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新金刚石是具有面心立方(fcc)结构的金属性碳,是一种新的碳同素异形体.为了更好地研究新金刚石的性能和应用,介绍了新金刚石的结构特征、制备工艺及新金刚石性能研究的进展.

参考文献

[1] Angus J C;Hagman C C .Low pressure growth of diamond and 'diamondlike phases[J].Science,1988,241:913.
[2] Lee ST.;Peng HY.;Zhou XT.;Wang N.;Lee CS.;Bello I.;Lifshitz Y. .A nucleation site and mechanism leading to epitaxial growth of diamondfilms[J].Science,2000(5450):104-106.
[3] Hirai H;Kondo K I .Modified phases of diamond formed under shock compression and rapid quenching[J].Science,1991,253:772.
[4] Konyashin I;Zern A;Mayer J et al.A new carbon modification: ‘ n-diamond ' or face-centred cubic carbon[J].Diamond and Related Materials,2001,10:99.
[5] Amaratunga G;Putnis A;Clay K et al.Crystalline diamond growth in thin films deposited from a CH4/Ar rf plasma[J].Applied Physics Letters,1989,55:634.
[6] Yoo C S;Nellis W J;Sattler M L et al.Diamondlike metastable carbon phases from shock-compressed C60 films[J].Applied Physics Letters,1992,61:273.
[7] Endo S;Idani N;Oshima R et al.X-ray diffraction and transmission-electron microscopy of natural polycrystalline graphite recovered from high pressure[J].Physical Review B,1994,49:22.
[8] Jarkov SM.;Churilov GN.;Titarenko YN. .Electron microscopy studies of fcc carbon particles[J].Carbon: An International Journal Sponsored by the American Carbon Society,1998(5/6):595-597.
[9] Churilov G.N.;Solovyov L.A.;Churilova Y.N. .Fullerenes and other structures of carbon synthesized in a carbon plasma jet under helium flow[J].Carbon: An International Journal Sponsored by the American Carbon Society,1999(3):427-431.
[10] Churilov G N;Fedorov A S;Novikov P V .Influence of electron concentration and temperature on fullerene formation in a carbon plasma[J].CARBON,2003,41:173.
[11] Churilov G N;Novikov P V;Tarabanko V E et al.On the mechanism of fullerene formation in a carbon plasma[J].Carbon,2002,40:891.
[12] Fedorov A S;Novikov P V;Churilov G N .Influence of electron concentration and temperature on endohedral metallofullerene Me @ C84 formation in a carbon plasma[J].Chemical Physics,2003,293:253.
[13] Orwa J O;Prawer S;Jamieson D N et al.Diamond nanocrystals formed by direct implantation of fused silica with carbon[J].Journal of Applied Physics,2001,90:3007.
[14] Peng J L;Bursill L A;Jiang B et al.Growth of c-diamond,ndiamond and i-carbon nanophases in carbon-ion-implanted fused quartz[J].PHILOSOPHICAL MAGAZINE B-PHYSICS OF CONDENSED MATTER STATISTICAL MECHANIC,2001,81:2071.
[15] Wen B.;Li TJ.;Dong C.;Zhang XG.;Yao S.;Cao ZQ.;Wang DH.;Ji SH.;Jin JZ. .Preparation of diamond nanocrystals from catalysed carbon black in a high magnetic field[J].Journal of Physics. Condensed Matter,2003(46):8049-8054.
[16] Wen B;Li TJ;Dong C;Zhang XG;Yao S;Cao ZQ;Wang DH;Ji SH;Jin JZ .Study of the stability of n-diamond[J].Journal of Physics. Condensed Matter,2004(17):2991-2994.
[17] Wen B;Li TJ;Dong C;Zhang XG;Yao S;Cao ZQ;Wang DH;Ji SH;Jin JZ .Formation mechanism of diamond nanocrystal from catalysed carbon black[J].Journal of Physics. Condensed Matter,2004(39):6891-6895.
[18] 温斌,李廷举,张兴国,董闯,姚山,曹志强,王德和,季首华,金俊泽.强磁场碳黑催化法制备纳米新金刚石粉[J].化学学报,2004(23):2361-2364.
[19] 温斌,李廷举,董闯,金俊泽.新金刚石[J].新型炭材料,2004(04):319-319.
[20] Pickard C J;Milman V;Winkler B .Is there theoretical evidence for a metallic carbon polymorph with space group symmetry Fm-3m at ambient conditions[J].Diamond and Related Materials,2001,10:2225.
[21] Murrieta G;Tapia A;Coss R de .Structure stability of carbon in the face-centered-cubic Fm-3m phase[J].CARBON,2004,42:771.
[22] Yin M T;Cohen M L .Will diamond trasform under megabar pressure[J].Physical Review Letters,1983,50:2006.
[23] Mailhiot C;McMahan A K .Atmospheric-pressure stability of energetic phases of carbon[J].Physical Review B,1991,44:11578.
[24] Broughton JQ.;Mehl MJ. .Transferable potential for carbon without angular terms[J].Physical Review.B.Condensed Matter,1999(14):9259-9270.
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