[1] M TANIGUCHI, J S LINDSEY. Database of absorption and fluorescence spectra of >300 common compounds for use in photochemCAD. Photochemistry and Photobiology, 94, 290-327(2018).
[2] A S M NUR, M SULTANA, A MONDAL et al. A review on the development of elemental and codoped TiO2 photocatalysts for enhanced dye degradation under UV-vis irradiation. Journal of Water Process Engineering, 47, 102728(2022).
[3] B CHU, X LIU, Z XIONG et al. Enabling nonconjugated polyesters emit full-spectrum fluorescence from blue to near-infrared. Nature Communications, 15, 366(2024).
[4] N HACHLICA, M STEFAŃSKA, M MACH et al. Organization of carotenoid aggregates in membranes studied selectively using resonance Raman optical activity. Small, 2306707(2024).
[5] A LEITENSTORFER, A S MOSKALENKO, T KAMPFRATH et al. The 2023 terahertz science and technology roadmap. Journal of Physics D: Applied Physics, 56, 223001(2023).
[6] S ZHONG. Progress in terahertz nondestructive testing: a review. Frontiers of Mechanical Engineering, 14, 273-281(2019).
[7] S HUANG, H DENG, X WEI et al. Progress in application of terahertz time-domain spectroscopy for pharmaceutical analyses. Frontiers in Bioengineering and Biotechnology, 11, 1219042(2023).
[8] M GEZIMATI, G SINGH. Advances in terahertz technology for cancer detection applications. Optical and Quantum Electronics, 55, 151(2023).
[9] S SHI, S YUAN, J ZHOU et al. Terahertz technology and its applications in head and neck diseases. iScience, 26, 107060(2023).
[10] Yaya YANG, Yan ZHANG, Jian ZHAO. Research progress of terahertz technology in crop quality detection. Application of Laser, 44, 109-118(2024).
[11] Jingzhu WU, Xiaoqi LI, Lijuan SUN et al. Research progress on the application of terahertz time-domain spectroscopy and imaging technology in crop quality detection. Spectroscopy and Spectral Analysis, 42, 358-367(2022).
[12] A ABINA, U PUC, M JAZBINŠEK et al. Analytical gas sensing in the terahertz spectral range. Micromachines, 14, 1987(2023).
[13] D B RUTLEDGE. Submillimeter integrated circuit antennas and detectors(1980).
[14] T WEILAND, M TIMM, I MUNTEANU. A practical guide to 3-D simulation. IEEE Microwave Magazine, 9, 62-75(2008).
[15] Zhijin YAN, Wei SHI. Radiation characteristics of terahertz GaAs photoconductive antenna array. Journal of Physics, 70, 248704(2021).
[16] Xinfa MA, Xicheng ZHANG. Subpicosecond optical rectification effect. Physics, 23, 390-393(1994).
[17] Baolong ZHANG. Strong terahertz radiation research based on lithium niobate tilted wavefront technology(2022).
[18] D J COOK, R M HOCHSTRASSER. Intense terahertz pulses by four-wave rectification in air. Optics Letters, 25, 1210-1212(2000).
[19] Z YU, N ZHANG, J WANG et al. 0.35% THz pulse conversion efficiency achieved by Ti: sapphire femtosecond laser filamentation in argon at 1 kHz repetition rate. Opto-Electronic Advances, 5, 210065(2022).
[20] Y WANG, Y NIU, M CHEN et al. Ultrabroadband, sensitive, and fast photodetection with needle-like EuBiSe3 single crystal. ACS Photonics, 6, 895-903(2019).
[21] Weidong WU, Yingxin WANG, Ziran ZHAO. Research progress of terahertz photothermoelectric detection method. Scientific Bulletin, 67, 714-727(2022).
[22] H A HAFEZ, X CHAI, A IBRAHIM et al. Intense terahertz radiation and their applications. Journal of Optics, 18, 093004(2016).
[23] L LIANG, M QI, J YANG et al. Anomalous terahertz reflection and scattering by flexible and conformal coding metamaterials. Advanced Optical Materials, 3, 1374-1380(2015).
[24] Liang WU, Furi LING, Jinsong LIU et al. Applications of THz spectroscopy in gas detection. Advances in Laser and Optoelectronics, 46, 29-35(2009).
[25] Z DAI, Q SU, D LU et al. A combined experimental and theoretical study on the terahertz vibrations of water vapors. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 214, 277-284(2019).
[26] G R KIM, H B LEE, T I JEON. Terahertz time-domain spectroscopy of low-concentration N2O using long-range multipass gas cell. IEEE Transactions on Terahertz Science and Technology, 10, 524-530(2020).
[27] Sende WANG. Research on gas detection technology based on terahertz waveguide(2022).
[28] Guoliang YU. Application of terahertz time-domain spectroscopy(2014).
[29] M ARAKI, K MATSUYAMA. Rapid measurements of hydrogen cyanide concentration in combustion gas via terahertz spectroscopy. Current Applied Physics, 36, 83-87(2022).
[30] C ZHAO, W WANG, N ZHU et al. Quantitative, multi-species gas sensing using broadband terahertz time-domain spectroscopy. Measurement Science and Technology, 35, 045503(2024).
[31] L DUVILLARET, F GARET, J L COUTAZ. A reliable method for extraction of material parameters in terahertz time-domain spectroscopy. IEEE Journal of Selected Topics in Quantum Electronics, 2, 739-746(1996).
[32] F HUANG, M LIU. A combined study on the skeletal vibration of aminopyrine by terahertz time-domain spectroscopy and DFT simulation. Optik, 208, 163913(2020).
[33] Xiaoqing LIU, Jiali YAO, Fan HUANG et al. Detection of penicillin drugs based on terahertz time-domain spectroscopy. Optical Journal, 40, 0630001(2020).
[34] Xiaosong LIU, Guozhong ZHAO, Yuan QU. Experimental analysis of terahertz spectroscopy of four gastrointestinal drugs. Progress in Laser and Optoelectronics, 60, 296-301(2023).
[35] B LI, X SHEN. Preliminary study on discrimination of transgenic cotton seeds using terahertz time‐domain spectroscopy. Food Science & Nutrition, 8, 5426-5433(2020).
[36] Qian WANG, Hongyi GE, Yuying JIANG et al. Identification of rice varieties based on terahertz time-domain spectroscopy. Food Industry Science and Technology, 43, 19-25(2022).
[37] Z SUN, B LI, A YANG et al. Detection the quality of pumpkin seeds based on terahertz coupled with convolutional neural network. Journal of Chemometrics, e3547(2024).
[38] Zuanming JIN, Yingyu GUO, Bingyu JI et al. Development of ultrafast spin-based terahertz photonics(Invited). Acta Photonica Sinica, 51, 0751410(2022).
[39] Z JIN, A TKACH, F CASPER et al. Accessing the fundamentals of magnetotransport in metals with terahertz probes. Nature Physics, 11, 761-766(2015).
[40] Z JIN, J LI, W ZHANG et al. Magnetic modulation of terahertz waves via spin-polarized electron tunneling based on magnetic tunnel junctions. Physical Review Applied, 14, 014032(2020).
[41] Delong ZHAO. Design and application of portable THZ-TDS system(2016).
[42] V A TROFIMOV, S A VARENTSOVA. A possible way for the detection and identification of dangerous substances in ternary mixtures using THz pulsed spectroscopy. Sensors, 19, 2365(2019).
[43] W SHI, C DONG, L HOU et al. Investigation of aging characteristics in explosive using terahertz time-domain spectroscopy. International Journal of Modern Physics B, 33, 1950272(2019).
[44] C RØNNE, S R KEIDING. Low frequency spectroscopy of liquid water using THz-time domain spectroscopy. Journal of Molecular Liquids, 101, 199-218(2002).
[45] Guoyang WANG, Qinghao MENG, Siyu SHAO et al. Terahertz absorption characteristics of low temperature liquid water. Spectroscopy and Spectral Analysis, 42, 2709-2713(2022).
[46] Sende WANG, Jiali YAO, Junbo HU et al. Review of optical measurement methods for corneal water content. Progress in Laser and Optoelectronics, 57, 9-29(2020).
[47] J YAO, J MA, J ZHAO et al. Corneal hydration assessment indicator based on terahertz time domain spectroscopy. Biomedical Optics Express, 11, 2073-2084(2020).
[48] Shanshan TIAN, Xiaoxia LI, Yongwei DUAN et al. Study on the detection method of solid powder moisture content based on terahertz spectroscopy. Journal of Optics, 43, 302-309(2023).
[49] Wei LIU, Hu DENG, Quancheng LIU et al. Study on the detection method of ethylene glycol moisture content based on terahertz spectroscopy. Laser and Infrared, 53, 1579-1585(2023).
[50] N V PENKOV. Terahertz spectroscopy as a method for investigation of hydration shells of biomolecules. Biophysical Reviews, 15, 833-849(2023).
[51] E BRINI, C J FENNELL, M FERNANDEZ-SERRA et al. How water's properties are encoded in its molecular structure and energies. Chemical Reviews, 117, 12385-12414(2017).
[52] L VRBKA, J VONDRÁŠEK, B JAGODA-CWIKLIK et al. Quantification and rationalization of the higher affinity of sodium over potassium to protein surfaces. Proceedings of the National Academy of Sciences, 103, 15440-15444(2006).
[53] P WANG, X WANG, L LIU et al. The hydration shell of monomeric and dimeric insulin studied by terahertz time-domain spectroscopy. Biophysical Journal, 117, 533-541(2019).
[54] Q MENG, S QIAN, J DING et al. Terahertz absorption characteristics of ammonium salt solution based on self-sampling microfluidic chip. Scientific Reports, 12, 8144(2022).
[55] R SUN, W LI, T MENG et al. Design and optimization of terahertz metamaterial sensor with high sensing performance. Optics Communications, 494, 127051(2021).
[56] S H LEE, D LEE, M H CHOI et al. Highly sensitive and selective detection of steroid hormones using terahertz molecule-specific sensors. Analytical Chemistry, 91, 6844-6849(2019).
[57] J XU, D LIAO, M GUPTA et al. Terahertz microfluidic sensing with dual‐torus toroidal metasurfaces. Advanced Optical Materials, 9, 2100024(2021).
[58] W FU, L SUN, H CAO et al. Qualitative and quantitative recognition of volatile organic compounds in their liquid phase based on terahertz microfluidic EIT meta-sensors. IEEE Sensors Journal, 23, 12775-12784(2023).
[59] Xiang LIAN, Minghao ZHANG, Guoyang WANG et al. Advances in terahertz liquid photonics (invited). Advances in Laser and Optoelectronics, 61, 278-293(2024).
[60] H ZHAO, Y TAN, L ZHANG et al. Ultrafast hydrogen bond dynamics of liquid water revealed by terahertz-induced transient birefringence. Light: Science & Applications, 9, 136(2020).
[61] H ZHAO, Y TAN, R ZHANG et al. Anion–water hydrogen bond vibration revealed by the terahertz Kerr effect. Optics Letters, 46, 230-233(2021).
[62] H ZHAO, Y TAN, T WU et al. Strong anisotropy in aqueous salt solutions revealed by terahertz-induced Kerr effect. Optics Communications, 497, 127192(2021).
[63] H ZHAO, Y TAN, R ZHANG et al. Molecular dynamic investigation of ethanol-water mixture by terahertz-induced Kerr effect. Optics Express, 29, 36379-36388(2021).
