> If you were to decide on what the impurity of the isopropyl alcohol raw material is, what would be your choice and why? See table 1 for the summarized absorptions. > What could be causing the impurity peak in the raw isopropyl alcohol used in the formulation of 70% alcohol during the pandemic response? Refer to the first pic.

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2933.96 IPROH raw material 3337.58 2971.05 1467.35 614.81 1379.31 1341.07 307.70 1327.97 1380.27 1161.03 816.98 1128 60 1035,19 95135 ELOH AR 2884.86 2974.18 3338.15 614 74 1088.20 880.11 IPFOH AR 3337.06 2932.96 1046 23 1467.34 2970.80 1379.03 1340.85 1307.92 622 32 1160.70 1128 SR. 816 83 tBuOH AR 951 19 %T 3361.33 1472.37 1239 12 1022 88 2972.15 1380.81 1364 33 749 00 62392 IPA raw + 5% DMSO 119694 911.58 3339 24 1467.28 1034.49 1161.00 1129 .001022 83 2970.97 630 94 1379.12 1341.07 1306.42 816.95 2-BUOH AR 951 25 3342.86 1326.28 2929 39 2966.43 2879 56 1457.13 1374 63 147.70 110791 967 66 819 88 776 55 MEOH AR 1030 S8 990 27 911.67 629 60 613 37 2943.84 2831.96 1449.46 1114.13 3314.58 617.48 1022 83 4000.0 3000 2000 1500 1000 600.0 cm-1

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Table 1. Wavenumber (cm-1) of prominent absorptions of aliphatic alcohols, liquid, neat, using ZnSe, ATR (4 cm-1 resolution) Меон (AR) ELOH (AR) PrOH (AR) PrOH (raw) 2-BUOH (AR) (BUOH (AR) 3314.58 3338.15 3337.06 3337.58 3342.86 3361.33 2943.84 2974.18 2970.80 2971.05 2966.43 2972.15 2932.96 2933.96 2929.39 2831.96 2884.86 2879.56 1449.46 1467.34 1467.35 1457.13 1472.37 1380.27 1379.03 1379.31 1374.63 1380.81 1327.97 1340.85 1341.07 1326.28 1364.33 1307.92 1307.70 -1307* 1239.32 s br 1196.94 br 1160.70 1161.03 1147.70 1114.13 1128.58 1128.60 -1128 sh -1107* ~1107* 1107.91 1088.20 m 1046.23 s 1035.19 m 1030.58 1022.83 s br 1022.88 990.27 967.66 s 951.19 s 951.35 s 951.25 911.67 s 911.58 s 880.11 816.83 816.98 819.88 776.55 749.00 629.60 623.92 617.48 614.74 622.32 614.81 613.37 Notes: * unlabeled in the spectra, s = strong, m = medium, sh = shoulder, br = broad