1)  Li…H2O
Li…H2O
2)  Li
Li
1.
EAM CALCULATION OF FORMATION ENTHALPIES OF Al,Li AND Mg(Ti) INTERMETALLIC COMPOUNDS;
Al-Li-Mg(Ti)合金形成焓的EAM研究
2.
Preparation of Eu,Li Co-doped ZnO Red Fluorescence Nanofibers by Electrospinning and Their Characterization;
电纺丝法制备纳米级Eu,Li共掺ZnO荧光材料
3.
Preparation of Nanometer Material ZnO:Eu,Li with Red Fluorescence by the Sol-Gel Method;
溶胶-凝胶法制备纳米级ZnO:Eu,Li红色荧光材料
3)  Li~+
Li+
1.
SrZnO_2∶Eu~(3+),Li~++ phosphor powder by long wavelength UV excitation was synthesized by conventional solid-state reaction method.
采用高温固相法合成了一种长波紫外激发的SrZnO2∶Eu3+,Li+发光材料,用X射线衍射谱、荧光光谱对样品进行了表征。
4)  Li+
Li+
1.
The crystal structures of α,β,γ and δ-MnO2 and their adsorption behaviors of Li++ were studied.
研究了α、β、γ和δ-MnO2的晶体结构以及对Li+的吸附行为。
2.
The Sr3B2O6∶Tb3+,Li++ green phosphor was synthesized by the general high temperature solid-state reaction and its luminescence properties were investigated.
用高温固相法合成了Sr3B2O6∶Tb3+,Li+绿色荧光粉,并研究粉体的发光性质。
5)  Li +
Li+
1.
The results show that the optimum position of Li ++ ions intercalated into V 2O 5 layers is underneath (or above) the double-bond oxygen atoms and close to the central position.
结果表明 ,Li+引入V2 O5 层间的最佳位置是在双键氧之下 (或之上 ) ,且靠近层的中心位置 ,此时它与周围原子间的作用力非常微弱 ,并且材料的导电性增强 ,使夹层复合材料Li+注入 /脱出具有很好的可逆性和较好的光学性
6)  Li~+
Li~+
1.
Enhanced Photoluminescense of Gd_2O_3:Sm~(3+) Nanocrystals by Li~++ Doping;
Li~+离子掺杂Gd_2O_3:Sm~(3+)纳米晶的发光增强
2.
Determination of Cations(Li~++,Na~+,K~+) in Water and Geological Samples by Low Pressure Ion Chromatography;
低压离子色谱法测定水样和地质样品中的Li~+、Na~+、K~+离子
参考词条
补充资料:(一) (Sanguisorba officinalis L.)蔷薇科植物。(二)Radix Sanguisorbae 地榆或长叶地榆[S. officinalis L. var. longifolia (Bert.) yüet Li]的干燥根
分子式:
CAS号:

性质:苦、酸、涩,微寒。主要含地榆糖苷I、地榆糖苷Ⅱ、白桦脂酸、山香醇酸糖苷R1、没食子酸、没食子酰葡萄糖、地榆皂素等。具有凉血止血,解毒敛疮,增强烧、烫伤及伤口的愈合,抗病原微生物,抗炎,增强免疫功能,止泻,抗溃疡,保肝,镇吐,抑制中枢神经系统,抗氧化等作用。用于便血,痔血,血痢,崩漏,水火烫伤,痈肿疮毒等症。配伍:与无加配伍可“填精补髓,延年益寿”。毒副作用:四肢无力,呼吸困难,抽搐。

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