SYNTHESIS AND STRUCTURE OF THE MAGNESIUM 1 HYDROXYETHYLIDENEDIPHOSPHONATEGERMANATE(IV), ITS INFLUENCE ON THE GROWTH AND DEVELOPMENT OF WINTER WHEAT

Odesa National University Herald. Chemistry Pub Date : 2019-03-04 DOI:10.18524/2304-0947.2019.1(69).158415

I. Seifullina, А. Pesaroglo, E. Martsinko, E. Chebanenko, A. P. Pozharitskiy

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引用次数: 1

Abstract

of Germanium (IV) and with ethylidenediphosphonic acid (H hedp) [Mg(H 6 3 ( m ( m 2 ( ) synthesized. Its composition and structure was established with the methods of analysis and IR-spectroscopy, thermal stability was also described. The synthesized complex is crystallohydrate, this is confirmed with the band n (Н 2 О) in the IR-spectrum at 3433 cm -1 and clear band d (Н 2 О)=1661 сm -1 of the coordinated water molecules. In the IR-spectra of I there are presented stretching vibration band of the bond Ge-O (589 сm -1 ) and deformation vibration band of Ge-О-Н (821 см -1 ), which means that Ge is in the hydrolyzed form. Hydroxyl group is a bridging ligand, this is confirmed with presence of the deformation vibration bands at 1010 сm -1 . There also appear absorption bands at 1197, 1058 and 980 сm -1 , which are typical for n as (PO 3 ) and n s (PO 3 ). This shows that only completely deprotonated phosphoric groups PO 32- are presented in the compound I . On the thermogram I two low-temperature effects are presented at 70-110 °С and 110-170 °С. According to the temperature of elimination, 20 water molecules in the calculation for one formula unit are crystallization and 18 – are coordination. It was established, that application of this compound for the secondary tillage of the seeds of winter wheat promotes the increasing of its effective germination (75%), intensive increasing of the overland mass of the plant (17 cm) and primary root system (7.5 cm). These rates are much higher comparatively to the control and etalon – complex fertilizer Novalon. The application of new compound increases chances to obtain friendly and well-developed seedlings of wheat, that are able to ensure the frost resistance and receiving of high harvest. The obtained results indicate the perspective of future studies of the synthesized compound on the different plants with the aim of its implementation it in the planting practice as an effective simulator of growth.

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1羟乙基二膦酸镁的合成与结构(iv)及其对冬小麦生长发育的影响

锗(IV)与乙基二膦酸(H hedp) [Mg(h6.3 (m (m2))]合成。用红外光谱和分析方法确定了其组成和结构，并对其热稳定性进行了描述。合成的配合物为晶体水合物，在3433 cm -1处的红外光谱带n (Н 2 О)和配位水分子的清晰带d (Н 2 О)=1661 m -1处证实了这一点。在I的红外光谱中存在Ge- o键的拉伸振动带(589 сm -1)和Ge-О-Н键的变形振动带(821 сm -1)，说明Ge处于水解态。羟基是一个桥接配体，在1010 m -1处存在变形振动带证实了这一点。在1197、1058和980 μ m -1处也出现了典型的吸收带，这是n as (PO 3)和n s (PO 3)的典型吸收带。这表明在化合物I中只存在完全去质子化的磷酸基团PO 32-。在热图1上，出现了70-110°С和110-170°С两种低温效应。根据消热温度计算，1个分子式单元中有20个水分子为结晶，18个水分子为配位。结果表明，在冬小麦种子二次耕作中施用该化合物可提高种子的有效发芽率(75%)，提高植株的地上质量(17 cm)和初生根系(7.5 cm)。这些速率比对照和等龙复合肥料诺瓦隆要高得多。新化合物的施用增加了获得友好和发育良好的小麦幼苗的机会，从而能够确保抗冻和获得高产。研究结果表明，合成的化合物在不同植物上的研究前景广阔，其目的是将其作为一种有效的生长模拟器应用于种植实践。

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Odesa National University Herald. Chemistry

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