Synonyms:
2-(2-hydroxypropoxy)propan-1-ol; Polypropylene glycol; 2-(2-HYDROXYPROPOXY)-1-PROPANOL; Polyoxypropylene; Emkapyl; Lineartop E; Niax ppg; Polyoxypropylene glycol; 106-62-7; Methyloxirane homopolymer; Desmophen 360C; Polyglycol P 400; Poly(propylene oxide); Niax ppg 425; Jeffox PPG 400; Polyglycol P-2000; Polyglycol P-4000; Laprol 2002; Niax ppg 1025; Niax ppg 3025; Polyglycol type P250; Polyglycol type P400; Polyglycol type P750; Voranol P 1010; Napter E 8075; 1-Propanol, 2-(2-hydroxypropoxy)-; Polymer 2; Niax polyol ppg 4025; Polyglycol type P1200; Polyglycol type P2000; Polyglycol type P3000; Propylene oxide homopolymer; 25322-69-4; Pluracol 1010; Pluracol 2010; Pluracol P 410; Propylan 8123; Laprol 702; 2-(2-Hydroxypropoxy)propanol; Caswell No. 680; Glycols, polypropylene; Pluracol P 2010; Voranol P 2000; Voranol P 4000; Alkapal PPG-1200; Alkapal PPG-2000; Alkapal PPG-4000; Actocol 51-530; P 4000 (polymer); Polypropylenglykol [Czech]; alpha-Hydro-omega-hydroxypoly(oxypropylene); Niax 1025; Oopg 1000; UNII-WNY0H4G53Q; Polypropylene glycol #400; Polypropylene glycol #425; Polypropylene glycol #750; Polypropylene glycol 1025; Niax 11-27; PPG-9; Polypropylene glycol #1200; Niax 61-582; Oxirane, methyl-, homopolymer; PPG-12; PPG-15; PPG-17; PPG-20; PPG-26; PPG-30; PPG-34; Propylene oxide, propylene glycol polymer; Polyoxypropylene (9); HSDB 1266; Polyoxypropylene (12); Polyoxypropylene (15); Polyoxypropylene (17); Polyoxypropylene (20); Polyoxypropylene (26); Polyoxypropylene (30); Polyoxypropylene (34); Polypropylene glycol (9); Polypropylene glycol 150; SKF 18667; EPA Pesticide Chemical Code 068602; P.P.G 2025; P.P.G 3025; P.P.G 4025; P.P.G. 150; P.P.G. 400; P.P.G. 425; P.P.G. 750; Polypropylene glycol (12); Polypropylene glycol (15); Polypropylene glycol (17); Polypropylene glycol (20); Polypropylene glycol (26); Polypropylene glycol (30); Polypropylene glycol (34); Polypropylene glycol 2000; Polypropylene glycol 2025; Polypropylene glycol 3025; Polypropylene glycol 4000; Polypropylene glycol 4025; P.P.G. 1000; P.P.G. 1025; P.P.G. 1200; P.P.G. 1800; WNY0H4G53Q; Polypropylene glycol #1000; Polypropylene glycol #1800; alpha-Hydro-omega-hydroxypoly(oxy(methyl-1,2-ethanediyl)); P 400; Polypropylene glycol (m w 1,200-3,000); Poly(oxy(methyl-1,2-ethanediyl)), alpha-hydro-omega-hydroxy-; Polypropylenglykol; Poly(propylene glycol), average M.W. 425; Poly(propylene glycol); Poly(propylene glycol), average M.W. 2.000; Poly(propylene glycol), average M.W. 4.000; UNII-HW7M6WY97M; UNII-I29VQH0G0B; UNII-V86KZL3H2Z; UNII-GK69D49CJ0; UNII-GS1E37J3P8; UNII-H5B6JCZ906; UNII-OV0Q322E0U; UNII-SJG6V595V6; UNII-01SEY4236K; UNII-439253FIWJ; UNII-9UO53X55W2; UNII-L63N6V755Z; UNII-757HA1493R; polypropylene oxide; EINECS 203-416-2; PPG?; ACMC-1CHH9; EC 500-039-8; HW7M6WY97M; I29VQH0G0B; PPG-7; V86KZL3H2Z; SCHEMBL15111; GK69D49CJ0; GS1E37J3P8; H5B6JCZ906; OV0Q322E0U; SJG6V595V6; CHEBI:53262; CTK1A2457; KS-00000ZWS; DTXSID30861722; 2-Methyl-3-oxahexane-1,5-diol; 01SEY4236K; 439253FIWJ; 9UO53X55W2; L63N6V755Z; poly(propylene glycol) macromolecule; Dipropylene Glycol,mixture of isomers; AKOS015899603; 757HA1493R; FCH2341558; FFG0000010; AK177740; LS-87596; 900-EP2380568A1; FT-0696553; NS00008462; 2 - (2 - Hydroxypropoxy) - 1 - propanol; 2687-EP2270004A1; 2687-EP2270005A1; 2687-EP2277876A1; 2687-EP2281810A1; 2687-EP2292614A1; 2687-EP2295412A1; 2687-EP2295413A1; 2687-EP2295430A2; 2687-EP2295431A2; 2687-EP2295550A2; 2687-EP2298783A1; 2687-EP2305658A1; 2687-EP2308844A2; 2687-EP2308845A2; 2687-EP2308846A2; 2687-EP2308857A1; 2687-EP2316835A1; 2806-EP2269996A1; 2806-EP2272491A1; 2806-EP2272849A1; 2806-EP2284165A1; 2806-EP2292597A1; 2806-EP2295399A2; 2806-EP2295438A1; 2806-EP2301927A1; 2806-EP2308857A1; 2806-EP2314577A1; 2806-EP2371809A1; 2806-EP2372017A1; 2806-EP2374787A1; 2806-EP2377848A1; 2806-EP2380568A1; 2806-EP2380873A1; 106H627; alpha-hydro-omega-hydroxypoly[oxy(1-methylethylene)]; Q26863457;POLYPROPYLENE GLYCOL 400; POLİPROPİLEN GLİKOL 400; POLIPROPYLENE GLIKOL; polipropilen glikol; polipropilen glikol 400; POLIPROPILEN GLIKOL; POLIPROPILEN GLIKOL 400; 2-(2-hydroxypropoxy)propan-1-ol; Polypropylene glycol; 2-(2-HYDROXYPROPOXY)-1-PROPANOL; Polyoxypropylene; Emkapyl; Lineartop E; Niax ppg; Polyoxypropylene glycol; 106-62-7; Methyloxirane homopolymer; Desmophen 360C; Polyglycol P 400; Poly(propylene oxide); Niax ppg 425; Jeffox PPG 400; Polyglycol P-2000; Polyglycol P-4000; Laprol 2002; Niax ppg 1025; Niax ppg 3025; Polyglycol type P250; Polyglycol type P400; Polyglycol type P750; Voranol P 1010; Napter E 8075; 1-Propanol, 2-(2-hydroxypropoxy)-; Polymer 2; Niax polyol ppg 4025; Polyglycol type P1200; Polyglycol type P2000; Polyglycol type P3000; Propylene oxide homopolymer; 25322-69-4; Pluracol 1010; Pluracol 2010; Pluracol P 410; Propylan 8123; Laprol 702; 2-(2-Hydroxypropoxy)propanol; Caswell No. 680; Glycols, polypropylene; Pluracol P 2010; Voranol P 2000; Voranol P 4000; Alkapal PPG-1200; Alkapal PPG-2000; Alkapal PPG-4000; Actocol 51-530; P 4000 (polymer); Polypropylenglykol [Czech]; alpha-Hydro-omega-hydroxypoly(oxypropylene); Niax 1025; Oopg 1000; UNII-WNY0H4G53Q; Polypropylene glycol #400; Polypropylene glycol #425; Polypropylene glycol #750; Polypropylene glycol 1025; Niax 11-27; PPG-9; Polypropylene glycol #1200; Niax 61-582; Oxirane, methyl-, homopolymer; PPG-12; PPG-15; PPG-17; PPG-20; PPG-26; PPG-30; PPG-34; Propylene oxide, propylene glycol polymer; Polyoxypropylene (9); HSDB 1266; Polyoxypropylene (12); Polyoxypropylene (15); Polyoxypropylene (17); Polyoxypropylene (20); Polyoxypropylene (26); Polyoxypropylene (30); Polyoxypropylene (34); Polypropylene glycol (9); Polypropylene glycol 150; SKF 18667; EPA Pesticide Chemical Code 068602; P.P.G 2025; P.P.G 3025; P.P.G 4025; P.P.G. 150; P.P.G. 400; P.P.G. 425; P.P.G. 750; Polypropylene glycol (12); Polypropylene glycol (15); Polypropylene glycol (17); Polypropylene glycol (20); Polypropylene glycol (26); Polypropylene glycol (30); Polypropylene glycol (34); Polypropylene glycol 2000; Polypropylene glycol 2025; Polypropylene glycol 3025; Polypropylene glycol 4000; Polypropylene glycol 4025; P.P.G. 1000; P.P.G. 1025; P.P.G. 1200; P.P.G. 1800; WNY0H4G53Q; Polypropylene glycol #1000; Polypropylene glycol #1800; alpha-Hydro-omega-hydroxypoly(oxy(methyl-1,2-ethanediyl)); P 400; Polypropylene glycol (m w 1,200-3,000); Poly(oxy(methyl-1,2-ethanediyl)), alpha-hydro-omega-hydroxy-; Polypropylenglykol; Poly(propylene glycol), average M.W. 425; Poly(propylene glycol); Poly(propylene glycol), average M.W. 2.000; Poly(propylene glycol), average M.W. 4.000; UNII-HW7M6WY97M; UNII-I29VQH0G0B; UNII-V86KZL3H2Z; UNII-GK69D49CJ0; UNII-GS1E37J3P8; UNII-H5B6JCZ906; UNII-OV0Q322E0U; UNII-SJG6V595V6; UNII-01SEY4236K; UNII-439253FIWJ; UNII-9UO53X55W2; UNII-L63N6V755Z; UNII-757HA1493R; polypropylene oxide; EINECS 203-416-2; PPG?; ACMC-1CHH9; EC 500-039-8; HW7M6WY97M; I29VQH0G0B; PPG-7; V86KZL3H2Z; SCHEMBL15111; GK69D49CJ0; GS1E37J3P8; H5B6JCZ906; OV0Q322E0U; SJG6V595V6; CHEBI:53262; CTK1A2457; KS-00000ZWS; DTXSID30861722; 2-Methyl-3-oxahexane-1,5-diol; 01SEY4236K; 439253FIWJ; 9UO53X55W2; L63N6V755Z; poly(propylene glycol) macromolecule; Dipropylene Glycol,mixture of isomers; AKOS015899603; 757HA1493R; FCH2341558; FFG0000010; AK177740; LS-87596; 900-EP2380568A1; FT-0696553; NS00008462; 2 - (2 - Hydroxypropoxy) - 1 - propanol; 2687-EP2270004A1; 2687-EP2270005A1; 2687-EP2277876A1; 2687-EP2281810A1; 2687-EP2292614A1; 2687-EP2295412A1; 2687-EP2295413A1; 2687-EP2295430A2; 2687-EP2295431A2; 2687-EP2295550A2; 2687-EP2298783A1; 2687-EP2305658A1; 2687-EP2308844A2; 2687-EP2308845A2; 2687-EP2308846A2; 2687-EP2308857A1; 2687-EP2316835A1; 2806-EP2269996A1; 2806-EP2272491A1; 2806-EP2272849A1; 2806-EP2284165A1; 2806-EP2292597A1; 2806-EP2295399A2; 2806-EP2295438A1; 2806-EP2301927A1; 2806-EP2308857A1; 2806-EP2314577A1; 2806-EP2371809A1; 2806-EP2372017A1; 2806-EP2374787A1; 2806-EP2377848A1; 2806-EP2380568A1; 2806-EP2380873A1; 106H627; alpha-hydro-omega-hydroxypoly[oxy(1-methylethylene)]; Q26863457;POLYPROPYLENE GLYCOL 400; POLİPROPİLEN GLİKOL 400; POLIPROPYLENE GLIKOL; polipropilen glikol; polipropilen glikol 400; POLIPROPILEN GLIKOL; POLIPROPILEN GLIKOL 400; 2-(2-hydroxypropoxy)propan-1-ol; Polypropylene glycol; 2-(2-HYDROXYPROPOXY)-1-PROPANOL; Polyoxypropylene; Emkapyl; Lineartop E; Niax ppg; Polyoxypropylene glycol; 106-62-7; Methyloxirane homopolymer; Desmophen 360C; Polyglycol P 400; Poly(propylene oxide); Niax ppg 425; Jeffox PPG 400; Polyglycol P-2000; Polyglycol P-4000; Laprol 2002; Niax ppg 1025; Niax ppg 3025; Polyglycol type P250; Polyglycol type P400; Polyglycol type P750; Voranol P 1010; Napter E 8075; 1-Propanol, 2-(2-hydroxypropoxy)-; Polymer 2; Niax polyol ppg 4025; Polyglycol type P1200; Polyglycol type P2000; Polyglycol type P3000; Propylene oxide homopolymer; 25322-69-4; Pluracol 1010; Pluracol 2010; Pluracol P 410; Propylan 8123; Laprol 702; 2-(2-Hydroxypropoxy)propanol; Caswell No. 680; Glycols, polypropylene; Pluracol P 2010; Voranol P 2000; Voranol P 4000; Alkapal PPG-1200; Alkapal PPG-2000; Alkapal PPG-4000; Actocol 51-530; P 4000 (polymer); Polypropylenglykol [Czech]; alpha-Hydro-omega-hydroxypoly(oxypropylene); Niax 1025; Oopg 1000; UNII-WNY0H4G53Q; Polypropylene glycol #400; Polypropylene glycol #425; Polypropylene glycol #750; Polypropylene glycol 1025; Niax 11-27; PPG-9; Polypropylene glycol #1200; Niax 61-582; Oxirane, methyl-, homopolymer; PPG-12; PPG-15; PPG-17; PPG-20; PPG-26; PPG-30; PPG-34; Propylene oxide, propylene glycol polymer; Polyoxypropylene (9); HSDB 1266; Polyoxypropylene (12); Polyoxypropylene (15); Polyoxypropylene (17); Polyoxypropylene (20); Polyoxypropylene (26); Polyoxypropylene (30); Polyoxypropylene (34); Polypropylene glycol (9); Polypropylene glycol 150; SKF 18667; EPA Pesticide Chemical Code 068602; P.P.G 2025; P.P.G 3025; P.P.G 4025; P.P.G. 150; P.P.G. 400; P.P.G. 425; P.P.G. 750; Polypropylene glycol (12); Polypropylene glycol (15); Polypropylene glycol (17); Polypropylene glycol (20); Polypropylene glycol (26); Polypropylene glycol (30); Polypropylene glycol (34); Polypropylene glycol 2000; Polypropylene glycol 2025; Polypropylene glycol 3025; Polypropylene glycol 4000; Polypropylene glycol 4025; P.P.G. 1000; P.P.G. 1025; P.P.G. 1200; P.P.G. 1800; WNY0H4G53Q; Polypropylene glycol #1000; Polypropylene glycol #1800; alpha-Hydro-omega-hydroxypoly(oxy(methyl-1,2-ethanediyl)); P 400; Polypropylene glycol (m w 1,200-3,000); Poly(oxy(methyl-1,2-ethanediyl)), alpha-hydro-omega-hydroxy-; Polypropylenglykol; Poly(propylene glycol), average M.W. 425; Poly(propylene glycol); Poly(propylene glycol), average M.W. 2.000; Poly(propylene glycol), average M.W. 4.000; UNII-HW7M6WY97M; UNII-I29VQH0G0B; UNII-V86KZL3H2Z; UNII-GK69D49CJ0; UNII-GS1E37J3P8; UNII-H5B6JCZ906; UNII-OV0Q322E0U; UNII-SJG6V595V6; UNII-01SEY4236K; UNII-439253FIWJ; UNII-9UO53X55W2; UNII-L63N6V755Z; UNII-757HA1493R; polypropylene oxide; EINECS 203-416-2; PPG?; ACMC-1CHH9; EC 500-039-8; HW7M6WY97M; I29VQH0G0B; PPG-7; V86KZL3H2Z; SCHEMBL15111; GK69D49CJ0; GS1E37J3P8; H5B6JCZ906; OV0Q322E0U; SJG6V595V6; CHEBI:53262; CTK1A2457; KS-00000ZWS; DTXSID30861722; 2-Methyl-3-oxahexane-1,5-diol; 01SEY4236K; 439253FIWJ; 9UO53X55W2; L63N6V755Z; poly(propylene glycol) macromolecule; Dipropylene Glycol,mixture of isomers; AKOS015899603; 757HA1493R; FCH2341558; FFG0000010; AK177740; LS-87596; 900-EP2380568A1; FT-0696553; NS00008462; 2 - (2 - Hydroxypropoxy) - 1 - propanol; 2687-EP2270004A1; 2687-EP2270005A1; 2687-EP2277876A1; 2687-EP2281810A1; 2687-EP2292614A1; 2687-EP2295412A1; 2687-EP2295413A1; 2687-EP2295430A2; 2687-EP2295431A2; 2687-EP2295550A2; 2687-EP2298783A1; 2687-EP2305658A1; 2687-EP2308844A2; 2687-EP2308845A2; 2687-EP2308846A2; 2687-EP2308857A1; 2687-EP2316835A1; 2806-EP2269996A1; 2806-EP2272491A1; 2806-EP2272849A1; 2806-EP2284165A1; 2806-EP2292597A1; 2806-EP2295399A2; 2806-EP2295438A1; 2806-EP2301927A1; 2806-EP2308857A1; 2806-EP2314577A1; 2806-EP2371809A1; 2806-EP2372017A1; 2806-EP2374787A1; 2806-EP2377848A1; 2806-EP2380568A1; 2806-EP2380873A1; 106H627; alpha-hydro-omega-hydroxypoly[oxy(1-methylethylene)]; Q26863457;POLYPROPYLENE GLYCOL 400; POLİPROPİLEN GLİKOL 400; POLIPROPYLENE GLIKOL; polipropilen glikol; polipropilen glikol 400; POLIPROPILEN GLIKOL; POLIPROPILEN GLIKOL 400; 2-(2-hydroxypropoxy)propan-1-ol; Polypropylene glycol; 2-(2-HYDROXYPROPOXY)-1-PROPANOL; Polyoxypropylene; Emkapyl; Lineartop E; Niax ppg; Polyoxypropylene glycol; 106-62-7; Methyloxirane homopolymer; Desmophen 360C; Polyglycol P 400; Poly(propylene oxide); Niax ppg 425; Jeffox PPG 400; Polyglycol P-2000; Polyglycol P-4000; Laprol 2002; Niax ppg 1025; Niax ppg 3025; Polyglycol type P250; Polyglycol type P400; Polyglycol type P750; Voranol P 1010; Napter E 8075; 1-Propanol, 2-(2-hydroxypropoxy)-; Polymer 2; Niax polyol ppg 4025; Polyglycol type P1200; Polyglycol type P2000; Polyglycol type P3000; Propylene oxide homopolymer; 25322-69-4; Pluracol 1010; Pluracol 2010; Pluracol P 410; Propylan 8123; Laprol 702; 2-(2-Hydroxypropoxy)propanol; Caswell No. 680; Glycols, polypropylene; Pluracol P 2010; Voranol P 2000; Voranol P 4000; Alkapal PPG-1200; Alkapal PPG-2000; Alkapal PPG-4000; Actocol 51-530; P 4000 (polymer); Polypropylenglykol [Czech]; alpha-Hydro-omega-hydroxypoly(oxypropylene); Niax 1025; Oopg 1000; UNII-WNY0H4G53Q; Polypropylene glycol #400; Polypropylene glycol #425; Polypropylene glycol #750; Polypropylene glycol 1025; Niax 11-27; PPG-9; Polypropylene glycol #1200; Niax 61-582; Oxirane, methyl-, homopolymer; PPG-12; PPG-15; PPG-17; PPG-20; PPG-26; PPG-30; PPG-34; Propylene oxide, propylene glycol polymer; Polyoxypropylene (9); HSDB 1266; Polyoxypropylene (12); Polyoxypropylene (15); Polyoxypropylene (17); Polyoxypropylene (20); Polyoxypropylene (26); Polyoxypropylene (30); Polyoxypropylene (34); Polypropylene glycol (9); Polypropylene glycol 150; SKF 18667; EPA Pesticide Chemical Code 068602; P.P.G 2025; P.P.G 3025; P.P.G 4025; P.P.G. 150; P.P.G. 400; P.P.G. 425; P.P.G. 750; Polypropylene glycol (12); Polypropylene glycol (15); Polypropylene glycol (17); Polypropylene glycol (20); Polypropylene glycol (26); Polypropylene glycol (30); Polypropylene glycol (34); Polypropylene glycol 2000; Polypropylene glycol 2025; Polypropylene glycol 3025; Polypropylene glycol 4000; Polypropylene glycol 4025; P.P.G. 1000; P.P.G. 1025; P.P.G. 1200; P.P.G. 1800; WNY0H4G53Q; Polypropylene glycol #1000; Polypropylene glycol #1800; alpha-Hydro-omega-hydroxypoly(oxy(methyl-1,2-ethanediyl)); P 400; Polypropylene glycol (m w 1,200-3,000); Poly(oxy(methyl-1,2-ethanediyl)), alpha-hydro-omega-hydroxy-; Polypropylenglykol; Poly(propylene glycol), average M.W. 425; Poly(propylene glycol); Poly(propylene glycol), average M.W. 2.000; Poly(propylene glycol), average M.W. 4.000; UNII-HW7M6WY97M; UNII-I29VQH0G0B; UNII-V86KZL3H2Z; UNII-GK69D49CJ0; UNII-GS1E37J3P8; UNII-H5B6JCZ906; UNII-OV0Q322E0U; UNII-SJG6V595V6; UNII-01SEY4236K; UNII-439253FIWJ; UNII-9UO53X55W2; UNII-L63N6V755Z; UNII-757HA1493R; polypropylene oxide; EINECS 203-416-2; PPG?; ACMC-1CHH9; EC 500-039-8; HW7M6WY97M; I29VQH0G0B; PPG-7; V86KZL3H2Z; SCHEMBL15111; GK69D49CJ0; GS1E37J3P8; H5B6JCZ906; OV0Q322E0U; SJG6V595V6; CHEBI:53262; CTK1A2457; KS-00000ZWS; DTXSID30861722; 2-Methyl-3-oxahexane-1,5-diol; 01SEY4236K; 439253FIWJ; 9UO53X55W2; L63N6V755Z; poly(propylene glycol) macromolecule; Dipropylene Glycol,mixture of isomers; AKOS015899603; 757HA1493R; FCH2341558; FFG0000010; AK177740; LS-87596; 900-EP2380568A1; FT-0696553; NS00008462; 2 - (2 - Hydroxypropoxy) - 1 - propanol; 2687-EP2270004A1; 2687-EP2270005A1; 2687-EP2277876A1; 2687-EP2281810A1; 2687-EP2292614A1; 2687-EP2295412A1; 2687-EP2295413A1; 2687-EP2295430A2; 2687-EP2295431A2; 2687-EP2295550A2; 2687-EP2298783A1; 2687-EP2305658A1; 2687-EP2308844A2; 2687-EP2308845A2; 2687-EP2308846A2; 2687-EP2308857A1; 2687-EP2316835A1; 2806-EP2269996A1; 2806-EP2272491A1; 2806-EP2272849A1; 2806-EP2284165A1; 2806-EP2292597A1; 2806-EP2295399A2; 2806-EP2295438A1; 2806-EP2301927A1; 2806-EP2308857A1; 2806-EP2314577A1; 2806-EP2371809A1; 2806-EP2372017A1; 2806-EP2374787A1; 2806-EP2377848A1; 2806-EP2380568A1; 2806-EP2380873A1; 106H627; alpha-hydro-omega-hydroxypoly[oxy(1-methylethylene)]; Q26863457;POLYPROPYLENE GLYCOL 400; POLİPROPİLEN GLİKOL 400; POLIPROPYLENE GLIKOL; polipropilen glikol; polipropilen glikol 400; POLIPROPILEN GLIKOL; POLIPROPILEN GLIKOL 400; 2-(2-hydroxypropoxy)propan-1-ol; Polypropylene glycol; 2-(2-HYDROXYPROPOXY)-1-PROPANOL; Polyoxypropylene; Emkapyl; Lineartop E; Niax ppg; Polyoxypropylene glycol; 106-62-7; Methyloxirane homopolymer; Desmophen 360C; Polyglycol P 400; Poly(propylene oxide); Niax ppg 425; Jeffox PPG 400; Polyglycol P-2000; Polyglycol P-4000; Laprol 2002; Niax ppg 1025; Niax ppg 3025; Polyglycol type P250; Polyglycol type P400; Polyglycol type P750; Voranol P 1010; Napter E 8075; 1-Propanol, 2-(2-hydroxypropoxy)-; Polymer 2; Niax polyol ppg 4025; Polyglycol type P1200; Polyglycol type P2000; Polyglycol type P3000; Propylene oxide homopolymer; 25322-69-4; Pluracol 1010; Pluracol 2010; Pluracol P 410; Propylan 8123; Laprol 702; 2-(2-Hydroxypropoxy)propanol; Caswell No. 680; Glycols, polypropylene; Pluracol P 2010; Voranol P 2000; Voranol P 4000; Alkapal PPG-1200; Alkapal PPG-2000; Alkapal PPG-4000; Actocol 51-530; P 4000 (polymer); Polypropylenglykol [Czech]; alpha-Hydro-omega-hydroxypoly(oxypropylene); Niax 1025; Oopg 1000; UNII-WNY0H4G53Q; Polypropylene glycol #400; Polypropylene glycol #425; Polypropylene glycol #750; Polypropylene glycol 1025; Niax 11-27; PPG-9; Polypropylene glycol #1200; Niax 61-582; Oxirane, methyl-, homopolymer; PPG-12; PPG-15; PPG-17; PPG-20; PPG-26; PPG-30; PPG-34; Propylene oxide, propylene glycol polymer; Polyoxypropylene (9); HSDB 1266; Polyoxypropylene (12); Polyoxypropylene (15); Polyoxypropylene (17); Polyoxypropylene (20); Polyoxypropylene (26); Polyoxypropylene (30); Polyoxypropylene (34); Polypropylene glycol (9); Polypropylene glycol 150; SKF 18667; EPA Pesticide Chemical Code 068602; P.P.G 2025; P.P.G 3025; P.P.G 4025; P.P.G. 150; P.P.G. 400; P.P.G. 425; P.P.G. 750; Polypropylene glycol (12); Polypropylene glycol (15); Polypropylene glycol (17); Polypropylene glycol (20); Polypropylene glycol (26); Polypropylene glycol (30); Polypropylene glycol (34); Polypropylene glycol 2000; Polypropylene glycol 2025; Polypropylene glycol 3025; Polypropylene glycol 4000; Polypropylene glycol 4025; P.P.G. 1000; P.P.G. 1025; P.P.G. 1200; P.P.G. 1800; WNY0H4G53Q; Polypropylene glycol #1000; Polypropylene glycol #1800; alpha-Hydro-omega-hydroxypoly(oxy(methyl-1,2-ethanediyl)); P 400; Polypropylene glycol (m w 1,200-3,000); Poly(oxy(methyl-1,2-ethanediyl)), alpha-hydro-omega-hydroxy-; Polypropylenglykol; Poly(propylene glycol), average M.W. 425; Poly(propylene glycol); Poly(propylene glycol), average M.W. 2.000; Poly(propylene glycol), average M.W. 4.000; UNII-HW7M6WY97M; UNII-I29VQH0G0B; UNII-V86KZL3H2Z; UNII-GK69D49CJ0; UNII-GS1E37J3P8; UNII-H5B6JCZ906; UNII-OV0Q322E0U; UNII-SJG6V595V6; UNII-01SEY4236K; UNII-439253FIWJ; UNII-9UO53X55W2; UNII-L63N6V755Z; UNII-757HA1493R; polypropylene oxide; EINECS 203-416-2; PPG?; ACMC-1CHH9; EC 500-039-8; HW7M6WY97M; I29VQH0G0B; PPG-7; V86KZL3H2Z; SCHEMBL15111; GK69D49CJ0; GS1E37J3P8; H5B6JCZ906; OV0Q322E0U; SJG6V595V6; CHEBI:53262; CTK1A2457; KS-00000ZWS; DTXSID30861722; 2-Methyl-3-oxahexane-1,5-diol; 01SEY4236K; 439253FIWJ; 9UO53X55W2; L63N6V755Z; poly(propylene glycol) macromolecule; Dipropylene Glycol,mixture of isomers; AKOS015899603; 757HA1493R; FCH2341558; FFG0000010; AK177740; LS-87596; 900-EP2380568A1; FT-0696553; NS00008462; 2 - (2 - Hydroxypropoxy) - 1 - propanol; 2687-EP2270004A1; 2687-EP2270005A1; 2687-EP2277876A1; 2687-EP2281810A1; 2687-EP2292614A1; 2687-EP2295412A1; 2687-EP2295413A1; 2687-EP2295430A2; 2687-EP2295431A2; 2687-EP2295550A2; 2687-EP2298783A1; 2687-EP2305658A1; 2687-EP2308844A2; 2687-EP2308845A2; 2687-EP2308846A2; 2687-EP2308857A1; 2687-EP2316835A1; 2806-EP2269996A1; 2806-EP2272491A1; 2806-EP2272849A1; 2806-EP2284165A1; 2806-EP2292597A1; 2806-EP2295399A2; 2806-EP2295438A1; 2806-EP2301927A1; 2806-EP2308857A1; 2806-EP2314577A1; 2806-EP2371809A1; 2806-EP2372017A1; 2806-EP2374787A1; 2806-EP2377848A1; 2806-EP2380568A1; 2806-EP2380873A1; 106H627; alpha-hydro-omega-hydroxypoly[oxy(1-methylethylene)]; Q26863457;POLYPROPYLENE GLYCOL 400; POLİPROPİLEN GLİKOL 400; POLIPROPYLENE GLIKOL; polipropilen glikol; polipropilen glikol 400; POLIPROPILEN GLIKOL; POLIPROPILEN GLIKOL 400; PPG 400; ppg 400 ; ppg; PPG
Chemical Name: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) Synonyms: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400); Poly (propylene oxide).CAS No.: 25322-69-4 Appearance: Colorless viscous liquid Product description: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) (PPG) POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) or polypropylene oxide is the polymer of propylene glycol. Chemically it is a polyether, and, more generally speaking, it's a polyalkylene glycol (PAG). The term POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) or PPG is reserved for low to medium range molar mass polymer when the nature of the end-group, which is usually a hydroxyl group, still matters. The term "oxide" is used for high molar mass polymer when end-groups no longer affect polymer properties. In 2003, 60% of the annual production of propylene oxide of 6.6×106 tonnes was converted into the polymer.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is produced by ring-opening polymerization of propylene oxide. The initiator is an alcohol and the catalyst a base, usually potassium hydroxide. When the initiator is ethylene glycol or water the polymer is linear. With a multifunctional initiator like glycerine, pentaerythritol or sorbitol the polymer branches out.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) has many properties in common with polyethylene glycol. The polymer is a liquid at room temperature. Solubility in water decreases rapidly with increasing molar mass. Secondary hydroxyl groups in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) are less reactive than primary hydroxyl groups in polyethylene glycol. POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is less toxic than PEG, so biotechnologicals are now produced in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400).Uses POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used in many formulations for polyurethanes. It is used as a rheology modifier.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a surfactant, wetting agent, dispersant in leather finishing.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is also employed as a tuning reference and calibrant in mass spectrometry.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a primary ingredient in the making of paintballs.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a primary ingredient in the making of some laxatives.It is used in cosmetic and pharmaceutical preparations and in the manufacture of emulsifying or wetting agents and lubricants,suppress foaming in industrial processes and for making polyurethane resins, hydraulic fluids, and various other materials. It acts as swelling agent for the preparation and characterization of organo-modified SBA-15. POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) and tetraethoxysilane precursors play an important role for the preparation of superhydrophobic silica-based surfaces.In dilute aqueous solution unimers of Pluronic F127 associate to form micelles. In more concentrated solution, micelles pack to form high-modulus gels. Our interest is the effect of addition of 10-30 wt % low molecular weight POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 on the micellization and gelation of solutions of F127. DLS was used to determine the apparent size of the micelles (rh,app). The critical micelle concentration (cmc) using the dye solubilization method of F127 in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 solutions was studied. Visual observation was carried out to detect gel formation in concentrated solutions and the onset of clouding and turbidity, as the temperature was raised. Oscillatory rheometry was used to confirm the formation of high-modulus gels and provide values of elastic moduli (G′max) over a wide temperature range. SAXS was used to determine gel structure. Our results for the hydrophobic adduct POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 were compared with literature values for the hydrophilic adduct PEG6000.Crystallization grade POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) P 400 for formulating screens or for optimization.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 1000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 2,000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 700;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) P 400;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 700;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 2000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 1000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 400WHAT IS POLYETHYLENE GLYCOL 400/PROPYLENE GLYCOL OPHTHALMIC AND HOW DOES IT WORK? Polyethylene glycol 400/propylene glycol ophthalmic is an over-the-counter (OTC) product used to treat dry eyes.Polyethylene glycol 400/propylene glycol ophthalmic is available under the following different brand names: Systane Gel Drops, Systane Preservative-Free, Systane Ultra Preservative-Free, Systane Lubricant Eye Drops, and Systane Ultra.Dosages of Polyethylene Glycol 400/Propylene Glycol Ophthalmic:Dosage Forms and Strengths Ophthalmic Drops 0.4%/0.3% Dosage Considerations - Should be Given as Follows:Dry Eyes Shake well before use.Instill 1-2 drop(s) in affected eye(s) as needed.Safety and efficacy not established in pediatric patients.WHAT ARE SIDE EFFECTS ASSOCIATED WITH USING POLYETHYLENE GLYCOL 400/PROPYLENE GLYCOL OPHTHALMIC? Side effects of polyethylene glycol 400/propylene glycol ophthalmic include A POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), propylene glycol initiated, 400 molecular weight homopolymer diol. It is a multipurpose short diol, which can be blended with other polyols for the production of two component compact or foamed systems and one component prepolymer based products for coatings, adhesives and sealants with a variety of end uses such as elastomers, adhesives, coatings, and sealants.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), propylene glycol initiated. Can be blended with other polyols for the production of two component compact or foamed systems and one component prepolymer based products for coatings.Chemical Name: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) Synonyms: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400); Poly (propylene oxide).CAS No.: 25322-69-4 Appearance: Colorless viscous liquid Product description: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) (PPG) POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) or polypropylene oxide is the polymer of propylene glycol. Chemically it is a polyether, and, more generally speaking, it's a polyalkylene glycol (PAG). The term POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) or PPG is reserved for low to medium range molar mass polymer when the nature of the end-group, which is usually a hydroxyl group, still matters. The term "oxide" is used for high molar mass polymer when end-groups no longer affect polymer properties. In 2003, 60% of the annual production of propylene oxide of 6.6×106 tonnes was converted into the polymer.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is produced by ring-opening polymerization of propylene oxide. The initiator is an alcohol and the catalyst a base, usually potassium hydroxide. When the initiator is ethylene glycol or water the polymer is linear. With a multifunctional initiator like glycerine, pentaerythritol or sorbitol the polymer branches out.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) has many properties in common with polyethylene glycol. The polymer is a liquid at room temperature. Solubility in water decreases rapidly with increasing molar mass. Secondary hydroxyl groups in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) are less reactive than primary hydroxyl groups in polyethylene glycol. POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is less toxic than PEG, so biotechnologicals are now produced in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400).Uses POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used in many formulations for polyurethanes. It is used as a rheology modifier.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a surfactant, wetting agent, dispersant in leather finishing.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is also employed as a tuning reference and calibrant in mass spectrometry.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a primary ingredient in the making of paintballs.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a primary ingredient in the making of some laxatives.It is used in cosmetic and pharmaceutical preparations and in the manufacture of emulsifying or wetting agents and lubricants,suppress foaming in industrial processes and for making polyurethane resins, hydraulic fluids, and various other materials. It acts as swelling agent for the preparation and characterization of organo-modified SBA-15. POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) and tetraethoxysilane precursors play an important role for the preparation of superhydrophobic silica-based surfaces.In dilute aqueous solution unimers of Pluronic F127 associate to form micelles. In more concentrated solution, micelles pack to form high-modulus gels. Our interest is the effect of addition of 10-30 wt % low molecular weight POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 on the micellization and gelation of solutions of F127. DLS was used to determine the apparent size of the micelles (rh,app). The critical micelle concentration (cmc) using the dye solubilization method of F127 in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 solutions was studied. Visual observation was carried out to detect gel formation in concentrated solutions and the onset of clouding and turbidity, as the temperature was raised. Oscillatory rheometry was used to confirm the formation of high-modulus gels and provide values of elastic moduli (G′max) over a wide temperature range. SAXS was used to determine gel structure. Our results for the hydrophobic adduct POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 were compared with literature values for the hydrophilic adduct PEG6000.Crystallization grade POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) P 400 for formulating screens or for optimization.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 1000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 2,000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 700;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) P 400;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 700;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 2000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 1000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 400WHAT IS POLYETHYLENE GLYCOL 400/PROPYLENE GLYCOL OPHTHALMIC AND HOW DOES IT WORK? Polyethylene glycol 400/propylene glycol ophthalmic is an over-the-counter (OTC) product used to treat dry eyes.Polyethylene glycol 400/propylene glycol ophthalmic is available under the following different brand names: Systane Gel Drops, Systane Preservative-Free, Systane Ultra Preservative-Free, Systane Lubricant Eye Drops, and Systane Ultra.Dosages of Polyethylene Glycol 400/Propylene Glycol Ophthalmic:Dosage Forms and Strengths Ophthalmic Drops 0.4%/0.3% Dosage Considerations - Should be Given as Follows:Dry Eyes Shake well before use.Instill 1-2 drop(s) in affected eye(s) as needed.Safety and efficacy not established in pediatric patients.WHAT ARE SIDE EFFECTS ASSOCIATED WITH USING POLYETHYLENE GLYCOL 400/PROPYLENE GLYCOL OPHTHALMIC? Side effects of polyethylene glycol 400/propylene glycol ophthalmic include A POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), propylene glycol initiated, 400 molecular weight homopolymer diol. It is a multipurpose short diol, which can be blended with other polyols for the production of two component compact or foamed systems and one component prepolymer based products for coatings, adhesives and sealants with a variety of end uses such as elastomers, adhesives, coatings, and sealants.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), propylene glycol initiated. Can be blended with other polyols for the production of two component compact or foamed systems and one component prepolymer based products for coatings.Chemical Name: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) Synonyms: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400); Poly (propylene oxide).CAS No.: 25322-69-4 Appearance: Colorless viscous liquid Product description: POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) (PPG) POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) or polypropylene oxide is the polymer of propylene glycol. Chemically it is a polyether, and, more generally speaking, it's a polyalkylene glycol (PAG). The term POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) or PPG is reserved for low to medium range molar mass polymer when the nature of the end-group, which is usually a hydroxyl group, still matters. The term "oxide" is used for high molar mass polymer when end-groups no longer affect polymer properties. In 2003, 60% of the annual production of propylene oxide of 6.6×106 tonnes was converted into the polymer.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is produced by ring-opening polymerization of propylene oxide. The initiator is an alcohol and the catalyst a base, usually potassium hydroxide. When the initiator is ethylene glycol or water the polymer is linear. With a multifunctional initiator like glycerine, pentaerythritol or sorbitol the polymer branches out.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) has many properties in common with polyethylene glycol. The polymer is a liquid at room temperature. Solubility in water decreases rapidly with increasing molar mass. Secondary hydroxyl groups in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) are less reactive than primary hydroxyl groups in polyethylene glycol. POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is less toxic than PEG, so biotechnologicals are now produced in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400).Uses POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used in many formulations for polyurethanes. It is used as a rheology modifier.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a surfactant, wetting agent, dispersant in leather finishing.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is also employed as a tuning reference and calibrant in mass spectrometry.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a primary ingredient in the making of paintballs.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) is used as a primary ingredient in the making of some laxatives.It is used in cosmetic and pharmaceutical preparations and in the manufacture of emulsifying or wetting agents and lubricants,suppress foaming in industrial processes and for making polyurethane resins, hydraulic fluids, and various other materials. It acts as swelling agent for the preparation and characterization of organo-modified SBA-15. POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) and tetraethoxysilane precursors play an important role for the preparation of superhydrophobic silica-based surfaces.In dilute aqueous solution unimers of Pluronic F127 associate to form micelles. In more concentrated solution, micelles pack to form high-modulus gels. Our interest is the effect of addition of 10-30 wt % low molecular weight POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 on the micellization and gelation of solutions of F127. DLS was used to determine the apparent size of the micelles (rh,app). The critical micelle concentration (cmc) using the dye solubilization method of F127 in POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 solutions was studied. Visual observation was carried out to detect gel formation in concentrated solutions and the onset of clouding and turbidity, as the temperature was raised. Oscillatory rheometry was used to confirm the formation of high-modulus gels and provide values of elastic moduli (G′max) over a wide temperature range. SAXS was used to determine gel structure. Our results for the hydrophobic adduct POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400)400 were compared with literature values for the hydrophilic adduct PEG6000.Crystallization grade POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) P 400 for formulating screens or for optimization.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 1000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 2,000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), DIOL TYPE, 700;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) P 400;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 700;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 2000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 1000;POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400) 400WHAT IS POLYETHYLENE GLYCOL 400/PROPYLENE GLYCOL OPHTHALMIC AND HOW DOES IT WORK? Polyethylene glycol 400/propylene glycol ophthalmic is an over-the-counter (OTC) product used to treat dry eyes.Polyethylene glycol 400/propylene glycol ophthalmic is available under the following different brand names: Systane Gel Drops, Systane Preservative-Free, Systane Ultra Preservative-Free, Systane Lubricant Eye Drops, and Systane Ultra.Dosages of Polyethylene Glycol 400/Propylene Glycol Ophthalmic:Dosage Forms and Strengths Ophthalmic Drops 0.4%/0.3% Dosage Considerations - Should be Given as Follows:Dry Eyes Shake well before use.Instill 1-2 drop(s) in affected eye(s) as needed.Safety and efficacy not established in pediatric patients.WHAT ARE SIDE EFFECTS ASSOCIATED WITH USING POLYETHYLENE GLYCOL 400/PROPYLENE GLYCOL OPHTHALMIC? Side effects of polyethylene glycol 400/propylene glycol ophthalmic include A POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), propylene glycol initiated, 400 molecular weight homopolymer diol. It is a multipurpose short diol, which can be blended with other polyols for the production of two component compact or foamed systems and one component prepolymer based products for coatings, adhesives and sealants with a variety of end uses such as elastomers, adhesives, coatings, and sealants.POLYPROPYLENE GLYCOL 400 (POLİPROPİLEN GLİKOL 400), propylene glycol initiated. Can be blended with other polyols for the production of two component compact or foamed systems and one component prepolymer based products for coatings.