by
Gümüşbulut, Gülin, author.
Format:
El Yazması
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in high rates in our country. In this context, the effect of various solvent types (ethanol, methanol
by
Şengün, Duygu, author.
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extraction. Also, higher yield was obtained from methanol and ethanol extraction because of the higher
by
Ahmad, Bilal, author.
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El Yazması
Alıntı:
. In this study, various phytochemicals and total antioxidant activities in the ethanol extracts of
by
Süngüç, Ceren.
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Alıntı:
conditions were determined as zein concentration of 5% (w/v) in 70% aqueous ethanol solution, flow rate of 0
by
Yücesoy, Dila.
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dried), raw material (only suma or suma and ethanol) and production process (double or triple distilled
by
Özturk İlgü, Ekin.
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Alıntı:
of the silica nanoparticles. By varying the amounts of ethanol and ammonia the size of nanoparticles
by
Aytul, Kerem Kaan.
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In this study, aqueous/ethanol extract of olive leaves (OLE) was examined for its antimicrobial and
by
Kaçar, Diren.
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Alıntı:
In this study aqueous/ethanol extracts of 42 plant species collected from same geographic region
by
Erdoğan, Demet.
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Alıntı:
sulfate and Hexadecyltrimethyl ammonium bromide were used as collectors. Ethanol /MIBC were used as
by
Erdoğan, Duygu, author.
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sensitivity was validated by varied concentrations of sucrose, ethanol and BSA solutions, showing that the
by
Ayaz, İlyasa Umur, author.
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percentages, however, the immobilized CA exhibited no activity in ethanol at percentages above 10%. Stability
by
Güzelaydın, Abdurrahman Halis, author.
Format:
El Yazması
Alıntı:
. Dispersions of each modified nanoparticle in 3 mL ethanol were prepared and sonicated for 12 h in order to
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