星际分子列表
星际分子列表列出已在星际物质和星周包层中被检测出的分子,并依照组成原子的数目分组。每一种分子均附其化学式,若有离子型式也会一并列出。
发现
编辑本列表中的所有分子都是透过分光学检测出来的。这些分子的光谱特征是由不同能级之间组成电子的跃迁,或是通过旋转、振动光谱产生的,多数会在光谱的无线电波、微波或红外线部分被侦测出来[1]。
星际分子是由非常稀疏的星际或星周云内的尘埃和气体经化学反应而形成的,大部分时候于分子与宇宙射线相互作用、被电离时发生。射线中带正电的质点会以静电力吸引邻近的中性粒子。反应也可以在中性的原子和分子之间发生,但进行的比较缓慢[2]。尘埃在使分子免受恒星发出的紫外线辐射的电离效应上具有关键作用[3]。
历史
编辑生命的化学反应可能开始于距今约138亿年前的大爆炸不久之后、宇宙进入一段适居时期时,当时宇宙的年龄约只有1亿至1.7亿年[4][5]。
在星际物质中检测到的第一个含碳分子是甲炔(CH•),于1937年首次被检测出来[6]。之后的20世纪70年代早期的一些证据显示,宇宙尘埃是由数量众多的复杂有机分子(COMs,可能是聚合物)所组成的[7]。天体物理学家钱德拉·维克拉玛辛赫以甲醛分子为基础提出聚合化合物存在于星际空间中的可能[8];维克拉玛辛赫并与弗雷德·霍伊尔据2175 Å的紫外线消光吸收分析鉴定出了双环芳香族化合物的存在,从而证明了星际空间中存在着多环芳香烃分子[9]。
2004年,科学家在自红矩形星云发射的紫外线中检测出了蒽和芘的光谱特征,此等复杂的分子之前从未在外太空中被发现[10]。学界多认为此一发现证实了当与红矩形星云相同类型的星云接近生命尽头时,星云核心中的碳和氢将因对流作用被束缚在恒星风中并向外辐射的假设[11]:当冷却时,原子会彼此结合,最终形成含有百万颗以上原子的大型分子。科学家们并推断,既然多环芳香烃是在星云中被发现的,那其必然也是产生于星云之中[10][11]。
2010年,富勒烯(又称为“巴克球”)在星云中被检测出来[12]。富勒烯与生命起源有着一定的关系;天文学家莱蒂西亚·史坦赫利尼(Letizia Stanghellini)表示:“来自外太空的巴克球有可能为地球上的生命发展提供了种子。”[13]2019年4月,科学家透过哈勃空间望远镜观测星际物质时,在恒星间侦测到了大型、复杂的离子化巴克明斯特富勒烯(C60)分子[14][15]。
2011年,科学家们利用光谱学发现,含有复杂有机化合物(“具有芳香族-脂肪族混合结构的无定形有机固体”)的宇宙尘埃可自然、快速地由恒星产生[16][17][18]。这些分子的化学结构非常复杂,其复杂程度已可与煤和石油的化学成分相比;之前学界普遍认为具有这种复杂程度的化学物质仅能由生物体产生[16]。观察结果表明,由星际尘埃粒子引入地球的有机化合物基于其表面催化活性可以作为生命的基本要素[19][20]。其中一位科学家并认为这些化合物可能与地球上的生命发展相关,并表示:“如果这一假设为真,则地球上的生命可能会比我们想像的更容易萌芽,因为这些有机物可以作为生命的组成基础。”[16]
2012年8月,哥本哈根大学的天文学家在一个遥远星系中的原恒星周围发现了乙醇醛(一种有机化合物);此恒星的编号为IRAS 16293-2422,距离地球约400光年[21][22]。乙醇醛是组成核糖核酸的必要物质之一,而核糖核酸可在遗传编码、转译、调控及基因表现等过程中发挥作用。这一发现表明复杂的有机分子可能在行星形成之前即在恒星系统中产生,并最终到达正在发展的早期行星上[23]。
2012年9月,美国国家航空航天局的科学家提出报告,认为多环芳香烃在星际物质环境中会经氢化、氧化及羟基化等作用形成更复杂的有机化合物,“逐步向形成核苷酸和氨基酸(分别为蛋白质和去氧核糖核酸)的道路前进”[24][25]。此外,在转变的过程中,多环芳香烃物质将丧失其光谱特征,“或许就是为什么在星际冰(尤其是寒冷、浓密的星云)及原行星盘的上部分子层中很少侦测到多环芳香烃存在的原因之一”[24][25]。
多环芳香烃在宇宙中随处可见[26]。2013年6月,多环芳香烃在土星最大的卫星土卫六(俗称“泰坦”)上被侦测出来[27]。
2013年8月,里兹大学的德威恩·赫德(Dwayne Heard)认为量子力学中的量子隧穿效应可以解释他的实验小组观察到的现象:冷羟基(温度约63开尔文)和甲醇分子之间突破了分子内的能垒,导致两种物质之间的反应发生率明显高于预期。在不考虑量子效应时,此分子能垒一般需在较高温度的环境中透过热能或电离作用克服。量子隧穿效应有助于解释复杂分子(由数十个以上的原子所组成)于星际空间中的存在[28]。
2015年3月,NASA的科学家报告其实验室已成功利用嘧啶(常见于陨石中)等基本化学物质,在外太空模拟环境下生成包括尿嘧啶、胞嘧啶和胸腺嘧啶在内的DNA和RNA等复杂有机化合物。据科学家的说法,嘧啶的形成过程与多环芳香烃相似,可能是在红巨星、星际尘埃或气体云中生成的[29]。
2016年10月,天文学家称甲炔、碳氢正离子(CH+)和碳离子(C+)等生命形成所需的基本要素大部分是自恒星发出的紫外线中产生的,而非像之前料想的与超新星和年轻恒星扰动相关的事件等其他生成途径[30][31]。
人马座B2是宇宙中星际分子含量最丰富的区域之一。人马座B2是一个由气体和尘埃组成的分子云,横躺在银河系的中心附近,常成为天文学的研究标的。本列表中大约有一半的分子最初都是在人马座B2内被发现的,而几乎所有已知的星际分子目前也都能在此处检测出来[32]。另一个常作为星际分子调查来源的地点是狮子座CW(即IRC +10216星),有多达50种分子在那里被检测出来[33]。
理论模型
编辑要解释观察到的异构体的比例,就必须运用最小能量原理。在大多数情况中,最小能量原理能够解释为何某些分子因为总能量较低的缘故在星际空间的含量较其异构体丰富,不过也有一些例外存在[34]。这些例外有些可以利用其他分子参数解决,例如偶极极化率(dipole polarizabilty)也会影响异构体的丰度:极化率较低的分子在星际空间的含量会比平均极化率较高的分子更丰富[35]。此现象的成因来自于与宇宙中各种辐射原理相似之极化率与外部电场下分子行为的相关性。
另一种解释则完全忽略能量问题,只处理透过信息熵指数(information entropy index)计算的分子复杂性。此解释推测一些分子的组成物质参数值(如尿素、嘧啶、二羟基丙酮、尿嘧啶、胞嘧啶、甘氨酸和丙氨酸等)因落入已知星际分子典型值的范围内,使这些分子在星际环境中被发现的可能性较其他分子要高。此外,信息熵大的分子,即那些结构最复杂的分子,占有星际集合的一半之多,其百分比随着分子大小而递减。此一趋势也有可能与分子化学结构之均匀度和稳定性的不同有关,因为大尺寸的可检测分子更可能拥有对称而非不对称的分子结构。实际观察中检测到的大量低熵、结构高度对称的富勒烯分子为这一假设提供了支持理据。另外,信息熵也反映了物质的氢化深度:信息熵大的分子缺少氢气组成,而其他多数分子皆含有大量的氢[36]。
分子列表
编辑下列出已在星际物质和星周包层中被检测出的分子,并依照组成原子的数目分组。每一种分子均附其化学式,若有离子型式也会一并列出。若该分子只有离子型式被检测出来,或是没有在科学文献中定名者,则分子一栏留空。下列表格中质量一格数据采用之计量单位为原子质量单位。每小节标题会列出该小节所含之分子总数。
目前大部分被侦测出的星际分子都是有机化合物。在所有组成原子数目达五个以上的分子中,只有甲硅烷(SiH4)是无机化合物,其他分子都具有至少一个碳原子,而没有N-N或O-O键[37]。
双原子(44)
编辑分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|
AlCl | Aluminium monochloride[39][40] | 一氯化铝 | 62.5 | - |
AlF | Aluminium monofluoride[39][41] | 一氟化铝 | 46 | - |
AlO | Aluminium monoxide[42] | 一氧化铝 | 43 | - |
- | Argonium[43][44] | 氩氢离子 | 41 | ArH+ |
C2 | Diatomic carbon[45][46] | 双原子碳 | 24 | - |
- | Fluoromethylidynium | 氟化次甲基正离子 | 31 | CF+[47] |
CH | Methylidyne radical[30][48] | 次甲基自由基 | 13 | CH+[49] |
CN | Cyanogen radical[39][48][50][51] | 氰基自由基 | 26 | CN+[52] CN−[53] |
CO | Carbon monoxide[39][54][55] | 一氧化碳 | 28 | CO+[56] |
CP | Carbon monophosphide[51] | 一磷化碳 | 43 | - |
CS | Carbon monosulfide[39] | 一硫化碳 | 44 | - |
FeO | Iron(II) oxide[57] | 氧化亚铁 | 82 | - |
- | Helium hydride ion[58][59] | 氦合氢离子 | 5 | HeH+ |
H2 | Molecular hydrogen[60] | 氢分子 | 2 | - |
HCl | Hydrogen chloride[61] | 氯化氢 | 36.5 | HCl+[62] |
HF | Hydrogen fluoride[63] | 氟化氢 | 20 | - |
HO | Hydroxyl radical[39] | 羟基自由基 | 17 | OH+[64] |
KCl | Potassium chloride[39][40] | 氯化钾 | 75.5 | - |
NH | Imidogen[65][66] | 一氢化氮 | 15 | - |
N2 | Molecular nitrogen[67][68] | 氮分子 | 28 | - |
NO | Nitric oxide[69] | 一氧化氮 | 30 | NO+[52] |
NS | Sulfur mononitride[39] | 一氮化硫 | 46 | - |
NaCl | Sodium chloride[39][40] | 氯化钠 | 58.5 | - |
- | Magnesium monohydride cation | 一氢化镁正离子 | 25.3 | MgH+[52] |
NaI | Sodium iodide[70] | 碘化钠 | 150 | - |
O2 | Molecular oxygen[71] | 氧分子 | 32 | - |
PN | Phosphorus mononitride[72] | 一氮化磷 | 45 | - |
PO | Phosphorus monoxide[73] | 一氧化磷 | 47 | - |
SH | Sulfur monohydride[74] | 一氢化硫 | 33 | SH+[75] |
SO | Sulfur monoxide[39] | 一氧化硫 | 48 | SO+[49] |
SiC | Carborundum[39][76] | 碳化硅 | 40 | - |
SiN | Silicon mononitride[39] | 一氮化硅 | 42 | - |
SiO | Silicon monoxide[39] | 一氧化硅 | 44 | - |
SiS | Silicon monosulfide[39] | 一硫化硅 | 60 | - |
TiO | Titanium(II) oxide[77] | 一氧化钛 | 63.9 | - |
三原子(41)
编辑分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|
AlNC | Aluminium isocyanide[39] | 异氰化铝(I) | 53 | - |
AlOH | Aluminium hydroxide[80] | 氢氧化铝(I) | 44 | - |
C3 | Tricarbon[81][82] | 三碳 | 36 | - |
C2H | Ethynyl radical[39][50] | 乙炔基 | 25 | - |
CCN | Cyanomethylidyne[83] | - | 38 | - |
C2O | Dicarbon monoxide[84] | 一氧化二碳 | 40 | - |
C2S | Thioxoethenylidene[85] | 一硫化二碳 | 56 | - |
C2P | -[86] | - | 55 | - |
CO2 | Carbon dioxide[87] | 二氧化碳 | 44 | - |
FeCN | Iron cyanide[88] | 氰化铁 | 82 | - |
- | Protonated molecular hydrogen | 三氢正离子 | 3 | H+ 3[78][79] |
H2C | Methylene radical[89] | 甲烯 | 14 | - |
- | Chloronium | 氯𬭩离子 | 37.5 | H2Cl+[90] |
H2O | Water[91] | 水 | 18 | H2O+[92] |
HO2 | Hydroperoxyl[93] | 超氧化氢 | 33 | - |
H2S | Hydrogen sulfide[39] | 硫化氢 | 34 | - |
HCN | Hydrogen cyanide[39][50][94] | 氰化氢 | 27 | - |
HNC | Hydrogen isocyanide[95][96] | 异氢氰酸 | 27 | - |
HCO | Formyl radical[97] | 甲酰基 | 29 | HCO+[49][97][98] |
HCP | Phosphaethyne[99] | 磷杂乙炔 | 44 | - |
HCS | Thioformyl[100] | 硫甲酰基 | 45 | HCS+[49][98] |
- | Diazenylium[98][49][101] | 二亚胺氮𬭩离子 | 29 | HN+ 2 |
HNO | Nitroxyl[102] | 次硝酸 | 31 | - |
- | Isoformyl | - | 29 | HOC+[50] |
HSC | Isothioformyl[100] | - | 45 | - |
KCN | Potassium cyanide[39] | 氰化钾 | 65 | - |
MgCN | Magnesium cyanide[39] | 氰化镁(I) | 50 | - |
MgNC | Magnesium isocyanide[39] | 异氰化镁(I) | 50 | - |
NH2 | Amino radical[103] | 氨基自由基 | 16 | - |
N2O | Nitrous oxide[104] | 一氧化二氮 | 44 | - |
NaCN | Sodium cyanide[39] | 氰化钠 | 49 | - |
NaOH | Sodium hydroxide[105] | 氢氧化钠 | 40 | - |
OCS | Carbonyl sulfide[106] | 羰基硫 | 60 | - |
O3 | Ozone[107] | 臭氧 | 48 | - |
SO2 | Sulfur dioxide[39][108] | 二氧化硫 | 64 | - |
c-SiC2 | c-Silicon dicarbide[39][76] | c-二碳化硅 | 52 | - |
SiCSi | Disilicon carbide[109] | - | 68 | - |
SiCN | Silicon carbonitride[110] | 碳氮化硅 | 54 | - |
SiNC | -[111] | - | 54 | - |
TiO2 | Titanium dioxide[77] | 二氧化钛 | 79.9 | - |
四原子(28)
编辑分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|
CH3 | Methyl radical[113] | 甲基 | 15 | - |
l-C3H | Propynylidyne[39][114] | - | 37 | l-C3H+[115] |
c-C3H | Cyclopropynylidyne[116] | 环丙炔基 | 37 | - |
C3N | Cyanoethynyl[117] | 氰乙基 | 50 | C3N−[118] |
C3O | Tricarbon monoxide[114] | 一氧化三碳 | 52 | - |
C3S | Tricarbon sulfide[39][85] | 一硫化三碳 | 68 | - |
- | Hydronium | 水合氢离子 | 19 | H3O+[119] |
C2H2 | Acetylene[120] | 乙炔 | 26 | - |
H2CN | Methylene amidogen[121] | - | 28 | H2CN+[49] |
H2CO | Formaldehyde[112] | 甲醛 | 30 | - |
H2CS | Thioformaldehyde[122] | 硫代甲醛 | 46 | - |
HCCN | -[123] | - | 39 | - |
HCCO | Ketenyl[124] | 乙烯酮 | 41 | - |
- | Protonated hydrogen cyanide | 质子化的氰化氢 | 28 | HCNH+[98] |
- | Protonated carbon dioxide | 质子化的二氧化碳 | 45 | HOCO+[125] |
HCNO | Fulminic acid[126] | 雷酸 | 43 | - |
HOCN | Cyanic acid[127] | 氰酸 | 43 | - |
CNCN | Isocyanogen[128] | 异氰 | 52 | - |
HOOH | Hydrogen peroxide[129] | 过氧化氢 | 34 | - |
HNCO | Isocyanic acid[108] | 异氰酸 | 43 | - |
HNCS | Isothiocyanic acid[130] | 异硫氰酸 | 59 | - |
NH3 | Ammonia[39][131] | 氨 | 17 | - |
HSCN | Thiocyanic acid[132] | 硫氰酸 | 59 | - |
SiC3 | Silicon tricarbide[39] | 三碳化硅 | 64 | - |
HMgNC | Hydromagnesium isocyanide[133] | 异氰化氢镁 | 51.3 | - |
HNO2 | Nitrous acid[134] | 亚硝酸 | 47 | - |
五原子(20)
编辑分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|
- | Ammonium ion[136][137] | 铵离子 | 18 | NH+ 4 |
CH4 | Methane[138] | 甲烷 | 16 | - |
CH3O | Methoxy radical[139] | 甲氧基 | 31 | - |
c-C3H2 | Cyclopropenylidene[50][140][141] | 环丙烯亚基[142](又译为亚环丙烯基自由基) | 38 | - |
l-H2C3 | Propadienylidene[141] | 亚丙二烯基 | 38 | - |
H2CCN | Cyanomethyl[143] | 氰甲基自由基 | 40 | - |
H2C2O | Ketene[108] | 乙烯酮 | 42 | - |
H2CNH | Methylenimine[144] | 甲亚胺 | 29 | - |
HNCNH | Carbodiimide[145] | 碳二亚胺 | 42 | - |
- | Protonated formaldehyde | 质子化的甲醛 | 31 | H2COH+[146] |
C4H | Butadiynyl[39] | 丁二炔基 | 49 | C4H−[147] |
HC3N | Cyanoacetylene[39][50][98][148][149] | 氰基乙炔 | 51 | - |
HCC-NC | Isocyanoacetylene[150] | 异氰基乙炔 | 51 | - |
HCOOH | Formic acid[151][148] | 甲酸 | 46 | - |
NH2CN | Cyanamide[152] | 氨基氰 | 42 | - |
- | Protonated cyanogen | 质子化的氰 | 53 | NCCNH+[153] |
HC(O)CN | Cyanoformaldehyde[154] | 甲酰腈 | 55 | - |
C5 | Linear C5[155] | 五碳 | 60 | - |
SiC4 | Silicon-carbide cluster[76] | 碳化硅簇合物 | 92 | - |
SiH4 | Silane[156] | 硅烷 | 32 | - |
六原子(16)
编辑分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|
c-H2C3O | Cyclopropenone[158] | 环丙烯酮 | 54 | - |
E-HNCHCN | E-Cyanomethanimine[159] | - | 54 | - |
C2H4 | Ethylene[160] | 乙烯 | 28 | - |
CH3CN | Acetonitrile[108][161][162] | 乙腈 | 40 | - |
CH3NC | Methyl isocyanide[161] | 甲基异氰 | 40 | - |
CH3OH | Methanol[108][163] | 甲醇 | 32 | - |
CH3SH | Methanethiol[164] | 甲基硫醇 | 48 | - |
l-H2C4 | Diacetylene[39][165] | 丁二炔 | 50 | - |
- | Protonated cyanoacetylene | 质子化的氰基乙炔 | 52 | HC3NH+[98] |
HCONH2 | Formamide[157] | 甲酰胺 | 44 | - |
C5H | Pentynylidyne[39][85] | 亚戊基 | 61 | - |
C5N | Cyanobutadiynyl radical[166] | 氰基丁二烯基 | 74 | - |
HC2CHO | Propynal[167] | 丙炔醛 | 54 | - |
HC4N | -[39] | - | 63 | - |
CH2CNH | Ketenimine[140] | 氮丙环 | 40 | - |
C5S | -[168] | - | 92 | - |
七原子(11)
编辑分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|
c-C2H4O | Ethylene oxide[170] | 环氧乙烷 | 44 | - |
CH3C2H | Methylacetylene[50] | 丙炔 | 40 | - |
H3CNH2 | Methylamine[171] | 甲胺 | 31 | - |
CH2CHCN | Acrylonitrile[108][161] | 丙烯腈 | 53 | - |
H2CHCOH | Vinyl alcohol[169] | 乙烯醇 | 44 | - |
C6H | Hexatriynyl radical[39][85] | 己三炔自由基 | 73 | C6H−[141][172] |
HC4CN | Cyanodiacetylene[108][149][161] | 氰基丁二炔 | 75 | - |
HC5O | -[173] | - | 77 | - |
CH3CHO | Acetaldehyde[39][170] | 乙醛 | 44 | - |
CH3NCO | Methyl isocyanate[174] | 异氰酸甲酯 | 57 | - |
HOCH2CN | Glycolonitrile[175] | 羟基乙腈 | 57 | - |
八原子(11)
编辑分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|
H3CC2CN | Methylcyanoacetylene[177] | 甲基氰基乙炔 | 65 | - |
H2COHCHO | Glycolaldehyde[178] | 乙醇醛 | 60 | - |
HCOOCH3 | Methyl formate[108][148][178] | 甲酸甲酯 | 60 | - |
CH3COOH | Acetic acid[176] | 乙酸 | 60 | - |
H2C6 | Hexapentaenylidene[39][165] | 亚己五烯基 | 74 | - |
CH2CHCHO | Propenal[140] | 丙烯醛 | 56 | - |
CH2CCHCN | Cyanoallene[140][177] | 氰基丙二烯 | 65 | - |
CH3CHNH | Ethanimine[179] | 亚氨基乙烷 | 43 | - |
C7H | Heptatrienyl radical[180] | 庚三烯基自由基 | 85 | - |
NH2CH2CN | Aminoacetonitrile[181] | 氨基乙腈 | 56 | - |
(NH2)2CO | Urea[182] | 尿素 | 60 | - |
九原子(10)
编辑分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|
CH3C4H | Methyldiacetylene[183] | 甲基丁二炔 | 64 | - |
CH3OCH3 | Dimethyl Ether[184] | 二甲醚 | 46 | - |
CH3CH2CN | Propionitrile[39][108][161] | 丙腈 | 55 | - |
CH3CONH2 | Acetamide[140][157] | 乙酰胺 | 59 | - |
CH3CH2OH | Ethanol[185] | 乙醇 | 46 | - |
C8H | Octatetraynyl radical[186] | 辛四炔自由基 | 97 | C8H−[187][188] |
HC7N | Cyanohexatriyne Cyanotriacetylene[39][131][189][190] |
氰基己三炔 | 99 | - |
CH3CHCH2 | Propylene Propene[191] |
丙烯 | 42 | - |
CH3CH2SH | Ethyl mercaptan[192] | 乙硫醇 | 62 | - |
超过九个原子(17)
编辑原子数量 | 分子 | 英文名称 | 中文名称 | 质量 | 离子 |
---|---|---|---|---|---|
10 | (CH3)2CO | Acetone[108][193] | 丙酮 | 58 | - |
10 | (CH2OH)2 | Ethylene glycol[194][195] | 乙二醇 | 62 | - |
10 | CH3CH2CHO | Propanal[140] | 丙醛 | 58 | - |
10 | CH3OCH2OH | Methoxymethanol[196] | 甲氧基甲醇 | 62 | - |
10 | CH3C5N | Methylcyanodiacetylene[140] | 甲基氰基丁二炔 | 89 | - |
10 | CH3CHCH2O | Propylene oxide[197] | 环氧丙烷 | 58 | - |
11 | HC8CN | Cyanotetraacetylene[39][189] | 氰基多炔烃 | 123 | - |
11 | C2H5OCHO | Ethyl formate[198] | 甲酸乙酯 | 74 | - |
11 | CH3COOCH3 | Methyl acetate[199] | 乙酸甲酯 | 74 | - |
11 | CH3C6H | Methyltriacetylene[140][183] | 甲基己三炔 | 88 | - |
12 | C6H6 | Benzene[165] | 苯 | 78 | - |
12 | C3H7CN | n-Propyl cyanide[198] | 正丁腈 | 69 | - |
12 | (CH3)2CHCN | iso-Propyl cyanide[200][201] | 异丁腈 | 69 | - |
13 | C 6H 5CN |
Benzonitrile[202] | 苯甲腈 | 104 | - |
13 | HC10CN | Cyanopentaacetylene[189] | 氰基癸五炔 | 147 | - |
60 | C60 | Buckminsterfullerene C60 fullerene[203] |
富勒烯 | 720 | C+ 60[14][15][204][205] |
70 | C70 | C70 fullerene[203] | C70富勒烯 | 840 | - |
含氘原子的分子(20)
编辑原子数量 | 分子 | 英文名称 | 中文名称 |
---|---|---|---|
2 | HD | Hydrogen deuteride[206][207] | 氘化氢 |
3 | H2D+ HD+ 2 |
Trihydrogen cation[206][207] | 三氢正离子 |
3 | HDO D2O |
Heavy water[208][209] | 重水 |
3 | DCN | Hydrogen cyanide[210] | 氰化氢 |
3 | DCO | Formyl radical[210] | 甲酰基 |
3 | DNC | Hydrogen isocyanide[210] | 异氢氰酸 |
3 | N2D+ | -[210] | - |
4 | NH2D NHD2 ND3 |
Ammonia[207][211][212] | 氨 |
4 | HDCO D2CO |
Formaldehyde[207][213] | 甲醛 |
4 | DNCO | Isocyanic acid[214] | 异氰酸 |
5 | NH3D+ | Ammonium ion[215][216] | 铵离子 |
6 | NH 2CDO NHDCHO |
Formamide[214] | 甲酰胺 |
7 | CH2DCCH CH3CCD |
Methylacetylene[217][218] | 丙炔 |
未经证实的分子(12)
编辑以下分子存在于星际空间中的证据曾在科学文献中被提及,然而这些证据不是被文献作者描述为“暂定性的”,就是曾被其他学者所挑战。这些分子存在于星际空间中的证据仍待更多独立研究证实。
原子数量 | 分子 | 英文名称 | 中文名称 |
---|---|---|---|
2 | SiH | Silylidine[95] | - |
4 | PH3 | Phosphine[219] | 磷化氢 |
4 | MgCCH | Magnesium monoacetylide[168] | 乙炔酸镁 |
4 | NCCP | Cyanophosphaethyne[168] | 氰基磷杂乙炔 |
5 | H2NCO+ | -[220] | - |
6 | SiH3CN | Silyl cyanide[168] | 氰基甲基硅烷 |
10 | H2NCH2COOH | Glycine[221][222] | 甘氨酸 |
12 | CO(CH2OH)2 | Dihydroxyacetone[223] | 二羟基丙酮 |
12 | C2H5OCH3 | Ethyl methyl ether[224] | 甲乙醚 |
18 | C 10H+ 8 |
Naphthalene cation[225] | 萘正离子 |
24 | C24 | Graphene[226] | 石墨烯 |
24 | C14H10 | Anthracene[10][227] | 蒽 |
26 | C16H10 | Pyrene[10] | 芘 |
参见
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外部链接
编辑- Woon, David E. Interstellar and Circumstellar Molecules. The Astrochymist. 2010-10-01 [2019-08-27] (英语).
- Molecules in Space. Universität zu Köln. 2019-01 [2019-08-27]. (原始内容存档于2020-05-29) (英语).
- Dworkin, Jason P. The Cosmic Ice Laboratory - Interstellar Molecules. National Aeronautics and Space Administration Goddard Space Flight Center. 2007-02-01 [2019-08-27]. (原始内容存档于2013-02-02) (英语).
- Wootten, Al. The reported interstellar and circumstellar molecules. National Radio Astronomy Observatory. 2005-11 [2019-08-27]. (原始内容存档于2020-12-11) (英语).
- Lovas, F. J.; Dragoset, R. A. NIST Recommended Rest Frequencies for Observed Interstellar Molecular Microwave Transitions, 2009 Revision. Journal of Physical and Chemical Reference Data. 2004-02, 33 (1): 177 [2019-08-27]. Bibcode:2004JPCRD..33..177L. doi:10.18434/T4JP4Q. (原始内容存档于2021-01-21) –通过National Institute of Standards and Technology (Last update date 2009-09) (英语).