Raman Spectroscopic Investigations of Noncovalent Interactions between Pyrimidine and Hydrogen Bonded Networks

机译：拉曼光谱研究嘧啶和氢键网络之间的非共价相互作用

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Noncovalent interactions are prevalent in nature and dictate the physical properties of many important molecular systems. Hydrogen bonding represents the most extensively investigated class of noncovalent interactions because of its importance in the chemical and physical properties of water as well as its impact on the structure and function of biomolecules including amino acids, nucleotides, monosaccharides, and polymers formed from these molecules.1 Hydrogen bonding also plays a dominant role in determining crystal structure, salvation phenomena, reaction dynamics in liquids, nonlinear optical responses in solid state materials, surface and electrode chemistry, and the macroscopic properties of gases and condensed phase materials.

机译：非共价相互作用本性普遍，并决定了许多重要分子系统的物理性质。氢键是最广泛地研究的非共价相互作用，因为它在水的化学和物理性质中的重要性以及它对包括由这些分子形成的氨基酸，核苷酸，单糖和聚合物的生物分子的结构和功能的影响。 1氢键在确定晶体结构，救赎现象，液体中的反应动力学，固态材料，表面和电极化学中的非线性光学响应以及气体和冷凝相材料的宏观性质方面起显着作用。

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《International Conference on Raman Spectroscopy》|2010年||共2页
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Ashley M. Wright; Austin A. Howard; Gregory S. Tschumper; Nathan I. Hammer;
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中图分类 O657.37-532;
关键词
Raman Spectroscopic; Investigations; Noncovalent;

机译：拉曼光谱;调查;非价;

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专利

1. Spectroscopic and computational insight into weak noncovalent interactions in crystalline pyrimidine [J] . Wright A.M., Joe L.V., Howard A.A., Chemical Physics Letters . 2010,第4a6期

机译：结晶和嘧啶中弱的非共价相互作用的光谱和计算洞察力
2. Self-assembly of [M(Hida)(2)] (Hida(-) = iminodiacetate; M = Pd and Pt) in a 2D supramolecular network via extensive hydrogen bonded interactions: Synthesis, X-ray crystal structure, spectroscopic and thermal studies [J] . Chakraborty J, Mayer-Figge H, Sheldrick WS, Polyhedron: The International Journal for Inorganic and Organometallic Chemistry . 2005,第7期

机译：通过广泛的氢键相互作用在二维超分子网络中自组装[M（Hida）（2）]（Hida（-）=亚氨基二乙酸酯; M = Pd和Pt）：合成，X射线晶体结构，光谱和热研究
3. Vibrational assignments, spectroscopic investigation (FT-IR and FT-Raman), NBO, MEP, HOMO-LUMO analysis and intermolecular hydrogen bonding interactions of 7-fluoroisatin, 7-bromoisatin and 1-methylisatin - A comparative study [J] . Polat Turgay, Bulut Fatih, Arican Ilknur, Journal of Molecular Structure . 2015,第Null期

机译：振动分配，光谱研究（FT-IR和FT-Raman），NBO，MEP，HOMO-LUMO分析以及7-氟异丁香，7-溴异丁香和1-甲基异丁香的分子间氢键相互作用-比较研究
4. Raman Spectroscopic Investigations of Noncovalent Interactions between Pyrimidine and Hydrogen Bonded Networks [C] . Ashley M. Wright, Austin A. Howard, Gregory S. Tschumper, International Conference on Raman Spectroscopy . 2010

机译：拉曼光谱研究嘧啶和氢键网络之间的非共价相互作用
5. Investigations of noncovalent interactions using Raman spectroscopy and electronic structure computations. [D] . Wright, Ashley M. 2012

机译：使用拉曼光谱和电子结构计算研究非共价相互作用。
6. Van der Waals-London interactions and the configuration of hydrogen-bonded purine and pyrimidine pairs. [O] . B Pullman, P Claverie, J Caillet 1966

机译：Van der Waals-London相互作用以及氢键嘌呤和嘧啶对的构型。
7. An Integrative Synthetic, Spectroscopic, and Computational Study of the Free Radical Chlorine Dioxide and its Interactions with Hydrogen Bonded Networks [O] . Sutton Sarah C. 2017

机译：自由基二氧化氯及其与氢键网络相互作用的综合合成，光谱和计算研究

Raman Spectroscopic Investigations of Noncovalent Interactions between Pyrimidine and Hydrogen Bonded Networks

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