[1] SCHLESINGER T E, TONEY J E, YOON H, et al. Cadmium zinc telluride and its use as a nuclear radiation detector material［J］. Materials Science and Engineering: R: Reports, 2001, 32(4/5): 103-189.

[2] AISSAT A, FATHI M, VILCOT J P. Design and simulation of Cd1-xZnxTe thin films epitaxied on CdTe substrate for photovoltaic devices applications［J］. Energy Procedia, 2013, 36: 86-93.

[4] ZHA G Q, JIE W Q, TAN T T, et al. The interface reaction and Schottky barrier between metals and CdZnTe［J］. The Journal of Physical Chemistry C, 2007, 111(34): 12834-12838.

[5] QIN K F, WANG L J, ZHANG J J, et al. A two-step deposition process for electrode fabrication of CdZnTe detectors［J］. Vacuum, 2012, 86(7): 827-829.

[6] ABBENE L, DEL SORDO S, FAUCI F, et al. Spectroscopic response of a CdZnTe multiple electrode detector［J］. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2007, 583(2/3): 324-331.

[7] LING L W, ZHANG J J, ZHAO S H, et al. Surface analysis and electrical measurement of the ohmic contact on p-CdZnTe (111)B face with Au/Cd composite electrode［J］. Materials Science in Semiconductor Processing, 2019, 98: 90-94.

[8] YANG L Q, MIN J H, LIANG X Y, et al. Investigation on the contact interface of Au/Zn on CdZnTe (111)B surface［J］. Materials Science in Semiconductor Processing, 2017, 67: 175-180.

[9] JUNG I, KRAWCZYNSKI H, BURGER A, et al. Detailed studies of pixelated CZT detectors grown with the modified horizontal Bridgman method［J］. Astroparticle Physics, 2007, 28(4/5): 397-408.

[10] BEILICKE M, DE GERONIMO G, DOWKONTT P, et al. Performance of pixelated CZT detectors as a function of pixel and steering grid layout［J］. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 2013, 708: 88-100.

[11] SHI H Z, WANG S L, ZHANG J J, et al. Investigation on the rapid annealing of Ti-Au composite electrode on n-type (111) CdZnTe crystals［J］. Crystals, 2020, 10(3): 156.

[12] ZHENG Q, DIERRE F, CROCCO J, et al. Influence of surface preparation on CdZnTe nuclear radiation detectors［J］. Applied Surface Science, 2011, 257(20): 8742-8746.

[13] XU H T, XU R, HUANG J, et al. The dependence of Zn content on thermal treatments for Cd1-xZnxTe thin films deposited by close-spaced sublimation［J］. Applied Surface Science, 2014, 305: 477-480.

[14] MOGER S N, SHANUBHOGUE D U, KESHAV R, et al. Spectroscopic and electrical analysis of vacuum co-evaporated CdxZn1-xTe thin films［J］. Superlattices and Microstructures, 2020, 142: 106521.

[15] YASAR B, ERGUNT Y, KABUKCUOGLU M P, et al. HRTEM analysis of crystallographic defects in CdZnTe single crystal［J］. Journal of Electronic Materials, 2018, 47(1): 778-784.

[16] BELL S J, BAKER M A, DUARTE D D, et al. Comparison of the surfaces and interfaces formed for sputter and electroless deposited gold contacts on CdZnTe［J］. Applied Surface Science, 2018, 427: 1257-1270.

[17] AL-SHIBANI K M. Effect of isothermal annealing on CdTe and the study of electrical properties of Au-CdTe Schottky barriers［J］. Physica B: Condensed Matter, 2002, 322(3/4): 390-396.

[18] XI S Z, JIE W Q, ZHA G Q, et al. Mechanism of low Schottky barrier formation for chromium/CdZnTe contact［J］. The Journal of Physical Chemistry C, 2014, 118(10): 5294-5298.

[21] XI S Z, JIE W Q, WANG T, et al. Studies on Cr electrode of CdZnTe detector for high energy radiation detection［J］. Journal of Materials Science: Materials in Electronics, 2018, 29(6): 5049-5056.