[1] J ARNAULT, S SAADA, V RALCHENKO. Chemical vapor deposition single-crystal diamond: a review. Physica Status Solidi (RRL)-Rapid Research Letters, 16:, 2100354(2022).
[2] K LIU, S ZHANG, V RALCHENKO et al. Tailoring of typical color centers in diamond for photonics. Advanced Materials, 33:, 2000891(2020).
[3] R J WILLIAMS, O KITZLER, Z BAI et al. High power diamond Raman lasers. IEEE Journal of Selected Topics in Quantum Electronics, 1602214(2018).
[4] B J LIU, B DAI, K LIU et al. Alpha-voltaic battery on diamond Schottky barrier diode. Diamond &Related Materials, 87:, 35(2018).
[5] K LIU, S ZHANG, B J LIU et al. Investigating the energetic band diagrams of oxygen-terminated CVD grown e6 electronic grade diamond. Carbon, 169:, 440(2020).
[6] K LIU, S ZHANG, B J LIU et al. Impact of positive space charge depletion layer on negatively charged and neutral centers in gold-diamond Schottky junction. Carbon, 153:, 381(2019).
[7] K LIU, B J LIU, J W ZHAO et al. Application of back bias to interdigital-electrode structured diamond UV detector showing enhanced responsivity. Sensors and Actuators A: Physical, 290:, 222(2019).
[8] A TALLAIRE, J ACHARD, F SILVA et al. Growth of large size diamond single crystals by plasma assisted chemical vapour deposition: recent achievements and remaining challenges. Comptes Rendus Physique, 169(2013).
[9] F SILVA, J ACHARD, O BRINZA et al. High quality, large surface area, homoepitaxial MPACVD diamond growth. Diamond & Related Materials, 683(2009).
[10] D G GOODWIN. Scaling laws for diamond chemical vapor deposition. I. Diamond surface chemistry. Journal of Applied Physics, 6888(1993).
[11] F SILVA, K HASSOUNI, X BONNIN et al. Microwave engineering of plasma-assisted CVD reactors for diamond deposition. Journal of Physics: Condensed Matter, 364202(2009).
[12] J P VITTON, J J GARENNE, S TRUCHET. High quality homoepitaxial growth of diamond films. Diamond and Related Materials, 713(1993).
[13] X WANG, P DUAN, Z CAO et al. Homoepitaxy growth of single crystal diamond under 300 torr pressure in the MPCVD system. Materials, 12:, 3953(2019).
[14] M MUEHLE, J ASMUSSEN, M F BECKER et al. Extending microwave plasma assisted CVD SCD growth to pressures of 400 Torr. Diamond and Related Materials, 79:, 150(2017).
[15] A P BOLSHAKOV, V G RALCHENKO, G Y SHU et al. Single crystal diamond growth by MPCVD at subatmospheric pressures. Materials Today Communications, 25:, 101635(2020).
[16] S A BOGDANOV, A M GORBACHEV, D B RADISHEV et al. Contraction of microwave discharge in the reactor for chemical vapor deposition of diamond. Technical Physics Letters, 89(2019).
[17] A CHAYAHARA, Y MOKUNO et al. The effect of nitrogen addition during high-rate homoepitaxial growth of diamond by microwave plasma CVD. Diamond & Related Materials, 13:, 1954(2004).
[18] H YAMADA, A CHAYAHARA, Y MOKUNO et al. Simulation of microwave plasmas concentrated on the top surface of a diamond substrate with finite thickness. Diamond & Related Materials, 1383(2006).
[19] H YAMADA, Y MOKUNO, A CHAYAHARA et al. Predominant physical quantity dominating macroscopic surface shape of diamond synthesized by microwave plasma CVD. Diamond & Related Materials, 576(2007).
[20] M A LOBAEV, S A BOGDANOV, D B RADISHEV et al. Method of power density determination in microwave discharge, sustained in hydrogen-methane gas mixture. Diamond & Related Materials, 66:, 177(2016).
[21] A GICQUEL, F SILVA, C ROND et al. Ultrafast deposition of diamond by plasma-enhanced CVD. Comprehensive Hard Materials, 3:, 217(2014).
[22] Y MOKUNO, A CHAYAHARA, H YAMADA. Synthesis of large single crystal diamond plates by high rate homoepitaxial growth using microwave plasma CVD and lift-off process. Diamond and Related Materials, 415(2008).
[23] Z ZHANG, Y SONG, L GOU. Evolution of surface morphology and optical transmittance of single crystal diamond film by epitaxial growth. AIP Advances, 095048(2019).
[24] Y MOKUNO, A CHAYAHARA, H YAMADA et al. Improving purity and size of single-crystal diamond plates produced by high-rate CVD growth and lift-off process using ion implantation. Diamond & Related Materials, 1258(2009).
[25] J ACHARD, F SILVA, O BRINZA et al. Coupled effect of nitrogen addition and surface temperature on the morphology and the kinetics of thick CVD diamond single crystals. Diamond and Related Materials, 685(2007).
[26] G WU, M H CHEN, J LIAO. The influence of recess depth and crystallographic orientation of seed sides on homoepitaxial growth of CVD single crystal diamonds. Diamond and Related Materials, 65:, 144(2016).
