[1]Landa S,Machacek V.Adamantane,a new hydrocarbon extracted from petroleum[J].Collect.Czech.Chem.Commun,1933,5(1):1-5.
[2]Mansoori G Ali,Araujo P L B de,Araujo E S de.Diamondoid Molecules with Applications in Biomedicine,Materials Science,Nanotechnology & Petroleum Science[M].Dancers,USA:World Scientific Publishing Co.Pte.Ltd.,2013.
[3]Lin R,Wilk Z A.Natural occurrence of tetramantane(C₂₂H₂₈),pentamantane(C₂₆H₃₂) and hexamantane(C₃₀H₃₆) in a deep petroleum reservoir[J].Fuel,1995,74(10):1512-1521.
[4]Dahl,J E P,Moldowan J M,Peters K,et al.Isolation and structural proof of the large diamond molecule,cyclohexamantane(C₂₆H₃₀)[J].Angewandte Chmie International Edition, 2003,42(18):2040-2044.
[5]Dahl J E P,Liu S G,Carlson R M K.Isolation and structure of higherdiamondoids,nanometer-sized diamond molecules[J].Science,2003,299(11):96-99.
[6]Wingert W S.GC-MS analysis of diamondoid hydrocarbons in Smackover petroleums[J].Fuel,1992,71(1):37-43.
[7]Zhao Hong,Wang Zhansheng,Zhu Junzhang,et al.MID/GC/MS analysis and geological significance of diamondoid hydrocarbons in oils and extract of source rock[J].Journal of Chinese Mass Spectrometry Society,1994,15(4):43-48.[赵红,王占生,朱俊章,等.用MID/GC/MS检测原油和烃源岩抽提物中金刚烷类化合物及其地质意义探索[J].质谱学报,1994,15(4):43-48.]
[8]Wei Z,Moldowan J M,Paytan A.Diamondoids and molecular biomarkers generated from modern sediments in the absence and presence of minerals during hydrous pyrolysis[J].Organic Geochemistry,2006,37(8):891-911.
[9]Liang Qianyong,Xiong Yongqiang,Fang Chenchen,et al.Comparison of two methods for determination of diamondoids in crude oils[J].Geochimica,2012,41(5):433-441.[梁前勇,熊永强,房忱琛,等.两种测定原油中金刚烷类化合物方法的对比研究[J].地球化学,2012,41(5),433-441.]
[10]Liang Q Y,Xiong Y Q,Fang C C,et al..Quantitative analysis of diamondoids in crude oils using gas chromatography-triple quadrupole mass spectrometry[J].Organic Geochemistry,2012,43(1):83-91.
[11]Silva R,Silva R S F,Castro E V R,et al.Extendeddiamondoid assessment in crude oil using comprehensive two-dimensional gas chromatography coupled to time-of-flight mass spectrometry[J].Fuel,2013,112(5):125-133.
[12]Wang G,Shi S,Wang P,et al.Analysis of diamondoids in crude oils using comprehensive two-dimensional gas chromatography/time-off-flight mass spectrometry[J].Fuel,2013,107(5):706-714.
[13]Ma Anlai,Jin Zhijun,Zhu Cuishan,et al.Quantitative analysis on absolute concertration of diamondoids in oils from Tahe Oilfield[J].Acta Petrolei Sinica,2009,30(2):214-218.[马安来,金之钧,朱翠山,等.塔河油田原油中金刚烷化合物绝对定量分析[J].石油学报,2009,30(2):214-218.]
[14]Azevedo D A,Tamanqueira J B,Dias J C M,et al.Multivariate statistical analysis of diamondoid and biomarker data from Brazilian Basin oil samples[J].Fuel,2008,87(10/11):2122-2130.
[15]Springer M V,Garcia D F,Goncalves F T T,et al.Diamondoid and biomarker characterization of oils from Llanos Orientales Basin,Colombia[J].Organic Geochemistry,2010,41(9):1013-1018.
[16]Huang L,Zhang S,Wang H,et al.A novel method for isolation of diamondoids from crude oils for compound-specific isotope analysis[J].Organic Geochemistry,2011,42(5):566-571.
[17]Chen J,Fu J,Sheng G,et al.Diamondoid hydrocarbon ratios:Novel maturity indices for highly mature crude oil[J].Organic Geochemistry,1996,25(3/4):179-190.
[18]Chen Junhong,Fu Jiamo,Sheng Guoying，et al.The structure characterization and geochemical signification of diamondoid hydrocarbons[J].Chinese Science Bulletin,1996,41(6):524-527.[陈军红,傅家谟,盛国英,等.金刚烷化合物的结构特征及其地球化学意义[J].科学通报,1996,41(6):524-527.]
[19]Chen Junhong,Fu Jiamo,Sheng Guoying,et al.The research in the distribution characteristic of diamondoid hydrocarbons in crude oils[J].Advance in Natural Science,1997,7(3):363-367.[陈军红,傅家谟,盛国英,等.金刚烷化合物在石油中的分布特征研究[J],自然科学进展,1997,7(3):363-367.]
[20]Liu Luofu,Wang Chunjiang,Chen Jianfa.The distribution and significance of diamondoid in Ordovician oil from Dagang Oilfield[J].Advance in Earth Science,1997,12(6):584-586.[刘洛夫,王春江,陈践发.大港油田奥陶系原油金刚烷系列化合物的分布及意义[J].地球科学进展,1997,12(6):584-586.]
[21]Li Sumei,Pang Xiongqi,Yang Haijun,et al.Geochemical characteristics and implication of high thermal maturity oils in Tazhong-I faulted slope break zone[J].Oil & Gas Geology,2008,29(2):210-216.[李素梅,庞雄奇,杨海军,等.塔中I号坡折带高熟油气地球化学特征及其意义[J].石油与天然气地质,2008,29(2):210-216.]
[22]Zhang S,Huang H,Xiao Z,et al.Geochemistry of  Paleozoic marine petroleum from the Tarim Basin,NW China:Part 2.Maturity assessment[J].Organic Geochemistry,2005,36(8):1215-1225.
[23]Zhang Xuejun,Xu Xingyou,Peng Ping’an.Maturity assessment of light oils in Chepaizi Uplift and re-understanding of its source rock[J].Geochimica,2013,42(2):180-187.[张学军,徐兴友,彭平安.车排子凸起轻质油成熟度分析与烃源层再认识[J].地球化学,2013,42(2):180-187.]
[24]Chen Zhilin,Liu Xuan,Jin Hongrui,et al.Study on condensate maturity and type using methyl diamantine parameter[J].Acta Sedimentol Sinica,2008,26(4):705-708.[陈致林,刘旋,金洪蕊,等.利用双金刚烷指标研究济阳坳陷凝析油的成熟度和类型[J].沉积学报,2008,26(4):705-708.]
[25]Zhao Xianzheng,Jin Fengming,Mi Jingkui,et al.Charasteristics of diamondoids and light hydrocarbons from Niudong Field and implication for oil/gas origin[J].Natural Gas Geoscience,2014,25(9):1395-1402.[赵贤正,金凤鸣,米敬奎,等.牛东油气田原油中金刚烷和轻烃特征及其对油气成因的指示意义[J].天然气地球科学,2014,25(9):1395-1402.]
[26]Wang Jian,Wang Quan,Shi Yulei,et al.The cause of ultra-seated oil and gas of Paleogene in Baxian Sag[J].Natural Gas Geoscience,2015,26(1):21-27.[王建,王权,师玉雷,等.冀中坳陷霸县凹陷古近系超深层油气成因分析[J].天然气地球科学,2015,26(1):21-27.]
[27]Bao Jianping,Liang Xingyu,Zhu Cuishan,et al.Diamondoid hydrocarbons and their geochemical significances in condensate from the Zhujiadun gas reservoir in the Yancheng Sag[J].Natural Gas Geoscience,2015,26(3):505-512.[包建平,梁星宇,朱翠山,等.苏北盆地盐城凹陷朱家墩气藏凝析油中的金刚烷类及其意义[J].天然气地球科学,2015,26(3):505-512.]
[28]He Wenxiang,Wang Peirong,Pan Xianzhuang,et al.The study of maturity of crude oil in Yingqiong Basin[J].Natural Gas Geoscience,2004,15(4):387-390.[何文祥,王培荣,潘贤庄,等.莺-琼盆地原油成熟度研究[J].天然气地球科学,2004,15(4):387-390.]
[29]Fu Ning,Li Youchuan.Diamondoid hydrocarbon ratios as indicators of maturity in natural gas[J].Acta Sedimentologica Sinica,2001,19(1):145-149.[傅宁,李友川.估算天然气成熟度的新指标——金刚烷指标[J].沉积学报,2001,19(1):145-149.]
[30]Schoell M,Carlson R M K.Diamondoids and oil are not forever[J].Nature,1999,399(5):15-16.
[31]Schulz L K,Wilhelms A,Rein E,et al.Application of diamondoids to distinguish source facies[J].Organic Geochemistry,2001,32(3):365-375.
[32]Wei Z,Moldowan J M,Zhang S,et al.Diamondoid hydrocarbons as a molecular proxy for thermal maturity and oil cracking:geochemical models from hydrous pyrolysis[J].Organic Geochemistry,2007,38(3):227-249.
[33]Li J G,Philp P,Cui Mingzhong.Methyl diamantane index(MDI) as a maturity parameter for Lower Palaeozoic carbonate rocks at high maturety and overmaturity[J].Organic Geochemistry,2000,31(4):267-272.
[34]Li Jinggui,Cui Mingzhong,Zhang Qain.A discussion about diamantes ratios as maturity indicators of Lower Paleozoic carbonate source rocks at high and over mature stage[J].Petroleum Exploration and Development,1998,25(2):83-85.[李景贵,崔明中,张谦.双金刚烷指标作为下古生界高、过成熟阶段碳酸盐岩成熟度衡量标尺的讨论[J].石油勘探与开发,1998,25(2):83-85.]
[35]Fang C C,Xiong Y Q,Liang Q Y,et al.Variation in abundance and distribution of diamondoids during oil cracking[J].Organic Geochemistry,2012,47(1):1-8.
[36]Guo Xiaowen,He Sheng,Chen Honghan.Discussion and application of the maturity indicators of methyl double diamantane hydrocarbons[J].Geological Science and Technology Information,2007,26(1):71-76.[郭小文,何生,陈红汉.甲基双金刚烷成熟度指标讨论与应用[J].地质科技情报,2007,26(1):71-76.]
[37]Fang C C,Xiong Y Q,Li Y,et al.The origin and evolution of adamatanes and diamanteanes in petroleum[J].Geochimica et Cosmochinaca Acta,2013,120(11):109-120.
[38]Fang Chenchen,Wu Wei,Liu Dan,et al.Evolution characteristics and application of diamondoids in coal measures[J].Natural Gas Geoscience,2015,26(1):110-117.[房忱琛,吴伟,刘丹,等.煤系中金刚烷类化合物演化特征及应用[J].天然气地球科学,2015,26(1):110-117.]
[39]Dahl J E,Moldowan J M,Peter K E,et al,Diamondoid hydrocarbons as indicators of natural oil cracking[J].Nature,1999,399(5),54-56.
[40]Zhang S,Su J,Wang X,et al.Geochemistry of Paleozoic marine petroleum from the Tarim Basin,NW Chian:Part 3.Thermal cracking of liquid hydrocarbons and gas washing as the major mechanisms for deep gas condensate accumulations[J].Organic Geochemistry,2011,42(11):1394-1410.
[41]Moldowan J M,Dahl J,Zinniker D,et al.Underutilized advanced geochemical technologies for oil and gas exploration and production-1.The diamondoids[J].Journal of Petroleum Science and Engineering,2015,126(1):87-96.
[42]Gordadze G N.Geochemistry of cage hydrocarbon[J].Petroleum Chemistry,2008,48(4):241-253.
[43]Peter K E,Walters C C,Moldowan J M.The Biomarkers Guide Volume 2:Biomarkers and Isotopes in Petroleum Exploration and Earth History[M].Cambrideg University Press,2005.
[44]Williams J A,Bjoroy M,Dolcater D L,et al.,Biodegradation in South Texas Eocene oilsefeets on aromatics and biomarkers[J].Organic Geochemistry,1986,10(3/4):451-461.
[45]Grice K,Alexander R,Kagi R I.Diamondoid hydrocarbon ratios as indicators of biodegradation in Australian crude oils[J].Organic Geochemistry,2000,31(1):67-73.
[46]Wei Z，Moldowan J M,Peter K E,et al.The abundance and distribution of diamondoids in biodegraded oils from the San Joaquin Valley:Implications for biodegradation of diamondoids in petroleum reservoirs[J].Orgainc Geochemistry,2007,38(11):1910-1926.
[47]Worden R H,Smalley P C,Oxtoby N H.Gas souring by thermochemical sulfate reduction at 140℃[J].AAPG Bulletin,1995,79(5):854-863.
[48]Machel H G,Krouse H R,Sassen R.Products and distinguishing criteria of bacteria and thermochemical sulfate reduction[J].Applied Geochemistry,1995,10(4):373-389.
[49]Zhu Guangyou,Zhang Shuichang,Liang Yingbo,et al.Isotopic evidence of TSR origin for natural gas bearing high H2S contents within the Feixianguan Formation of the northeastern Sichuan Basin,Southwestern China[J].Science China:Earth Science,2005,48(11):1960-1971.[朱光有,张水昌,梁英波,等.川东北地区飞仙关组高含H2S天然气TSR成因的同位素证据[J].中国科学:D辑,2005,35(11):1037-1046.]
[50]Wei Z,Mankiewicz P,Walters C,et al.Natural occurrence of higher thiadiamondoids and diamondoidthiols in a deep petroleum reservoir in the Mobile Bay Gasfields[J].Organic Geochemistry,2011,42(2):121-133.
[51]Wei Z,Walters C C,Moldowan J M.et al.Thiadiamondoids as proxies for the extent of thermochemical sulfate reduction[J].Organic Geochemistey,2012,44(1):53-70.
[52]Jiang Naihuang,Zhu Guangyou,Zhang Shuichang,et al.Detection of 2-thiaadamantanes in the oil from Well TZ-83 in Tarim Basin and its geological implication[J].Chinese Sciemce Bulletin,2008,53(3):396-401.[姜乃煌,朱光有,张水昌,等.塔里木盆地塔中83井原油中检测出2-硫代金刚烷及其地质意义[J].科学通报,2007,52(24):2871-2875.]
[53]Wang Guangli,Li Ningxi,Gao Bo,et al.Thermochemical sulfate reduction in fossil Ordovician deposits of the Majiang area:Evidence from a molecular-marker investigation[J].Chinese Science Bulletin,2013,58(33):3450-3457.[王广利,李宁熙,高波,等.麻江奥陶系古油藏中硫酸盐热化学还原反应：来自分子标志物的证据[J].科学通报,2013,58(33):3450-3457.]
[54]Hanin S,Adam P,Kowalewski I,et al.Bridgehead alkylated 2-thiaadamantanes:novel markers for sulfurisation processes occurring under high thermal stress in deep petroleum reservoirs[J].Chemical Communication,2002,16(7):1750-1751.
[55]England W A.The Organic geochemistry of petroleum reservoir[J].Organic Geochemistry,1990,16(1-3):419-425.
[56]Sassen R,Post P.Enrichment of diamondoids and13C in condensate from Hudson Canyon,US Atlantic[J].Organic Geochemistry,2008,39(7):147-151.
[57]Duan Yi,Wang Chuanyuan,Zheng Zhaoyang,et al.Distribution of double diamantine hydrocarbons in crude oils from Tahe Oilfield and its implication for oil and gas migratioin[J].Natural Gas Geoscience,2007,18(5):693-696.[段毅,王传远,郑朝阳,等.塔里木盆地塔河油田原油中双金刚烷分布特征与油气运移[J].天然气地球科学,2007,18(5):693-696.]
[58]Ren Xukang,Huang Guanghui,Xiao Zhongyao,et al.Application of diamondoids to hydrocarbon migration of Dawanqi Oilfield,Tarim Basin[J].China Petroleum Exploration,2012,(17)2:27-31.[任康绪,黄光辉,肖中尧,等.大宛齐原油金刚烷类化合物及其在油气运移中的应用[J].中国石油勘探,2012,17(2):27-31.]
[59]Zhang Bin,Huang Ling,Wu Ying,et al.Quantitative evaluation of crude oil composition changes by strong gas washing:A case study of natural gas pool in Kuqa Depression[J].Earth Science Frontier,2010,17(4):270-279.[张斌,黄凌,吴英,等.强烈气洗作用导致原油成份变化的定量计算:以库车坳陷天然气藏为例[J].地学前缘,2010,17(4):271-279.]
[60]Wu Nan,Cai Zhongxian.Response of phase fractionation of diamantine compounds in crude oil in Lunnan uplift[J].Fault-Block Oil & Gas Field,2012,19(4):458-461.[吴楠,蔡忠贤.轮南低凸起原油中金刚烷类化合物的相分馏响应[J].断块油气田,2012,19(4):458-461.]
[61]Stout S A,Douglas G S.Diamondoid hydrocarbons-Application in the chemical fingerprinting of natural gas condensate and gasoline[J].Environmental Forensics,2004,5(4):225-235.
[62]Yang C,Wang Z D,Hollebone B P,et al.GC/MS quantitation of diamondoid compounds in crude oils and petroleum[J].Environmental Forensics,2006,7(4):377-390.
[63]Wang Zhendi,Yang Chun,Hollebone B,et al.Forensic fingerprinting of diamondoids for correlation and differentiation of spilled oil and petroleum products[J].Environmental Science & Technology,2006,40(18):5636-5646.
[64]Zhang Kuiying,Yang Baijun,Zheng Li,et al.Crude oil identification based on diamondoid fingerprinting concentrations by semiquantitative method[J].Chinese Journal of Analytical Chemistry,2011,39(4):496-500.[张魁英,杨佰娟,郑立,等.基于原油中金刚烷指纹半定量分析进行原油鉴别[J].分析化学,2011,39(4):496-500.]
[65]Yang Baijuan,Hou Wei,Wang Xiaoru.Crude oil identification using principle component analysis based on characteristic ratios of diamondoid compounds[J].Marine Science,2013,37(2):84-88.[杨佰娟,侯伟,王小如.基于金刚烷特征比值的主成份分析方法进行原油鉴别[J].海洋科学,2013,37(2):84-88.]
[66]Gordadze G N,Giruts M V.Synthesis of adamantine and diamantine hydrocarbons by high-temperature cracking of high n-alkanes[J].Petroleum Chemistry,2008,48(6):414-419.
[67]Gordadze G B,Ciruts M V.Synthesis of adamantine and diamantine hydrocarbons by high temperature cracking of high n-alkanes[J].Petroleum Geochemistry,2008,48(5):241-253.
[68]Giruts M V,Rusinova G V,Gordadze G N.Generation of adamantanes and diamantanes by thermal cracking of high-molecular-mass saturated fractions of crude oils of different genotypes[J].Petroleum Chemistry,2006,46(4):225-236.
[69]Giruts M V,Gordadze G N,Generation of adamantanes and diamantanes by thermal cracking of polar components of crudes oils of different genotypes[J].Petroleum Chemistry,2007,47(1):12-22.
[70]Berwick L,Alexander R,Pierce K.Formation and reactions of alkyl adamantanes in sediments:carbon surface reactions[J].Organic Geochemistry,2011,42(7):752-761.
[71]Alexander R,Dawson D,Pierce K,et al.Carbon catalysed  hydrogen  exchange in petroleum source rocks[J].Organic Geochemistry,2009,40(9):951-959.
[72]Alexander R,Berwick L,Pierce K.Single carbon surface reaction of 1-octadecene and 2,3,6-trimethylphenol on activated carbon:implications for methane formation in sediments[J].Organic Geochemistry,2011,42(5):540-547.
[73]Burns W,McKervery M A,Thomas R B,et al.A new approach to construction of diamondoid hydrocarbons,Synthesis of anti-tetramantane[J].Journal of American Chemical Association,1978,100(3):906-911.
[74]Wei Z,Moldowan J M,Jarvie D M,et al.The fate of diamondoids in coals and sedimentary rocks[J].Geology,2006,34(12):1013-1016.