[1] A ROGALSKI. Progress in performance development of room temperature direct terahertz detectors. Journal of Infrared Millimeter and Terahertz Waves, 43, 709-727(2022).
[2] LUO Muchang, SUN Jiong, ZHANG Zhipeng, et al. Terahertz focal plane field effect transists [J] Infrared Laser Engineering , 2018, 47(3): 0320001. (in Chinese)
[3] H L ZHOU, X Y ZHANG, X M XUE et al. Nanoscale valley modulation by surface plasmon interference. Nano Letters, 22, 6923-6929(2022).
[4] P XIA, Y J SONG, Y Z LIU et al. Advances in the optical and electronic properties and applications of bismuth-based semiconductor materials. Journal of Materials Chemistry C, 12, 1609-1624(2024).
[5] WANG L, HAN L, GUO W, et al. Hybrid Dirac semimetalbased photodetect with efficient lowenergy photon harvesting [J]. Light : Science & Applications , 2022, 11(1): 53.
[6] TAN Yimei, ZHANG Shuo, LUO Yuning, et al. 640×512 HgTe colloidal quantumdot wave infrared focal plane array (invited) [J]. Infrared Laser Engineering , 2014, 43(3): 785789. (in Chinese)
[7] F N XIA, T MUELLER, R GOLIZADEH-MOJARAD et al. Photocurrent imaging and efficient photon detection in a graphene transistor. Nano Letters, 9, 1039-1044(2009).
[8] Q MA, R K KUMAR, S Y XU et al. Photocurrent as a multiphysics diagnostic of quantum materials. Nature Reviews Physics, 5, 170-184(2023).
[9] S CHEN, Q WU, C MISHAR et al. Thermal conductivity of isotopically modified graphene. Nature Materials, 11, 203-207(2012).
[10] J YAN, M H KIM, J A ELLE et al. Dual-gated bilayer graphene hot-electron bolometer. Nature Nanotechnology, 7, 472-478(2012).
[11] D D VU, R A NELSON, B L WOOTEN et al. Magnon gap mediated lattice thermal conductivity in MnBi2Te4. Physical Review B, 108, 144402(2023).
[12] X QIAN, J ZHOU, G CHEN. Phonon-engineered extreme thermal conductivity materials. Nature Materials, 20, 1188-1202(2021).
[13] L ZHANG, Y ZHONG, X LI et al. Effect of twist angle on interfacial thermal transport in two-dimensional bilayers. Nano Letters, 23, 7790-7796(2023).
[14] Z DONG, W YU, L ZHANG et al. Highly efficient, ultrabroad PdSe2 phototransistors from visible to terahertz driven by mutiphysical mechanism. ACS Nano, 15, 20403-20413(2021).
[15] Y ZHANG, H LI, L WANG et al. Photothermoelectric and photovoltaic effects both present in MoS2. Scientific Reports, 5, 7938(2015).
[16] Z DONG, W GUO, L ZHANG et al. Excitonic insulator enabled ultrasensitive terahertz photodetection with efficient low-energy photon harvesting. Advanced Science, 9, 2204580(2022).
[17] H XU, F FEI, Z CHEN et al. Colossal terahertz photoresponse at room temperature: a signature of type-II dirac fermiology. ACS Nano, 15, 5138-5146(2021).
[18] GUAN Z Q, DAI W, CHEN X P, et al. Mechanism, acterization, device application of photothermoelectric effect [J]. Chinese Journal of Lasers, 2023, 50(1): 0113004. (in Chinese)
GUAN Z Q, DAI W, CHEN X P, et al. Mechanism, acterization, device application of photothermoelectric effect [J]. Chinese Journal of Lasers , 2023, 50(1): 0113004. (in Chinese)
