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从头算模拟α-和β-氨基甲酸铵(NH·NHCO),以及氘代α-氨基甲酸铵的热膨胀系数从 4.2 到 180 K 通过中子粉末衍射。

Ab initio simulations of α- and β-ammonium carbamate (NH·NHCO), and the thermal expansivity of deuterated α-ammonium carbamate from 4.2 to 180 K by neutron powder diffraction.

机构信息

Bayerisches Geoinstitut (BGI), University of Bayreuth, 95447 Bayreuth, Germany.

Department of Earth Sciences, University College London, Gower Street, London WC1E 6BT, United Kingdom.

出版信息

Acta Crystallogr B Struct Sci Cryst Eng Mater. 2022 Jun 1;78(Pt 3 Pt 2):459-475. doi: 10.1107/S2052520622002645. Epub 2022 Apr 30.

DOI:10.1107/S2052520622002645
PMID:35702963
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9254591/
Abstract

Experimental and computational studies of ammonium carbamate have been carried out, with the objective of studying the elastic anisotropy of the framework manifested in (i) the thermal expansion and (ii) the compressibility; furthermore, the relative thermodynamic stability of the two known polymorphs has been evaluated computationally. Using high-resolution neutron powder diffraction data, the crystal structure of α-ammonium carbamate (ND·NDCO) has been refined [space group Pbca, Z = 8, with a = 17.05189 (15), b = 6.43531 (7), c = 6.68093 (7) Å and V = 733.126 (9) Å at 4.2 K] and the thermal expansivity of α-ammonium carbamate has been measured over the temperature range 4.2-180 K. The expansivity shows a high degree of anisotropy, with the b axis most expandable. The ab initio computational studies were carried out on the α- and β-polymorphs of ammonium carbamate using density functional theory. Fitting equations of state to the P(V) points of the simulations (run athermally) gave the following values: V = 744 (2) Å and bulk modulus K = 16.5 (4) GPa for the α-polymorph, and V = 713.6 (5) Å and K = 24.4 (4) GPa for the β-polymorph. The simulations show good agreement with the thermoelastic behaviour of α-ammonium carbamate. Both phases show a high-degree of anisotropy; in particular, α-ammonium carbamate shows unusual compressive behaviour, being determined to have negative linear compressibility (NLC) along its a axis above 5 GPa. The thermodynamically stable phase at ambient pressure is the α-polymorph, with a calculated enthalpy difference with respect to the β-polymorph of 0.399 kJ mol; a transition to the β-polymorph could occur at ∼0.4 GPa.

摘要

已经进行了关于氨基甲酸铵的实验和计算研究,目的是研究骨架表现出的弹性各向异性,包括(i)热膨胀和(ii)压缩性;此外,还通过计算评估了两种已知多晶型物的相对热力学稳定性。使用高分辨率中子粉末衍射数据,已经对 α-氨基甲酸铵(ND·NDCO)的晶体结构进行了精修[空间群 Pbca,Z = 8,a = 17.05189(15),b = 6.43531(7),c = 6.68093(7)Å,V = 733.126(9)Å,在 4.2 K],并在 4.2-180 K 的温度范围内测量了 α-氨基甲酸铵的热膨胀系数。膨胀系数表现出高度各向异性,b 轴的可扩展性最大。使用密度泛函理论对 α-和 β-氨基甲酸铵多晶型物进行了从头计算研究。对模拟(在绝热条件下进行)的 P(V)点进行状态方程拟合,得到以下值:对于 α-多晶型物,V = 744(2)Å,体弹模量 K = 16.5(4)GPa,对于 β-多晶型物,V = 713.6(5)Å,K = 24.4(4)GPa。模拟结果与 α-氨基甲酸铵的热弹性行为吻合良好。两种相都表现出高度的各向异性;特别是,α-氨基甲酸铵表现出异常的压缩行为,在 5 GPa 以上时,其 a 轴的线性压缩率(NLC)被确定为负值。在环境压力下热力学稳定的相是 α-多晶型物,与 β-多晶型物相比,其焓差为 0.399 kJ mol;在约 0.4 GPa 时可能会发生向 β-多晶型物的转变。

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