Erdem Tezcan scite author profile

Fall leaves are biodegraded and composted naturally in forests but they are wastes for urban areas. Moreover, they are widely available cellulose sources but have limited applications. Alkaline peroxide treatment of bioresources is one of the most widely studied clean methods for both delignification and hemicellulose removal but there is no study about application of that method on fall leaves at room temperature. In this study, the effect of alkaline peroxide treatment of fall leaves at room temperature on hemicellulose recovery and cellulose delignification were investigated. Fall leaves (FL) were treated with 0.3-3.0 M NaOH + 0-3 M H2O2 at room temperature. Hemicellulose recovery and cellulose delignification values were analyzed. Hemicellulose recovery and cellulose delignification increased and yield decreased by increasing NaOH and H2O2 concentrations. Hemicellulose recovery and cellulose delignification reached to the maximum levels, 99.5% and 81.6% respectively, at 3M NaOH + 3M H2O2 treatment condition. The end products were confirmed by analytically, spectrally and morphologically. Wasted fall leaves were turned into useful hemicellulose and cellulose products by using clean alkaline peroxide treatment at room temperature. The products can be further processed by known methods into other industrial products.

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Isolation of cellulose and hemicellulose by using alkaline peroxide

Tezcan¹,

Atici²

2017

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Sterilization of Seed <i>Carthamus tinctorius</i> (Safflower) Plant and Investigation of the Effectiveness of the Sterilizants

Korkmaz¹,

Demır²,

Tezcan³

2021

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Plant tissue culture studies are one of the pretreatments carried out to increase crop yield by preventing germination in plant seeds. In this research, repeated plant tissue culture studies were conducted with sterilizers specific to safflower seed, which will increase production efficiency but do not cause genetic polymorphism and corrosion in endosperm with 3N chromosomes. Corrosives were used by dilution, and this did not damage the 3N chromosome endosperm, targeting the protein walls of microorganisms on the seed surface without eroding the seed surface, thereby providing biological sterilization. Besides, because it does not contain heavy metals, it did not cause polymorphism, that is, a mutation in the genetic sequence of the seed. Moreover, the environment and the equipment were sterilized with 2 -3 repetitions, sterilizer treatment, planting, and germination operations were performed in a sterile environment this, in turn, allowed an isolated assessment of the yield of solution G.

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Stenotic aortic valves have high metal and lack selenium: A new toxic inflammation hypothesis?

et al. 2022

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Erdem Tezcan

A new method for recovery of cellulose from lignocellulosic bio-waste: Pile processing

Isolation of cellulose and hemicellulose by using alkaline peroxide treatment at room temperature from wasted fall leaves

Isolation of cellulose and hemicellulose by using alkaline peroxide

Sterilization of Seed <i>Carthamus tinctorius</i> (Safflower) Plant and Investigation of the Effectiveness of the Sterilizants

Stenotic aortic valves have high metal and lack selenium: A new toxic inflammation hypothesis?

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Erdem Tezcan

A new method for recovery of cellulose from lignocellulosic bio-waste: Pile processing

Isolation of cellulose and hemicellulose by using alkaline peroxide treatment at room temperature from wasted fall leaves

Isolation of cellulose and hemicellulose by using alkaline peroxide

Sterilization of Seed &lt;i&gt;Carthamus tinctorius&lt;/i&gt; (Safflower) Plant and Investigation of the Effectiveness of the Sterilizants

Stenotic aortic valves have high metal and lack selenium: A new toxic inflammation hypothesis?

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Resources

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Sterilization of Seed <i>Carthamus tinctorius</i> (Safflower) Plant and Investigation of the Effectiveness of the Sterilizants