A. Celil Yuzer scite author profile

A. Celil Yuzer

2Publications

6Citation Statements Received

0Citation Statements Given

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Tarsus University

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Solar-light-driven photocatalytic hydrogen evolution by push-pull thiophenoxy-substituted zinc phthalocyanines

Acar¹,

Ince²,

Yuzer³

et al. 2022

J. Porphyrins Phthalocyanines

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Two zinc phthalocyanine derivatives (ZnPc 1 and 2) carrying bulky 2,6-diisopro-pylthiophenoxy peripheral substituents have been synthesized and their performances as photosensitizers in photochemical hydrogen production evaluated. To examine the influence of the spacer on the performance of ZnPc 1 and 2, the carboxyl group has been linked to the macrocycle ring either directly or via the phenyl ring, respectively. The photocatalytic activities of ZnPcs (ZnPc 1 and ZnPc 2) as sensitizers of TiO2 for hydrogen production were investigated in the presence of Pt. ZnPc 1 and ZnPc 2 sensitized TiO2 produced 0.687 mmolg[Formula: see text]h[Formula: see text] and 0.436 mmol g[Formula: see text]h[Formula: see text] hydrogens, which also reached 3.986 and 2.091 mmolg[Formula: see text] after 8h illumination, respectively, under visible light ([Formula: see text] 420 nm) irradiation. In addition, STH efficiencies of ZnPc 1/TiO2 and ZnPc 2/TiO2 were determined as 1.77% and 1.12%, respectively. ZnPc 1/TiO2 exhibited 1.9-fold more photocatalytic hydrogen amount than ZnPc 2/TiO2, and the hydrogen evolution performance of the photocatalyst in the presence of Pt enhanced to 3.021 mmol g[Formula: see text]h[Formula: see text] and 0.911mmol g[Formula: see text]h[Formula: see text] for ZnPc 1 and ZnPc 2, respectively.

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The influence of central metal in phthalocyanine for photodynamic therapy of glioblastoma

Oral

Yuzer

Ozel

et al. 2023

J. Porphyrins Phthalocyanines

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Glioblastoma multiforme (GBM) is an aggressive and fatal brain tumor that tends to occur in older adults and has several subtypes. The fact that the mechanisms of initiation and progression of glioblastoma are not yet known is an obstacle to the treatment of the disease. For this reason, studies have been carried out in recent years to develop new therapeutic approaches. Photodynamic therapy (PDT) is a procedure that has been approved and is considered safe in most clinical trials. With the help of a photosensitizer (PS), tumor growth regression is promoted, aiming to prolong the survival of patients with glioma progression. It is extremely important to conduct studies focused on the development, application, and biodistribution of possible candidates for these photosensitizing drugs. Phthalocyanines (Pcs) are good photosensitizers for this purpose. Here, we describe an approach to the application of photodynamic therapy with metal-phthalocyanines [zinc-phthalocyanine (ZnPc) and cobalt-phthalocyanine (CoPc)] and their carboxylic acid derivatives in U87-MG cell lines. For the phototoxicity study, percent viability values were calculated using the MTT test. The results showed that cell death was effectively induced in U87-MG cells. In our study, the phthalocyanines applied in the in vitro treatment of glioblastoma cell lines with PDT have shown high toxicity and the treatment has been successful. Our findings highlight the potential of ZnPc-COOH and CoPc-COOH with their carboxylic acid derivatives as biological material for biomedical applications in the treatment of glioblastoma cells.

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A. Celil Yuzer

Solar-light-driven photocatalytic hydrogen evolution by push-pull thiophenoxy-substituted zinc phthalocyanines

The influence of central metal in phthalocyanine for photodynamic therapy of glioblastoma

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