultrafast response of monolayer molybdenum disulfide photodetectors,” Nat. Commun. 6, 8831 (2015).
[Crossref]

Zhang, J.

Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
[Crossref]

Zhang, Q.

H. Li, Q. Zhang, C. C. R. Yap, B. K. Tay, T. H. T. Edwin, A. Olivier, and D. Baillargeat, “From bulk to monolayer MoS 2: Evolution of Raman scattering,” Adv. Funct. Mater. 22(7), 1385–1390 (2012).
[Crossref]

Zhang, W.

Y. H. Chang, C. Te Lin, T. Y. Chen, C. L. Hsu, Y. H. Lee, W. Zhang, K. H. Wei, and L. J. Li, “Highly efficient electrocatalytic hydrogen production by MoSx grown on graphene-protected 3D Ni foams,” Adv. Mater. 25(5), 756–760 (2013).
[Crossref]

Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
[Crossref]

Zhang, X.

Y. Li, A. Chernikov, X. Zhang, A. Rigosi, H. M. Hill, A. M. Van Der Zande, D. A. Chenet, E. M. Shih, J. Hone, and T. F. Heinz, “Measurement of the optical dielectric function of monolayer transition-metal dichalcogenides: MoS2, MoSe2, WS2, and WS e2,” Phys. Rev. B 90, 205422 (2014).
[Crossref]

Zhang, X. Q.

Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
[Crossref]

Zhao, H.

F. Ceballos, Q. Cui, M. Z. Bellus, and H. Zhao, “Exciton formation in monolayer transition metal dichalcogenides,” Nanoscale 8(22), 11681–11688 (2016).
[Crossref]

R. Wang, B. A. Ruzicka, N. Kumar, M. Z. Bellus, H. Y. Chiu, and H. Zhao, “Ultrafast and spatially resolved studies of charge carriers in atomically thin molybdenum disulfide,” Phys. Rev. B 86, 045406 (2012).
[Crossref]

Zhong, M. L.

L. Wang, Z. Wang, H. Y. Wang, G. Grinblat, Y. L. Huang, D. Wang, X. H. Ye, X. Bin Li, Q. Bao, A. S. Wee, S. A. Maier, Q. D. Chen, M. L. Zhong, C. W. Qiu, and H. B. Sun, “Slow cooling and efficient extraction of C-exciton hot carriers in MoS2 monolayer,” Nat. Commun. 8, 13906 (2017).
[Crossref]

Zhou, J.

B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

Zhou, M.

L. Yuan, T. Wang, T. Zhu, M. Zhou, and L. Huang, “Exciton Dynamics, Transport, and Annihilation in Atomically Thin Two-Dimensional Semiconductors,” J. Phys. Chem. Lett. 8(14), 3371–3379 (2017).
[Crossref]

Zhou, X.

C. Wu, X. Zhou, and J. Wei, “Localized Surface Plasmon Resonance of Silver Nanotriangles Synthesized by a Versatile Solution Reaction,” Nanoscale Res. Lett. 10(1), 1–6 (2015).
[Crossref]

Zhou, Z.

Y. Yu, Z. Ji, S. Zu, B. Du, Y. Kang, Z. Li, Z. Zhou, K. Shi, and Z. Fang, “Ultrafast Plasmonic Hot Electron Transfer in Au Nanoantenna/MoS2 Heterostructures,” Adv. Funct. Mater. 26(35), 6394–6401 (2016).
[Crossref]

Zhu, T.

L. Yuan, T. Wang, T. Zhu, M. Zhou, and L. Huang, “Exciton Dynamics, Transport, and Annihilation in Atomically Thin Two-Dimensional Semiconductors,” J. Phys. Chem. Lett. 8(14), 3371–3379 (2017).
[Crossref]

Zhu, X.

B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

Zu, S.

B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

Y. Yu, Z. Ji, S. Zu, B. Du, Y. Kang, Z. Li, Z. Zhou, K. Shi, and Z. Fang, “Ultrafast Plasmonic Hot Electron Transfer in Au Nanoantenna/MoS2 Heterostructures,” Adv. Funct. Mater. 26(35), 6394–6401 (2016).
[Crossref]

Z. Li, Y. Xiao, Y. Gong, Z. Wang, Y. Kang, S. Zu, P. M. Ajayan, P. Nordlander, and Z. Fang, “Active Light Control of the MoS 2 Monolayer Exciton Binding Energy,” ACS Nano 9(10), 10158–10164 (2015).
[Crossref]

2D Mater. (1)

V. Vega-Mayoral, T. Borzda, D. Vella, M. Prijatelj, E. A. A. Pogna, C. Backes, J. N. Coleman, G. Cerullo, D. Mihailovic, and C. Gadermaier, “Charge trapping and coalescence dynamics in few layer MoS2,” 2D Mater. 5(1), 015011 (2018).
[Crossref]

ACS Appl. Mater. Interfaces (1)

S. Butun, E. Palacios, J. D. Cain, Z. Liu, V. P. Dravid, and K. Aydin, “Quantifying Plasmon-Enhanced Light Absorption in Monolayer WS2Films,” ACS Appl. Mater. Interfaces 9(17), 15044–15051 (2017).
[Crossref]

ACS Nano (5)

E. A. A. Pogna, M. Marsili, D. De Fazio, S. D. Conte, C. Manzoni, D. Sangalli, D. Yoon, A. Lombardo, A. C. Ferrari, A. Marini, G. Cerullo, and D. Prezzi, “Photo-Induced Bandgap Renormalization Governs the Ultrafast Response of Single-Layer MoS2,” ACS Nano 10(1), 1182–1188 (2016).
[Crossref]

Z. Nie, R. Long, L. Sun, C. C. Huang, J. Zhang, Q. Xiong, D. W. Hewak, Z. Shen, O. V. Prezhdo, and Z. H. Loh, “Ultrafast carrier thermalization and cooling dynamics in few-layer MoS2,” ACS Nano 8(10), 10931–10940 (2014).
[Crossref]

H. Shi, R. Yan, S. Bertolazzi, J. Brivio, B. Gao, A. Kis, D. Jena, H. G. Xing, and L. Huang, “Exciton dynamics in suspended monolayer and few-layer MoS2 2D crystals,” ACS Nano 7(2), 1072–1080 (2013).
[Crossref]

Z. Li, Y. Xiao, Y. Gong, Z. Wang, Y. Kang, S. Zu, P. M. Ajayan, P. Nordlander, and Z. Fang, “Active Light Control of the MoS 2 Monolayer Exciton Binding Energy,” ACS Nano 9(10), 10158–10164 (2015).
[Crossref]

B. Li, S. Zu, J. Zhou, Q. Jiang, B. Du, H. Shan, Y. Luo, Z. Liu, X. Zhu, and Z. Fang, “Single-Nanoparticle Plasmonic Electro-optic Modulator Based on MoS 2 Monolayers,” ACS Nano 11(10), 9720–9727 (2017).
[Crossref]

ACS Photonics (2)

J. R. Piper and S. Fan, “Broadband Absorption Enhancement in Solar Cells with an Atomically Thin Active Layer,” ACS Photonics 3(4), 571–577 (2016).
[Crossref]

S. M. Bahauddin, H. Robatjazi, and I. Thomann, “Broadband Absorption Engineering to Enhance Light Absorption in Monolayer MoS2,” ACS Photonics 3(5), 853–862 (2016).
[Crossref]

Adv. Funct. Mater. (2)

H. Li, Q. Zhang, C. C. R. Yap, B. K. Tay, T. H. T. Edwin, A. Olivier, and D. Baillargeat, “From bulk to monolayer MoS 2: Evolution of Raman scattering,” Adv. Funct. Mater. 22(7), 1385–1390 (2012).
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Adv. Mater. (2)

Y. H. Lee, X. Q. Zhang, W. Zhang, M. T. Chang, C. Te Lin, K. Di Chang, Y. C. Yu, J. T. W. Wang, C. S. Chang, L. J. Li, and T. W. Lin, “Synthesis of large-area MoS2 atomic layers with chemical vapor deposition,” Adv. Mater. 24(17), 2320–2325 (2012).
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Y. H. Chang, C. Te Lin, T. Y. Chen, C. L. Hsu, Y. H. Lee, W. Zhang, K. H. Wei, and L. J. Li, “Highly efficient electrocatalytic hydrogen production by MoSx grown on graphene-protected 3D Ni foams,” Adv. Mater. 25(5), 756–760 (2013).
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J. Phys. Chem. C (1)

G. Kime, M. A. Leontiadou, J. R. Brent, N. Savjani, P. O’Brien, and D. Binks, “Ultrafast Charge Dynamics in Dispersions of Monolayer MoS 2 Nanosheets,” J. Phys. Chem. C 121(40), 22415–22421 (2017).
[Crossref]

J. Phys. Chem. Lett. (1)

L. Yuan, T. Wang, T. Zhu, M. Zhou, and L. Huang, “Exciton Dynamics, Transport, and Annihilation in Atomically Thin Two-Dimensional Semiconductors,” J. Phys. Chem. Lett. 8(14), 3371–3379 (2017).
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Mater. Today Phys. (1)

W. Lin, Y. Shi, X. Yang, J. Li, E. Cao, X. Xu, T. Pullerits, W. Liang, and M. Sun, “Physical mechanism on exciton-plasmon coupling revealed by femtosecond pump-probe transient absorption spectroscopy,” Mater. Today Phys. 3, 33–40 (2017).
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Nano Lett. (7)

H. Wang, C. Zhang, and F. Rana, “Ultrafast dynamics of defect-assisted electron-hole recombination in monolayer MoS2,” Nano Lett. 15(1), 339–345 (2015).
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D. Sun, Y. Rao, G. A. Reider, G. Chen, Y. You, L. Brézin, A. R. Harutyunyan, and T. F. Heinz, “Observation of rapid exciton-exciton annihilation in monolayer molybdenum disulfide,” Nano Lett. 14(10), 5625–5629 (2014).
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S. Butun, S. Tongay, and K. Aydin, “Enhanced Light Emission from Large-Area Monolayer MoS2 Using Plasmonic Nanodisc Arrays,” Nano Lett. 15(4), 2700–2704 (2015).
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M. Bernardi, M. Palummo, and J. C. Grossman, “Extraordinary sunlight absorption and one nanometer thick photovoltaics using two-dimensional monolayer materials,” Nano Lett. 13(8), 3664–3670 (2013).
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S. Huang, X. Ling, L. Liang, J. Kong, H. Terrones, V. Meunier, and M. S. Dresselhaus, “Probing the interlayer coupling of twisted bilayer MoS2 using photoluminescence spectroscopy,” Nano Lett. 14(10), 5500–5508 (2014).
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Nanoscale (2)

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Nanoscale Res. Lett. (1)

C. Wu, X. Zhou, and J. Wei, “Localized Surface Plasmon Resonance of Silver Nanotriangles Synthesized by a Versatile Solution Reaction,” Nanoscale Res. Lett. 10(1), 1–6 (2015).
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Nat. Nanotechnol. (2)

K. F. Mak, K. He, J. Shan, and T. F. Heinz, “Control of valley polarization in monolayer MoS2 by optical helicity,” Nat. Nanotechnol. 7(8), 494–498 (2012).
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F. Xia, H. Wang, D. Xiao, M. Dubey, and A. Ramasubramaniam, “Two-dimensional material nanophotonics,” Nat. Photonics 8(12), 899–907 (2014).
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Phys. Rev. B (4)

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Figures (6)

Fig. 1.
Fig. 1. a) Microscope image of MoS2 on substrate b) Typical photoluminescence spectrum of MoS2 showing peak at ∼1.85 eV. c) Raman spectrum of MoS2 showing a frequency split in the two vibrational modes of 21cm−1.
Fig. 2.
Fig. 2. a) SEM image of the Ag nano-triangles on the MoS2 surface. The triangles vary in size of around 150 nm base length. b) Absorption spectrum of Ag nano-triangles coated on a glass slide. c) Transient reflection spectra intensity plot of control Ag nano-triangles on glass slide (covering the A- and B- exciton region of the MoS2) carried out under the same experimental conditions as in MoS2 case.. The integrated signal probed at 620-600 nm (i.e., B-exciton region of MoS2) is plotted in the black line overlaid on the colored intensity plot, showing no appreciable transient reflection signal in that wavelength window.
Fig. 3.
Fig. 3. Intensity plot of the broadband transient reflection spectra of MoS2 (a, c), and MoS2/Ag nano-triangles (b, d) at pumping wavelengths of 420 and 520 nm. The scale is the same across the intensity plots for comparison. Clear bleaching and induced absorption bands can be seen.
Fig. 4.
Fig. 4. a) and b) show the dependence of maximum transient reflection signal (integrated around 1 ps) on varying pump photon energy, probed at 2.0 eV (i.e., B-exciton), and 1.87 eV (i.e., A-exciton) respectively. Black squares (red circles) denote the transient reflectivity signal of the MoS2 sample without (with) nano-triangle coating. The green triangles represent the enhancement factor, which was seen to rise at <2.7 eV pump energy. c) and d) depict the transient reflectivity spectra at different delay times of MoS2 without the nano-triangle coating and with the nano-triangle coating respectively, pumped at 520 nm. The dashed line shows the position of the bleaching peak at delay times of 1-3 ps. It can be clearly seen that the A- and B- exciton bleach has similar magnitude, and that the high energy feature displays a slightly higher intensity similar to the monolayer study in in Ref. [30]
Fig. 5.
Fig. 5. Decay traces of the transient reflection with (red dotted line) and without (grey solid line) Ag nano-triangle coating; pumped at 420 nm, probed at a) 1.87 eV, b) 2.0 eV, and pumped at 520 nm probed at c) 1.87 eV, d) 2.0 eV. a), c), and d) were fit with bi-exponential fittings with the time constants indicated. b) was fit with a mono-exponential for the MoS2 film, and a bi-exponential for MoS2 with Ag coating.
Fig. 6.
Fig. 6. The FDTD simulation of the near-field enhancement near the Ag nano-triangle. (a) The structure of FDTD simulation. (b) The absorption spectra of the MoS2 with and without the Ag nano-triangle. (c) The absorption enhancement factor (square scatter symbols) and integrated electric field intensity at the MoS2 layer (circle scatter symbols) as a function of incident wavelength. (d) The electric field intensity in the MoS2 layer at an incident wavelength of 550 nm.

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