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植物根部的生长,吸收水份,分出枝条,有时甚至悄悄地坏死,这一切都因在地面下进行而无法观察。现在,科学家们利用一种不干扰植物生长的方法,即 相似文献
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研究了从Sm^3^+到Lu^3^+(Gd^3^+除外)九个稀土单酞菁化合物的^1H NMR化学位移.发现对重稀土化合物,酞菁环上α、β质子诱导位移符号的变化呈现"三个一组效应".即,"Tb^3^+、Dy^3^+、Ho^3^+化合物,^1H共振谱线移向高场,而对Er^3^+、Tm^+^3、Yb^3^+化合物,则移向低场.化学位移的最大变化发生在4f^8构型(Tb^3^+)处.所得结果与Bleaney理论一致.测得部分稀土单酞菁化合物的^1^3C NMR谱,讨论了化学位移的变化. 相似文献
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环化聚丁二烯链结构的NMR研究 总被引:5,自引:1,他引:5
用H-HCOSY谱证实环化聚丁二烯的多环序列末端存在三取代双键。解析C-NMR谱表明残存的线形分子中仍然含有丁二烯的反1,4和1,2-单元。利用H-HCOSY谱提供的信息对环化聚丁二烯的H-NMR谱峰进行了归属,定义了参数P,Q推导出环化度X和环化率Y的计算公式,讨论了环化度X环化率Y与参数P,Q之间的关系,用上述方法处理了几个环化聚丁二烯的H-NMR谱。 相似文献
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γ-Al2O3为低温型晶体,是尖晶石型结构,n(O)∶n(Al3+)为1∶2,在氧化气氛下升温至950~1000℃时,则向α-Al2O3转变.α-Al2O3中氧原子呈六方密堆积,Al3+离子仅占据氧八面体空隙. 相似文献
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磷酸铝类分子筛是近年来继Y型和ZSM七分子筛之后的第三代合成分子筛材料,其骨架由A10。和P0。四面体均匀交替地组成问.由于带负电行的A10。和带正电荷的PO。四面体数目相等,整个骨架呈电中性,所以这类分子筛本身无离子交换能力和催化活性.当用硅或某些金属离子(如Mg、Fe、Co、Zn等)对磷酸铝分子筛进行同晶取代,就会在骨架上造成电行不平衡,从而使这类分子筛具有一定的离子交换能力和酸性【习.因而对硅或金属离子在磷酸错类分子筛中取代机理的研究一直是人们感兴趣的问题问.Vpl-5是最近才合成出来的具有18圆环一维孔结构的… 相似文献
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作者在500兆周NMR波谱仪上,实验测定了微克级样品的NMR谱图,并讨论了微量NMR技术的一些主要因素。除了尽量选用高场仪器及保持其操作参数最佳化外,样品的制备技术,如选用高纯度氘化试剂,消除溶剂、样品中微量水分等,也是影响实验成败的重要因素。 相似文献
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Yuhong Li Xin-Ping Wu Cong Liu Meng Wang Benteng Song Guiyun Yu Gang Yang Wenhua Hou Xue-Qing Gong Luming Peng 《物理化学学报》2020,36(4):1905021-0
Partially reduced TiO2 nanomaterials have attracted significant interest because of their visible-light activity for catalysis and photodegradation. Herein, we prepared a partially reduced anatase TiO2 (Re-A-TiO2) nanoparticle material using a fast combustion method, demonstrating good activity toward decomposing methyl orange under visible light irradiation. The surface structure of the prepared material, after being surface-selectively 17O-labeled with H217O (17O-enriched water), was studied via 17O and 1H solid-state magic angle spinning nuclear magnetic resonance (MAS NMR) spectroscopy and electron paramagnetic resonance (EPR) spectroscopy, and the obtained results were compared to those of non-reduced anatase TiO2 (A-TiO2). The EPR results showed that the concentrations of paramagnetic species (i.e., oxygen vacancies (OV) and Ti3+) in Re-A-TiO2 were much higher than that in A-TiO2, while the former was associated with a higher OV/Ti3+ ratio. The intensities of the EPR signals were significantly affected by the adsorbed water, and this phenomenon was explored in combination with 1H NMR spectroscopy. The 1H species on Re-A-TiO2 appeared at larger chemical shifts, denoting the increased acidity of the sample, and these 1H species on Re-A-TiO2 were more difficult to remove than those on A-TiO2. On the other hand, different features were observed for the signals arising from the two-coordinated oxygen atoms (μ2-O) in 17O NMR, suggesting a typical anatase TiO2(101) surface on A-TiO2, but a more complex surface environment for Re-A-TiO2. Furthermore, a larger amount of hydroxyl groups (OH) were observed on Re-A-TiO2 compared to that on A-TiO2, indicating a larger proportion of exposed (001) facets on Re-A-TiO2. However, the μ2-O signals broadened and became similar when the drying temperature was increased to 100 ℃, indicating a non-faceted anatase TiO2 surface in such conditions. Based on the EPR and NMR results, a significant fraction of the OH species is believed to be formed from the reaction of the paramagnetic centers and adsorbed water molecules. The 1H→17O cross polarization (CP) MAS and two-dimensional heteronuclear correlation (2D HETCOR) NMR spectra were used to verify the spatial proximity of the hydrogen and oxygen species, confirming the spectral assignments of a strongly adsorbed water and one type of surface OH species. In particular, the 1H NMR signals at approximately 11 ppm were ascribed to the hydrogen species in the intramolecular hydrogen bond. In summary, this study investigated the paramagnetic species and surface structure of anatase TiO2 materials by combining EPR along with 1H and 17O solid-state NMR spectroscopy. The differences in the surface structures of Re-A-TiO2 and A-TiO2 should be closely related to their different properties toward the photodegradation of methyl orange. 相似文献
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报道了由次氮基三乙酸和偏钒酸铵等原料合成氧钒配合物及一些中间产物的~1H、~(13)C、~(51)VNMR实验结果,简单讨论了谱线归属及影响~(51)VNMR化学位移和线宽的一些因素。 相似文献
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化合物Na3Zr2Si2PO12。是由ZrO6八面体与SiO4或PO4四面体共角构成的开放三维骨架结构,Na 位于骨架间隙,称之为NASICON(NaSuperIoaicConductor),具有和Na-Al2O3相似的离子电导率(在300℃时,σ=0.2Ω-1·cm-1[1]但是由于该化合物在100-2000℃间存在单斜一、立方的可逆相变,使其应用受到限制.为了抑制这种相变,已进行了骨架掺杂的研究工作,制备出了多种化学掺杂的NASICON系统[2].在Na3Zr2Si2PO12化合物中,三个Na十分别位于结构中两个不同的位置,然而掺杂以后,骨架结构发生变化,这时Na十位置,将关系… 相似文献
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采用动态NMR方法,对从海南黄檀中分得的8-C-glucosyl-prunetin及其它7位 上羟基烷基化了的8-C苷异黄酮的构象进行了研究。结果表明,在8-C苷异黄酮中 ,当7位上羟基烷基化了时,由于1"-C(sp~3)-8C(sp~2)单键旋转受阻,产生两种构 象异构体。同时,借助分子力场(MM)计算方法,确定了8-C-glucosyl-prunetin 两种构象异构栓中的优势构象,即为1"-H与7-OCH_3位于同侧。由低能量构象转化 为高能量构象所需活化能为75.66 kJ/mol。这一结果与动态NMR实验计算的71. 48kJ/mol活化自由能数值相符。 相似文献
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用 2DNMR(HMQC)技术归属了溶液中尼龙 11分子的主要1H和13 C NMR共振信号 ,并通过变温和变浓度 1H NMR弛豫时间的测定 ,得到了尼龙 11溶液中氢键结构变化的动力学信息 .结果表明 ,溶液中尼龙 11分子的弛豫行为与一般高聚物不同 ,随着温度升高 ,尼龙链间相互作用逐渐减弱 ,尼龙分子与溶剂小分子间相互作用逐渐增强 ,尼龙链间氢键逐渐离解 ,而离解出来的自由NH和CO基团又与溶剂小分子间生成氢键 .尼龙 11链卷曲堆积成无规线团状 ,一部分溶剂被包裹在内部并和α CO质子成为一个整体而一起运动 .变浓度实验弛豫过程呈现双指数特性 ,快弛豫部分随体系浓度增加而增多 ,表明聚合物溶液中凝聚缠结含量的增大 ,这种凝聚缠结是由溶液中氢键引起分子链物理交联成网而形成的 .随着浓度增加 ,溶液逐渐变成局部粘度较大的类似软固体 相似文献
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报道了通式为Y_nSnBu_(4-n)的含呋喃基、噻吩基、N-甲基吡咯基、吡啶基的丁基锡(Ⅳ)的~(13)C、~(119)SnNMR谱。基于化学位移及偶合常数讨论了丁基及各杂环基与锡的键合性质,丁基~(13)C谱显示,锡对丁基的影响是电正性取代诱导效应。~(119)Sn谱及杂环基~(13)C谱表明,杂环与锡存在pπ-dπ相互作用。~(13)C,~(119)Sn化学位移值随杂环取代数目呈线性变化,随着杂环基的增加,呋喃或噻吩的两个α-碳峰互相接近,而两个β-碳峰则逐渐分离,~(119)Sn峰则大幅度移向高场。 相似文献