P
Parinaz Abdollahiyan
Researcher at Tabriz University of Medical Sciences
Publications - 11
Citations - 234
Parinaz Abdollahiyan is an academic researcher from Tabriz University of Medical Sciences. The author has contributed to research in topics: 3D bioprinting & Self-healing hydrogels. The author has an hindex of 4, co-authored 11 publications receiving 52 citations. Previous affiliations of Parinaz Abdollahiyan include Nanjing Forestry University.
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Application of Cys A@AuNPs supported amino acids towards rapid and selective identification of Hg(II) and Cu(II) ions in aqueous solution: An innovative microfluidic paper-based (μPADs) colorimetric sensing platform
Parinaz Abdollahiyan,Parinaz Abdollahiyan,Mohammad Hasanzadeh,Paria Pashazadeh-Panahi,Farzad Seidi +4 more
TL;DR: In this article, the development of a lightweight stamp for manufacturing of a novel microfluidic paper-based analytical device (μPADs), as a simple colorimetric sensor for selective recognition of Hg2+ and Cu2+ within the other metal ions.
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Providing multicolor plasmonic patterns with graphene quantum dots functionalized d-penicillamine for visual recognition of V(V), Cu (II), and Fe(III): Colorimetric fingerprints of GQDs-DPA for discriminating ions in human urine samples.
Parinaz Abdollahiyan,Parinaz Abdollahiyan,Hassan Heidari,Soheila Hassanzadeh,Mohammad Hasanzadeh,Farzad Seidi,Paria Pashazadeh-Panahi +6 more
TL;DR: In this article, a novel fluorescent probe (graphene quantum dots functionalized d-penicillamine [GQDs-DPA]) was developed for the selective identification of Cu2+, V5+, and Fe3+ among 26 types of metal ions, which considerably quench the fluorescence intensity of GQD.
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Advanced mechanotherapy: Biotensegrity for governing metastatic tumor cell fate via modulating the extracellular matrix
Parinaz Abdollahiyan,Fatemeh Oroojalian,Behzad Baradaran,Miguel de la Guardia,Ahad Mokhtarzadeh +4 more
TL;DR: In this article, the in-depth contribution of mechano-transduction is discussed during tumor progression, and how these consequences can be evaluated in vitro in the field of mechanotherapy.
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Chemical binding of molecular-imprinted polymer to biotinilated antibody: Utilization of molecular imprinting polymer as intelligent synthetic biomaterials toward recognition of carcinoma embryonic antigen in human plasma sample.
TL;DR: In this paper, a molecular imprinting polymer (MIP) methodology was used for recognition of CEA in real and clinical samples, and the binding affinity of the MIP system was significantly higher than that of revealed for the nonimprinted polymer (NIP) system, MIP-based biosensor revealed linear response from (0.005 to 75μg/L) and low limit of quantification of ( 0.005 ǫ) by using chronoamperometry technique.