«Atom» software for atomic spectral analysis

Garanin, V. G.; Неклюдов, О. А.; Петроченко, Д. В.; Семёнов, З. В.; Панкратов, С. В.; Ващенко, П. В.

doi:10.26896/1028-6861-2019-85-1-ii-103-111

Cited by 8 publications

(2 citation statements)

References 2 publications

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“…Исследование элементного состава образцов сырья и почвы проводили после озоления в муфельной печи при температуре 500 °С. Аналитические исследования химических элементов выполняли с помощью метода дуговой атомно-эмиссионной спектроскопии с многоканальным анализатором эмиссионных спектров (ДАЭС с МАЭС) на спектрометре «Гранд» (НПО «Оптоэлектроника», Россия) [9][10][11][12] на кафедре аналитической химии в лаборатории мониторинга окружающей среды (ЛМОС) аккредитованного испытательного центра «Томского регионального центра коллективного пользования» (ТРЦКП) (аттестат аккредитации RA.RU.21BO08 от 16.11.2017) Федерального государственного автономного образовательного учреждения высшего образования «Национальный исследовательский Томский государственный университет».…”

Section: экспериментальная частьunclassified

Features of Elements Accumulation in Fruit and Berry Plants Cultivated in the Vicinity of Zelenogorsk City, Krasnoyarsk Region

Obukhova,

Otmakhov,

Shilova

et al. 2023

JCPRM

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The aim of the study is to identify the peculiarities of the elemental composition of berries (fruits) and leaves of raspberry (Rubus idaeus L.), rowan (Sorbus aucuparia L.), black currant (Ribes nigrum L.), sour cherry (Cerasus vulgaris L.), serviceberry (Amelanchier ovalis Medik.) collected in the vicinity of Zelenogorsk, Krasnoyarsk Region, with an assessment of their potential use as sources of elements, ecological safety of use, as well as patterns of distribution of elements between plants, soil, and the surrounding environment. The elemental composition was analyzed using the method of arc atomic emission spectroscopy with a multi-channel analyzer of emission spectra (DAES with MAES) after ashing. As a result, the presence of 30 elements was determined in the ash of the studied plants, 25 of which belong to trace elements, and 22 are (conditionally) essential. The belongingness of the minimum extremes of content to mostly odd ordinal numbers of elements in the Mendeleev table was established, while the maximum extremes belonged to even ones. It is proposed to represent the revealed regularities in the form of combinations of extrema with the corresponding serial numbers of atoms, which clearly indicates the plant's ability to concentrate certain chemical elements. Based on the degree of accumulation from the soil, which indicates the ability of plants to accumulate elements, the highest indicator for all studied species and their raw materials is K, for all raspberry and blackcurrant raw materials – Ca, for cherry and raspberry leaves with berries (fruits) and separately for cherry fruits – Mg, only for blackcurrant leaves with berries (fruits) – Ti, for blackcurrant leaves with berries (fruits) – Sr and Ag. The study identified only Ti and Ag as having a "strong accumulation" in the biological absorption of elements, while the others were common for vegetation. Raspberry was found to have the highest biogeochemical activity among the studied fruit and berry plants (regardless of the raw material), followed by blackcurrant. It is shown that the raw materials "leaves + berries (fruits)" in all the studied cases contain much more trace elements, in contrast to individual berries (fruits). The study demonstrated the potential use of these plant species as sources of macroelements and trace elements, including essential ones.

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Section: экспериментальная частьunclassified

Features of Elements Accumulation in Fruit and Berry Plants Cultivated in the Vicinity of Zelenogorsk City, Krasnoyarsk Region

Obukhova,

Otmakhov,

Shilova

et al. 2023

JCPRM

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“…Â íàñòîÿùåå âðåìÿ â àíàëèòè÷åñêèõ ëàáîðàòîðèÿõ Ðîññèè è ñòðàí ÑÍÃ øèðîêî èñïîëüçóþò ñïåêòðàëüíûå êîìïëåêñû äëÿ àòîìíî-ýìèññèîííîãî àíàëèçà ñ ìíîãîêàíàëüíûìè àíàëèçàòîðàìè ýìèññèîííûõ ñïåêòðîâ (ÌÀÝÑ) [1 -3]. Ýòè êîìïëåêñû ðàáîòàþò ïîä óïðàâëåíèåì ïðîãðàììíîãî îáåñïå÷åíèÿ (ÏÎ) «Àòîì» [4], êîòîðîå âõîäèò â ñîñòàâ àíàëèçàòîðîâ ÌÀÝÑ. Ðàçâèòèå ìåòîäà ñöèíòèëëÿöèîííîé àòîìíî-ýìèññèîííîé ñïåêòðîìåòðèè (ÑÀÝÑ) [5 -7] è îïðåäåëåíèÿ íåìåòàëëè-÷åñêèõ âêëþ÷åíèé â ìåòàëëè÷åñêèõ cïëàâàõ ìå-òîäîì àòîìíî-ýìèññèîííîé ñïåêòðîìåòðèè ñ èñêðîâûì âîçáóaeäåíèåì [8] ïîòðåáîâàëî ñîçäàíèÿ íîâûõ áûñòðîäåéñòâóþùèõ è âûñîêî÷óâñòâèòåëüíûõ ôîòîäåòåêòîðîâ [9,10] è ñîîòâåòñòâóþùèõ èíñòðóìåíòîâ â ÏÎ «Àòîì» äëÿ ðàáîòû ñ âðåìåííûìè ïîñëåäîâàòåëüíîñòÿìè èç äåñÿòêîâ òûñÿ÷ ñïåêòðîâ.…”

Section: ââåäåíèåunclassified

«Atom» software for atomic spectral analysis

Garanin

Neklyudov

Петроченко

et al. 2022

Zavod. lab., Diagn. mater.

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Ïðåäñòàâëåíû âîçìîaeíîñòè ïðîãðàììíîãî îáåñïå÷åíèÿ «Àòîì», âõîäÿùåãî â ñîñòàâ ñïåêòðàëüíîãî àíàëèòè÷åñêîãî îáîðóäîâàíèÿ ïðîèçâîäñòâà êîìïàíèè «ÂÌÊ-Îïòîýëåêòðîíèêà». Ïîêàçàíû âàðèàíòû èçìåðåíèÿ èíòåíñèâíîñòè ëèíèé â ñïåêòðàõ, ïîëó÷åííûõ ñ èñïîëüçîâàíèåì ðàçëè÷íûõ èñòî÷íèêîâ âîçáóaeäåíèÿ -ÈÑÏ, ìèêðîâîëíîâàÿ ïëàçìà, äóãîâîé è èñêðîâîé ðàçðÿä â âîçäóøíîé èëè àðãîíîâîé ñðåäå è äð. Îïèñàíû ïðîöåäóðû, îáåñïå÷èâàþùèå ïðîñëåaeèâàåìîñòü ðåçóëüòàòîâ èçìåðåíèé. Êðàòêî îïèñàíû ýòàïû âû÷èñëåíèé -îò èíòåíñèâíîñòè ñïåêòðàëüíîé ëèíèè äî ñîäåðaeàíèÿ ýëåìåíòà â ïðîáå, à òàêaeå ðàñ÷åò ñòàòè-ñòè÷åñêèõ ïîêàçàòåëåé è ìåòðîëîãè÷åñêèé êîíòðîëü ìåòîäèêè èçìåðåíèÿ ñîãëàñíî ÃÎÑÒ Ð ÈÑÎ 5725. Ðàçâèòûå ñðåäñòâà ýêñïîðòà äàííûõ íå òîëüêî ïîçâîëÿþò îðãàíèçîâàòü ïåðåäà-÷ó ðåçóëüòàòîâ âî âíåøíèå èíôîðìàöèîííûå ñèñòåìû, íî è ðàñøèðÿþò ôóíêöèîíàëüíûå âîçìîaeíîñòè ïðîãðàììû, îïèðàÿñü íà âçàèìîäåéñòâèå ñ äðóãèìè ïðèëîaeåíèÿìè. Â ïðîãðàììíîì îáåñïå÷åíèè «Àòîì» ïðåäñòàâëåíî íåñêîëüêî ìåòîäîâ ñïåêòðàëüíîãî àíàëèçà, â òîì ÷èñëå ñ âðåìåííûì ðàçðåøåíèåì (ñöèíòèëëÿöèÿ, àáñîðáöèÿ, àíàëèç íåìåòàëëè÷åñêèõ âêëþ÷åíèé). Â âèäå îòäåëüíûõ äîïîëíèòåëüíûõ èíñòðóìåíòîâ ïðåäëîaeåíû ìåòîäèêè êà-÷åñòâåííîãî è ïîëóêîëè÷åñòâåííîãî àíàëèçà. Êîìïëåêò ïîñòàâêè ïðîãðàììíîãî ïàêåòà «Àòîì» ñîäåðaeèò âñïîìîãàòåëüíûå èíôîðìàöèîííûå ñèñòåìû: áàçó äàííûõ ñïåêòðàëüíûõ ëèíèé, ìàðî÷íèê ñïëàâîâ, êàòàëîã ñòàíäàðòíûõ îáðàçöîâ ñ àòòåñòîâàííûìè ñîäåðaeàíèÿìè ýëåìåíòîâ, à òàêaeå áàçó äàííûõ íîðìàòèâíûõ çíà÷åíèé ìåòðîëîãè÷åñêèõ õàðàêòåðèñòèê ìåòîäîâ èçìåðåíèÿ. Îòëè÷èòåëüíîé îñîáåííîñòüþ ïðîãðàììíîãî îáåñïå÷åíèÿ «Àòîì» ÿâëÿåòñÿ ïðîäóìàííûé èíòåðôåéñ ïîëüçîâàòåëÿ, ïîçâîëÿþùèé ñ âûñîêîé ïðîèçâîäèòåëüíîñòüþ ðàáîòàòü ñ ëþáûì ñïåêòðîàíàëèòè÷åñêèì îáîðóäîâàíèåì. Ñîâðåìåííàÿ ìîäóëüíàÿ àðõèòåêòóðà ïðîãðàììû ïîçâîëÿåò ýôôåêòèâíî óïðàâëÿòü ñëîaeíîñòüþ ïðîåêòà è âåñòè íåçàâèñèìóþ ðàçðàáîòêó îòäåëüíûõ êîìïîíåíò ñ èñïîëüçîâàíèåì ïîäõîäÿùèõ èíñòðóìåíòîâ.Êëþ÷åâûå ñëîâà: àòîìíî-ýìèññèîííàÿ ñïåêòðîìåòðèÿ; àòîìíî-àáñîðáöèîííàÿ ñïåêòðîìåòðèÿ; ñïåêòðîìåòð; àíàëèçàòîð ñïåêòðîâ ÌÀÝÑ; ëèíåéêà ôîòîäåòåêòîðîâ; îäíîâðåìåííîå îïðåäåëåíèå ýëåìåíòîâ.

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Modified approximate quantitative spectral analysis of rocks

Balandina

Zakharova

2022

Zavod. lab., Diagn. mater.

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Â Öåíòðàëüíîé ëàáîðàòîðèè ÂÑÅÃÅÈ òðàäèöèîííî èñïîëüçîâàëè äâà îñíîâíûõ âàðèàíòà ìåòîäà ïðèáëèaeåííî-êîëè÷åñòâåííîãî àòîìíî-ýìèññèîííîãî ñïåêòðàëüíîãî àíàëèçà (ÏÊÝÑÀ): èñïàðåíèå ïðîá èç êàíàëà óãîëüíûõ ýëåêòðîäîâ è áîëåå ïðîèçâîäèòåëüíûé ñïîñîá «ïðîñûïêè». Ñðàâíèâàÿ îáà ñïîñîáà ââåäåíèÿ ïðîá â äóãîâîé ðàçðÿä, íóaeíî ó÷èòûâàòü äâà îñíîâíûõ ôàêòîðà: êîëè÷åñòâî ìàòåðèàëà, ïîñòóïàþùåãî â ðàçðÿä, è ïîëíîòó èñïàðåíèÿ õèìè÷åñêèõ ýëåìåíòîâ. Èç êàíàëà óãîëüíîãî ýëåêòðîäà ïðàêòè÷åñêè ïîëíîñòüþ èñïàðÿåòñÿ âñÿ íàâåñêà ìàññîé îêîëî 40 ìã. Ïóòåì ïðîñûïêè-âäóâàíèÿ äîñòàòî÷íî áîëüøàÿ ïîðöèÿ ïîðîøêîâîé ïðîáû (400 -500 ìã) ðàâíîìåðíî ïîñòóïàåò â äóãîâîé ðàçðÿä. Ïåðâûé ñïîñîá àíàëèçà ïîäõîäèò äëÿ îïðåäåëåíèÿ êàê ëåãêî-, òàê è òðóäíîëåòó÷èõ ýëåìåíòîâ, à âòîðîé ñïîñîá ñîçäàåò ñòàáèëüíûå óñëîâèÿ èñïàðåíèÿ è âîçáóaeäåíèÿ â òå÷åíèå ïîñòóïëåíèÿ ïðîáû â ðàçðÿä. Ïî ñðàâíåíèþ ñ èñïàðåíèåì èç êàíàëà ýëåêòðîäà ñïîñîá ïðîñûïêè-âäóâàíèÿ áîëåå ÷óâñòâèòåëåí ê èçìåíåíèþ âàëîâîãî ñîñòàâà ïðîá è ñòåïåíè äèñïåðñíîñòè ìàòåðèàëà. Ýòî -îñíîâíûå ôàêòîðû, âëèÿþùèå íà âåëè÷èíó ñèñòåìàòè÷åñêîé ïîãðåøíîñòè ïðè îïðåäåëåíèè òðóäíîëåòó÷èõ ýëåìåíòîâ. Â ñïåêòðàëüíîé ëàáîðàòîðèè ñèñòå-ìàòè÷åñêè ïðîâîäÿò àíàëèç îøèáîê, ñîñòàâëÿþùèõ ñóììàðíóþ ïîãðåøíîñòü ÏÊÝÑÀ. Ñðàâíåíèå ðåçóëüòàòîâ àíàëèçà îäíèõ è òåõ aeå îáðàçöîâ (ÃÑÎ è ïðîá) ñ ðåçóëüòàòàìè õè-ìè÷åñêèõ ìåòîäîâ â òå÷åíèå íåñêîëüêèõ ëåò ïîêàçàëî, ÷òî ìàêñèìàëüíûé âêëàä â ñóììàðíóþ ïîãðåøíîñòü âíîñèëè âèçóàëüíàÿ îöåíêà ñîäåðaeàíèé è âèçóàëüíàÿ èíòåðïîëÿöèÿ, à òàêaeå ðàñõîaeäåíèå ðåçóëüòàòîâ èíòåðïðåòàöèè ÷åðåç äëèòåëüíîå âðåìÿ è äð. Ïðèìåíåíèå àíàëèçàòîðà ÌÀÝÑ è øèðîêèå âîçìîaeíîñòè ïðîãðàììíîãî ïàêåòà «Àòîì» ïîçâîëèëè ñíèçèòü ïîãðåøíîñòü ðåçóëüòàòîâ àíàëèçà áëàãîäàðÿ êîððåêòíîìó ó÷åòó ôîíà ñ âîçìîaeíîñòüþ èíäèâèäóàëüíûõ íàñòðîåê, ïðèìåíåíèþ êîýôôèöèåíòîâ, ó÷èòûâàþùèõ ñïåêòðàëüíûå íàëîaeåíèÿ, à òàêaeå âîçìîaeíîñòè ïðîâîäèòü àíàëèç ïî íåñêîëüêèì àíàëèòè÷åñêèì ëèíèÿì. Ýòî ïîçâîëèëî ïðèìåíÿòü «ïîñòîÿííûå» ãðàäóèðîâî÷íûå õàðàêòåðèñòèêè äëÿ àíàëèçà ïîðîä ðàçíîîáðàçíîãî ñîñòàâà.Êëþ÷åâûå ñëîâà: àòîìíî-ýìèññèîííûé ñïåêòðàëüíûé àíàëèç; ãåîõèìèÿ; àíàëèç ïðèðîäíûõ îáúåêòîâ; ìíîãîêàíàëüíûé àíàëèçàòîð ýìèññèîííûõ ñïåêòðîâ ÌÀÝÑ; ïîãðåøíîñòü àíàëèçà.

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«Atom» software for atomic spectral analysis

Cited by 8 publications

References 2 publications

Features of Elements Accumulation in Fruit and Berry Plants Cultivated in the Vicinity of Zelenogorsk City, Krasnoyarsk Region

Features of Elements Accumulation in Fruit and Berry Plants Cultivated in the Vicinity of Zelenogorsk City, Krasnoyarsk Region

«Atom» software for atomic spectral analysis

Modified approximate quantitative spectral analysis of rocks

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