SINTESIS KEMOSENSOR ION CN- BERBASIS TURUNAN PIRAZOLIN DENGAN LOGAM Cu

Q3 Environmental Science

Ekologia Bratislava Pub Date : 2022-02-24 DOI:10.33751/ekologia.v21i2.4208

Yuliana Syahputri, Diah Purwati, S. Sutanto, A. Taufiq

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引用次数: 0

Abstract

One of the toxic anions such as cyanide (CN-) has a negative impact on living things. Pyrazoline derivatives can be complexed with transition metals and used as CN- ion fluorosensor, because pyrazoline derivatives have fluorescence properties. This study aims to synthesize of CN- ion chemosensors based on pyrazoline derivative namely para-di-2-(1-phenyl-3-pyridyl-4,5-dihydro-1H-pyrazole-5-yl)benzene with Cu metal. The resulting complex compounds were characterized using Spectrophotometer Infra Red (FTIR), Spectrophotometer UV-Visible, and Spectrofluorometer. Then, a complex compound chemosensor (fluorosensor) study of Cu2+ was carried out with the addition of CN- ions using a spectrofluorometer. The results showed that the synthesis of complex compound Cu2+ was successfully carried out and a brown precipitate was obtained with a yield of 43% with a melting point of 243.3°C. Based on the results of characterization by FTIR (cm-1) generates 3400 (Amine), 2920.88-2852.42 (C-H pyridine), 2360.38 (C=N), 1594.50-1490.39 (C=C aromatic), 1233.67-1021.17 (C-N), 982.66 (Cu-O), 348.00 (Cu-N), and 320-280 (Cu-Cl). The results of the spectroscopy UV-Visible analysis Cu2+ complex compounds at a concentration of 5x10-5 M obtained two absorption peaks, 242 nm and 306 nm. The result of the spectrofluorometer analysis of Cu2+ complex compound were 1516 a.u at a wavelength of 502 nm. The results of the chemosensor (fluorosensor) studies of the Cu2+ complex compound with the addition of CN- ions can be used as a turn on-off type fluorosensor.

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合成离子离子离子传感器CN-基衍生物带铜铜

有毒的阴离子之一，如氰化物(CN-)对生物有负面影响。吡唑啉衍生物具有荧光性质，可与过渡金属络合用作CN离子荧光传感器。本研究旨在以吡唑啉衍生物对二-2-(1-苯基-3-吡啶基-4,5-二氢- 1h -吡唑-5-基)苯为原料，以铜金属为原料合成CN离子化学传感器。用红外分光光度计(FTIR)、紫外可见分光光度计和荧光分光光度计对化合物进行了表征。在此基础上，利用荧光分光光度仪在CN-离子的加入下，对Cu2+进行了复合化学传感器(荧光传感器)研究。结果表明:成功地合成了络合物Cu2+，得到了一种棕褐色析出物，产率为43%，熔点为243.3℃。根据FTIR (cm-1)表征结果，生成3400(胺)、2920.88 ~ 2852.42 (C- h吡啶)、2360.38 (C=N)、1594.50 ~ 1490.39 (C=C芳族)、1233.67 ~ 1021.17 (C-N)、982.66 (Cu-O)、348.00 (Cu-N)和320 ~ 280 (Cu-Cl)。紫外可见光谱分析结果表明，Cu2+配合物在浓度为5x10- 5m时获得了242 nm和306 nm两个吸收峰。Cu2+配合物的荧光光谱分析结果为1516 a.u，波长为502 nm。化学传感器(氟传感器)对加入CN离子的Cu2+配合物的研究结果可作为开关型氟传感器。

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来源期刊

Ekologia Bratislava Environmental Science-Ecology

CiteScore

1.80

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： The Journal Ecology (Bratislava) places the main emphasis on papers dealing with complex characteristics of ecosystems. Treated are not only general, theoretical and methodological but also particular practical problems of landscape preservation and planning. The ecological problems of the biosphere are divided into four topics: ecology of populations: study of plant and animal populations as basic components of ecosystems, ecosystem studies: structure, processes, dynamics and functioning of ecosystems and their mathematical modelling, landscape ecology: theoretical and methodical aspects, complex ecological investigation of territorial entities and ecological optimization of landscape utilization,