代表性论文（*通讯作者，#共同第一作者）：

12. Electrically Driven Deterministic Plasmon Light Sources Based on Arrays of Molecular Tunnel Junctions.

Q. Guo, H. Zhang, H. Zhao, Y. Ding, Y. Hu, S. Zhu, X. Wen, S. Deng, T. Wang*, W. Du*.

Nano Letters 24, 9720–9726 (2024).

11. Tuning Overbias Plasmon Energy and Intensity in Molecular Plasmonic Tunneling Junctions by Atomic Polarizability.

W. Du#, X. Chen#, T. Wang, Q. Lin, C. A. Nijhuis*.

J. Am. Chem. Soc. 146, 21642–21650 (2024).

10. Strong Linearly Polarized Light Emission by Coupling Out-of-Plane Exciton to Anisotropic Gap Plasmon Nanocavity.

K. Xu, Z. Zou, W. Li, L. Zhang, M. Ge, T. Wang, W. Du*.

Nano Letters 24, 3647–3653 (2024).

9. Room-temperature high-speed electrical modulation of excitonic distribution in a monolayer semiconductor.

G. Zhu, L. Zhang, W. Li, X. Shi, Z. Zou, Q. Guo, X. Li, W. Xu, J. Jie, T. Wang*, W. Du*, Q. Xiong.

Nature Communications 14, 6701 (2023).

8. Robust sub-5 nanometer bis(diarylcarbene)-based thin film for molecular electronics and plasmonics.

W. Xu, D. Wang*, Q. Guo, S. Zhu, L. Zhang, T. Wang, M. G. Moloney*, W. Du*.

Advanced Materials 35, 2303057 (2023). 

7. Elevating Surface-Enhanced Infrared Absorption with Quantum Mechanical Effects of Plasmonic Nanocavities.

G. Huang, K. Liu, G. Shi, Q. Guo, X. Li, Z. Liu*, W. Ma, T. Wang*.

Nano Letters 22, 6083–6090 (2022).

6. Vibrational Strong Coupling between Surface Phonon Polaritons and Organic Molecules via Single Quartz Micropillars.

K. Liu, G. Huang, X. Li, G. Zhu, W. Du, T. Wang*.

Advanced Materials 34, 2109088 (2022).

5. In Operando Characterization and Control over Intermittent Light Emission from Molecular Tunnel Junctions via Molecular Backbone Rigidity.

T. Wang, W. Du, N. Tomczak, L. Wang, C. A. Nijhuis*. 

Advanced Science 6, 1900390 (2019).

4. Directional Excitation of Surface Plasmon Polaritons via Molecular Through-Bond Tunneling across Double-Barrier Tunnel Junctions.

W. Du#, Y. Han#,  H. Hu, H. S. Chu, H. V. Annadata, T. Wang, N. Tomczak, C. A. Nijhuis*.

Nano Letters 19, 4634-4640 (2019).

3. Highly Efficient On-Chip Direct Electronic-Plasmonic Transducers.

W. Du#, T. Wang#, H. S. Chu, C. A. Nijhuis*.

Nature Photonics 11, 623–627 (2017).

2. On-chip Molecular Electronic Plasmon Sources Based on Self-assembled Monolayer Tunnel Junctions.

W. Du#, T. Wang#, H. S. Chu, L. Wu, R. Liu, S. Sun, W. K. Phua, L. Wang, N. Tomczak*, C. A. Nijhuis*.

Nature Photonics 10, 274-280 (2016).

1. Optical Properties of Single Infrared Resonant Circular Microcavities for Surface Phonon Polaritons.

T. Wang, P. Li, B. Hauer, D. N. Chigrin, T. Taubner*.

Nano Letters 13, 5051-5055 (2013).

加入FUNSOM以后发表论文（*通讯作者，#共同第一作者）：

2024

40. Electrically Driven Deterministic Plasmon Light Sources Based on Arrays of Molecular Tunnel Junctions.

Q. Guo, H. Zhang, H. Zhao, Y. Ding, Y. Hu, S. Zhu, X. Wen, S. Deng, T. Wang*, W. Du*.

Nano Letters 24, 9720–9726 (2024). 

39. Tension Induced Photoluminescence Enhancement in an Organic Single Crystal.

C. Wang, T. Zhang, L. Zhang, J. Wang, M. Ge, Y. Hu, J. Huang, L. Mei, T. Wang*, X. Chen*, W. Du*.

Small 2403035 (2024). 

38. Dynamically Blocking Leakage Current in Molecular Tunneling Junctions.

Y. Xie, S. Qiu, Q. Guo, C. Li, N. Chen, Z. Zhou, Z. Yang, Z. Cao, T. Wang*, W. Du*, L. Wang*, Y. Li*.

Chem. Sci. (2024). 

37. Tuning Overbias Plasmon Energy and Intensity in Molecular Plasmonic Tunneling Junctions by Atomic Polarizability.

W. Du#, X. Chen#, T. Wang, Q. Lin, C. A. Nijhuis*.

J. Am. Chem. Soc. 146, 21642–21650 (2024).

36. Phonon–Polaritonic Resonances on Nanopillars of Hexagonal Boron Nitride for Surface-Enhanced Infrared Absorption.

J. Wang, X. Li, Y. Ding, L. Zhang, H. Zhao, Y. Hu, W. Du, T. Wang*.

Phys. Status Solidi RRL, 2400163 (2024).

35. Revealing the correlation relation between conducting channels in self-assembled monolayer tunnel junctions.

S. Zhu, X. Li, W. Xu, Q. Guo, W. Du*, T. Wang*.

J. Mater. Chem. C 12, 7103-7109 (2024).

34. Strong Linearly Polarized Light Emission by Coupling Out-of-Plane Exciton to Anisotropic Gap Plasmon Nanocavity.

K. Xu, Z. Zou, W. Li, L. Zhang, M. Ge, T. Wang, W. Du*.

Nano Letters 24, 3647–3653 (2024).

33. Surface Enhanced Infrared Absorption Using Single Conducting Polymer Antennas.

X. Li, S. Zhu, G. Zhu, J. Wang, Y. Ding, W. Du*, T. Wang*.

ACS Appl. Mater. Interfaces 16, 14357–14363 (2024).

2023

32. Room-temperature high-speed electrical modulation of excitonic distribution in a monolayer semiconductor.

G. Zhu, L. Zhang, W. Li, X. Shi, Z. Zou, Q. Guo, X. Li, W. Xu, J. Jie, T. Wang*, W. Du*, Q. Xiong.

Nature Communications 14, 6701 (2023).

31. In‐Plane Anisotropic Phonon Polaritonic Resonances with α‐MoO3 Microdisks.

H. Zhang, X. Li, T. Qin, L. Zhang, W. Du, P. Li*, T. Wang*.

Phys. Status Solidi RRL, 2300302 (2023).

30. Front electric-field enabling highly efficient perovskite photovoltaics.

J. Chen, Y. H. Lou, K. L. Wang, D. Xue, G. P. Zhu, C. H. Chen, Y. H. Li, T. Wang, L. Z. Huang, Z. K. Wang*, L. S. Liao.

Nano Energy 115, 108692 (2023).

29. Phonon polaritons in van der Waals polar heterostructures for broadband strong light–matter interactions.

T. Qin, W. Ma, T. Wang*, P. Li*.

Nanoscale 15, 12000-12007 (2023).

28. Room-Temperature Polarized Light-Emitting Diode-Based on a 2D Monolayer Semiconductor.

X. Shi, W. Li, X. Lan, Q. Guo, G. Zhu, W. Du*, T. Wang*.

Small 2301949 (2023).

27. Robust sub-5 nanometer bis(diarylcarbene)-based thin film for molecular electronics and plasmonics.

W. Xu, D. Wang*, Q. Guo, S. Zhu, L. Zhang, T. Wang, M. G. Moloney*, W. Du*.

Advanced Materials 35, 2303057 (2023). 

26. Highly polarized light emission from hybrid of quantum dots and plasmons in the intermediate coupling regime.

X. Lan, X. Shi, L. Zhang, Q. Guo, Z. Zou, G. Zhu, X. Li, W. Du, T. Wang*.

Optics Letters 48, 3095-3098 (2023). 

25. Exciton polariton interactions in Van der Waals superlattices at room temperature.

J. Zhao, A. Fieramosca*, K. Dini, R. Bao, W. Du, R. Su, Y. Luo, W. Zhao, D. Sanvitto, T. C. H. Liew*, Q. Xiong*.

Nature Communications 14, 1512 (2023). 

24. In Situ Active Switching of Bipolar Current Rectification in 2D Semiconductor Vertical Diodes.

Q. Guo, Z. Zou, Y. Xie, X. Lan, G. Zhu, K. Xu, R. Jin, W. Xu, G. Huang, Y. Li*, T. Wang*, W. Du*.

ACS Appl. Mater. Interfaces 15, 1583–1591 (2023).

23. Self-Amplified Photon Guiding in the Luminescent Organic Semiconductor Nanowires.

G. Zhu, L. Zhang, X. Lan, Q. Lv, X. Xia, X. Wang*, T. Wang*, W. Du*.

Advanced Optical Materials 11, 2202524 (2023).

22. Colored Silicon Heterojunction Solar Cells Exceeding 23.5% Efficiency Enabled by Luminescent Down-Shift Quantum Dots

C. Jiang, G. Zhang, Z. Hong, J. Chen, Y. Li, X. Yuan, Y. Lin, C. Yu, T. Wang, T. Song*, Y. Wang*, B. Sun*.

Advanced Materials 35, 2208042 (2023).

2022

21. Plasmonic phenomena in molecular junctions: principles and applications.

M. Wang, T. Wang, O. S. Ojambati, T. J. Duffin, K. Kang, T. Lee*, E. Scheer*, D. Xiang* & C. A. Nijhuis*.

Nature Reviews Chemistry 6, 681–704 (2022).

20. Tetra-fish-inspired aesthetic thermochromic windows toward energy-saving buildings. 

Ke Y, Tan Y, Feng C, Chen C, Lu Q, Xu Q, Wang T, Liu H, Liu X*, Peng J*, Long Y*. 

Applied Energy 315, 119053 (2022).

19. Highly Polarized Light Emission of Monolayer WSe₂ Coupled with Gap-Plasmon Nanocavity.

G. Zhu, X. Shi, G. Huang, K. Liu, W. Wei, Q. Guo, W. Du*, T. Wang*.

Advanced Optical Materials 10, 2101762 (2022).

18. Vibrational Strong Coupling between Surface Phonon Polaritons and Organic Molecules via Single Quartz Micropillars.

K. Liu, G. Huang, X. Li, G. Zhu, W. Du, T. Wang*.

Advanced Materials 34, 2109088 (2022).

17. Multidimensional nanoscopic chiroptics.

Y. Chen, W. Du, Q. Zhang, O. Ávalos-Ovando, J. Wu, Q. H. Xu, N. Liu, H. Okamoto, A. O. Govorov, Q. Xiong*, C. W. Qiu*.

Nature Reviews Physics 4, 113–124 (2022).

16. Interfacial charge and energy transfer in van der Waals heterojunctions.

Z. Hu*, X. Liu, P. L. Hernández-Martínez, Sh. Zhang, P. Gu, W. Du, W. Xu, H. V. Demir, H. Liu*, Q. Xiong*.

InfoMat 4, e12290 (2022).

15. Microcavity coupled quantum dot emission with detuning control.

Z. Yang, P. Ma, G. Bai, B. Sun, W. Du, T. Wang*.

Optics Letters 47, 2089-2092 (2022).

14. Nonlinear polariton parametric emission in an atomically thin semiconductor based microcavity.

J. Zhao, A. Fieramosca*, R. Bao, W. Du, K. Dini, R. Su, J. Feng, Y. Luo, D. Sanvitto, T. C. H. Liew & Q. Xiong*.

Nature Nanotechnology 17, 396–402 (2022).

13. Enhanced Plasmonic Hot-Carrier Transfer in Au/WS₂ Heterojunctions under Nonequilibrium Condition.

X. Wen*, S. Chen, J. Zhao, W. Du*, and W. Zhao*.

ACS Photonics 9, 1522–1528 (2022).

12. Visualizing the Surface Photocurrent Distribution in Perovskite Photovoltaics.

J. Chen, G. Zhu, X. Li, Y. Lou, C. Dong, K. Wang, S. Yuan, C. Chen, Y. Shi, T. Wang*, Z. Wang*.

Small 18, 2201930 (2022).

11. Elevating Surface-Enhanced Infrared Absorption with Quantum Mechanical Effects of Plasmonic Nanocavities.

G. Huang, K. Liu, G. Shi, Q. Guo, X. Li, Z. Liu*, W. Ma, T. Wang*.

Nano Letters 22, 6083–6090 (2022).

10. Near-field mapping of complex-valued wavevectors of in-plane hyperbolic phonon polaritons in a-MoO3.

Z. Yuan, Y. Meng, W. Ma, R. Chen, T. Wang*, P. Li*.

Appl. Phys. Lett. 120, 131105 (2022).

9. Epsilon-near-zero substrate-enabled strong coupling between molecular vibrations and mid-infrared plasmons.

P. Ma, K. Liu, G. Huang, Y. Ding, W. Du, T. Wang*.

Optics Letters 47, 4524-4527 (2022).

2021

8. Polarizable High-Index Nanoparticles Used for Light-Induced Crystal-Silicon Passivation and Dielectric Antenna for High-Efficiency Solar Cell.

G. Zhang, Y. Wang, D. Liang, Z. Hong, Y. Li, Y. Li, Q. Zhong, T. Song, T. Wang, X. Yang, L. Lu, W. Cui, J.Wang, L. Yang, D. Li*, B. Sun*. 

Solar RRL 5, 2100169 (2021).

7. Manipulating Atomic Defects in Plasmonic Vanadium Dioxide for Superior Solar and Thermal Management. 

Ke Y., Zhang B., Wang T., Zhong Y., Vu T.D., Wang S., Liu Y., Magdassi S., Ye X., Zhao D., Xiong Q., Sun Z.*, Long Y.* 

Materials Horizons 8, 1700-1710 (2021).

6. On-off near-infrared absorbance based on thermal-responsive plasmonic coupling in vanadium dioxide arrays for thermochromic windows.

Y. Ke, T. Wang*, N. Li, S. Wang, Y. Long*. 

Optics Express 15, 9324-9331 (2021).

5. Scalable Nanostructured Silicon with All-Dielectric Standard RGB Color.

Q. Zhang, Y. Wang, Z. Xia, X. Li, B. Shao, Z. Di, T. Song, T. Wang*, B. Sun*. 

Phys. Status Solidi RRL 15, 2100319 (2021).

2020

4. Direct Color Printing with an Electron Beam. 

S. D. Rezaei*, J. Ho, T. Wang, S. Ramakrishna, J. K. W. Yang*. 

Nano Letters 20, 4422–4429 (2020).

3. Cephalopod-inspired versatile design based on plasmonic VO₂ nanoparticle for energy-efficient mechano-thermochromic windows.

Y. Ke, Q. Zhang, T. Wang, S. Wang, N. Li, G. Lin, X. Liu, Z. Dai, J. Yan, J. Yin, S. Magdassi, D. Zhao, Y. Long*.  

Nano Energy 73, 104785 (2020).

2019

2. Unrevealing Charge Carrier Selective Layer in Silicon Heterojunction Solar Cells via Multifunctional Atomic Force Probes.

Y. Wang, Z. Xia, H. Wu, S. Li, T. Wang*, B. Sun*.  

Solar RRL 3, 1900312 (2019).

1. Ultraviolet Interband Plasmonics With Si Nanostructures.

Z. Dong*, T. Wang, X. Chi, J. Ho, C. Tserkezis, S. L. K. Yap, A. Rusydi, F. Tjiptoharsono, D. Thian, N. A. Mortensen, J. K. W. Yang*.

Nano Letters 19, 8040-8048 (2019).