Bundy F P, Hall H T, Strong H M. Man-made diamonds[J]. Nature, 1955, 176(4471):51-55.
|
Wentorf R H. Diamond growth rates[J]. Journal of Physical Chemistry, 1971, 75(12):1833-1837.
|
Strong H M, Chrenko R M. Diamond growth rates and physical properties of laboratory-made diamond[J]. Journal of Physical Chemistry, 1971, 75(12):1838-1843.
|
Sumiya H, Toda N, Satoh S. Growth rate of high-quality large diamond crystals[J]. Journal of Crystal Growth, 2002, 237/239:1281-1285.
|
Palyanov Y N, Borzdov Y M, Khokhryakov A F, et al. Effect of nitrogen impurity on diamond crystal growth processes[J]. Crystal Growth & Design, 2010, 10(7):3169-3175.
|
Liu X B, Chen X, David J Singh, et al. Boron-oxygen complex yields n-type surface layer in semiconducting diamond[J]. Proceedings of the National Academy of Sciences of the United States of America, 2019, 116(16):7703-7711.
|
Han F, Li S S, Jia X F, et al. Inclusions in large diamond single crystals at different temperatures of synthesis[J]. Chinese Physics B, 2019, 28(2):028103-02810.
|
Guo M M, Li S S, Hu M H, et al. The growth characteristics of type Ⅱa large single crystal diamond with Ti/Cu as nitrogen getter in FeNi-C system[J]. Chinese Physics B, 2020, 29(1):018101-018106.
|
Blank V D, Kuznetsov M S, Nosukhin S A, et al. The influence of crystallization temperature and boron concentration in growth environment on its distribution in growth sectors of type Ⅱb diamond[J]. Diamond & Related Materials, 2007, 16(4):800-804.
|
Wang J Z, Li S S, Hu M H, et al. C3H6N6 doping effect of synthetic diamond under high pressure and high temperature[J]. International Journal of Refractory Metals and Hard Materials, 2020, 87(10):5150-5156.
|
Fernández Lorenzo C, Araújo D, González Mañas M, et al. Multi-technique analysis of high quality HPHT diamond crystal[J]. Journal of Crystal Growth, 2012, 353(1):115-119.
|
Yu K P, Li S S, Yang Q, et al. Effects of phosphorus doping via Mn3P2 on diamond growth along the (100) surfaces[J]. CrystEngComm, 201921(10):6810-6819.
|
Sumiya H, Satoh S. High-pressure synthesis of high-purity diamond crystal[J].Diamond and Related Materials, 1996, 5(11):1359-1365.
|
Gong C S, Li S S, Zhang H R, et al. Study on synthesis and electrical properties of slab shape diamond crystals in FeNiMnCo-C-P system under HPHT[J]. International Journal of Refractory Metals and Hard Materials, 2017, 66(7):116-121.
|
Wang J K, Li S S, Yu K P, et al. Synthesis and characteristics of type Ib diamond doped with NiS as an additive[J]. Chinese Physics Letter, 201936(11):046101-046112.
|
Liang Z Z, Jia X P, Ma H A, et al. Synthesis of HPHT diamond containing high concentrations of nitrogen impurities using NaN3 as dopant in metal-carbon system[J]. Diamond and Related Materials, 2005, 14(11-12):1932-1935.
|
Wang J Z, Li S S, Su T C, et al. Shape controlled growth for type Ib large diamond crystals[J]. Acta Physica Sinica, 2018, 67(11):168101-168107.
|
Neuser R D, Schertl H P, Logvinova A M, et al. An EBSD study of olivine inclusions in Siberian diamonds:Evidence for syngenetic growth[J]. Russian Geology and Geophysics, 201556(11):321-329.
|
Li S S, Zhang H, Su T C, et al. Different effect of NiMnCo or FeNiCo on the growth of type-Ⅱa large diamonds with Ti/Cu as nitrogen getter[J]. Chinese Physics B, 201726(12):458-462.
|
Li S S, Wang J K, Hu M H, et al. The first principle study and experimental of boron synergistic sulfur doping in diamond[J]. Materials Today Communications, 2020, 24(6):101021-101029.
|
Kanda H, Akaishi M, Yamaoka S. New catalysts for diamond growth under high pressure and high temperature[J].Applied Physics Letters, 1998, 65(6):784-786.
|
Li S S, Luo N, Li X L, et al. Effect of Ni70Mn25Co5 or Fe55Ni29Co16 on the growth of type-Ⅱa large diamonds with Al as nitrogen getter[J]. Advanced Materials Research, 2011266(15):89-92.
|
Huber P, Manova D, Mändl S, et al. Formation of TiN, TiC and TiCN by metal plasma immersion ion implantation and deposition[J]. Surface & Coatings Technology, 2003, 174(16):1243-1247.
|
Chen L X, Zhu P W, Ma H A, et al. Effects of copper-based alloy on the synthesis of single-crystal diamond[J]. Journal of Physics:Condensed Matter, 2002, 14(44):10957-10961.
|