Optimization of the TS-FF-AAS SystemWhen considering the TS-FF-AAS opt terjemahan - Optimization of the TS-FF-AAS SystemWhen considering the TS-FF-AAS opt Bahasa Indonesia Bagaimana mengatakan

Optimization of the TS-FF-AAS Syste

Optimization of the TS-FF-AAS System

When considering the TS-FF-AAS optimization conditions,
several parameters were observed. Table 4 shows the most
remarkable results. It was observed that for the slope
parameter, the use of the Ni tube and a higher sample
volume (100 μL) resulted in the highest values (a more
sensitive method). Similarly, the lowest LOD and LOQ
were obtained using HNO3. Considering the blank RSD,
the use of the Ni tube and a higher flow rate (0.6 mL/min)volume was not tested in the following experiments in
order to avoid a decrease in the sample frequency. The
results’ evaluation showed that a high flow rate allows
better results; however, during extended-time experiments
(approximately 60 min) using real samples, it was observed
that the highest flow rate generates a cooling effect in the
ceramic capillary tip, decreasing the efficiency of the
thermospray formation. Thus, 200 μL sample volume,
99% Ni tube, 0.5 mL/min flow rate, and 0.01% v/v HNO3
as the carrier were the final experimental conditions.
resulted in lower values. When ratios 1 and 2 were
observed, more suitable results were obtained using a
higher sample volume and Ni tube. Figure 3 shows the contrasts
calculated when the slope parameter was observed.
By comparing Table 4 and Fig. 3, it was concluded that the
best TS-FF-AAS conditions were achieved by using a
higher sample volume and the Ni tube. A higher sample
0/5000
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Optimization of the TS-FF-AAS SystemWhen considering the TS-FF-AAS optimization conditions,several parameters were observed. Table 4 shows the mostremarkable results. It was observed that for the slopeparameter, the use of the Ni tube and a higher samplevolume (100 μL) resulted in the highest values (a moresensitive method). Similarly, the lowest LOD and LOQwere obtained using HNO3. Considering the blank RSD,the use of the Ni tube and a higher flow rate (0.6 mL/min)volume was not tested in the following experiments inorder to avoid a decrease in the sample frequency. Theresults’ evaluation showed that a high flow rate allowsbetter results; however, during extended-time experiments(approximately 60 min) using real samples, it was observedthat the highest flow rate generates a cooling effect in theceramic capillary tip, decreasing the efficiency of thethermospray formation. Thus, 200 μL sample volume,99% Ni tube, 0.5 mL/min flow rate, and 0.01% v/v HNO3as the carrier were the final experimental conditions.resulted in lower values. When ratios 1 and 2 wereobserved, more suitable results were obtained using ahigher sample volume and Ni tube. Figure 3 shows the contrastscalculated when the slope parameter was observed.By comparing Table 4 and Fig. 3, it was concluded that thebest TS-FF-AAS conditions were achieved by using ahigher sample volume and the Ni tube. A higher sample
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Hasil (Bahasa Indonesia) 2:[Salinan]
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Optimasi Sistem TS-FF-AAS

Ketika mempertimbangkan kondisi optimasi TS-FF-AAS,
beberapa parameter yang diamati. Tabel 4 menunjukkan paling
hasil yang luar biasa. Diamati bahwa untuk kemiringan
parameter, penggunaan tabung Ni dan sampel yang lebih tinggi
volume (100 uL) mengakibatkan nilai tertinggi (lebih
metode sensitif). Demikian pula, LOD terendah dan LOQ
diperoleh dengan menggunakan HNO3. Mengingat RSD kosong,
penggunaan tabung Ni dan laju aliran yang lebih tinggi (0,6 mL / menit) Volume tidak diuji dalam percobaan berikut
untuk menghindari penurunan frekuensi sampel. The
evaluasi hasil 'menunjukkan bahwa tingkat aliran tinggi memungkinkan
hasil yang lebih baik; Namun, selama percobaan diperpanjang waktu
(sekitar 60 menit) dengan menggunakan sampel nyata, diamati
bahwa laju aliran tertinggi menghasilkan efek pendinginan di
ujung kapiler keramik, penurunan efisiensi
pembentukan thermospray. Dengan demikian, 200 Volume uL sampel,
99% Ni tabung, 0,5 laju alir mL / menit, dan 0,01% v / v HNO3
sebagai pembawa yang kondisi eksperimental akhir.
Mengakibatkan nilai-nilai yang lebih rendah. Ketika rasio 1 dan 2 yang
diamati, hasil lebih cocok diperoleh menggunakan
volume sampel yang lebih tinggi dan tabung Ni. Gambar 3 menunjukkan kontras
dihitung ketika parameter kemiringan diamati.
Dengan membandingkan Tabel 4 dan Gambar. 3, disimpulkan bahwa
kondisi terbaik TS-FF-AAS dicapai dengan menggunakan
volume sampel yang lebih tinggi dan tabung Ni. Contoh yang lebih tinggi
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