Ag-CuO integrated polyaniline based impedimetric detection of cancer biomarker MUC1

[1]  G. Mohankumar,et al.  Vertically pillared α-Fe2O3 nanorods on carbon yarn as a textile-based stable immunosensor electrode for selective electrochemical sensing of interleukin-6 cancer biomarker , 2023, Sensors and Actuators A: Physical.

[2]  G. R. Chaudhary,et al.  MC-Au/MSS-Z8 porous network assisted advanced electrochemical immunosensing of 25-hydroxyvitamin D3. , 2023, Talanta.

[3]  Neethu Sebastian,et al.  Electrocatalytic Platform Based on Silver-Doped Sugar Apple-like Cupric Oxide Embedded Functionalized Carbon Nanotubes for Nanomolar Detection of Acetaminophen (APAP) , 2022, Sensors.

[4]  Yunhui Yang,et al.  Ratiometrically homogeneous electrochemical biosensor based on the signal amplified strategy of dual DNA nanomachines for microRNA analysis. , 2022, Talanta.

[5]  R. Singh,et al.  Recent developments and fabrication of the different electrochemical biosensors based on modified screen printed and glassy carbon electrodes for the early diagnosis of diverse breast cancer biomarkers , 2022, Materials Today Chemistry.

[6]  E. McConnell,et al.  Electrochemical DNAzyme-based biosensors for disease diagnosis. , 2022, Biosensors & bioelectronics.

[7]  Devendra Kumar,et al.  Ag-doped-CuO nanoparticles supported polyaniline (PANI) based novel electrochemical sensor for sensitive detection of paraoxon-ethyl in three real samples , 2022, Sensors and Actuators B: Chemical.

[8]  K. Rhee,et al.  Electrochemical biosensors based on polymer nanocomposites for detecting breast cancer: Recent progress and future prospects. , 2022, Advances in colloid and interface science.

[9]  B. Verma,et al.  Facile synthesis of graphene oxide-polyaniline-copper cobaltite (GO/PANI/CuCo2O4) hybrid nanocomposite for supercapacitor applications , 2022, Synthetic Metals.

[10]  I. C. Lekshmi,et al.  Biosensing of catechol via amperometry using laccase immobilized nickel oxide/graphite modified screen-printed electrodes , 2022, Materials Today: Proceedings.

[11]  A. Philominal,et al.  Green Synthesis of Pure and Silver Doped Copper Oxide Nanoparticles using Moringa Oleifera Leaf Extract , 2022, Materials Letters: X.

[12]  Richard S. Kwon,et al.  Timeline of development of pancreatic cancer and implications for successful early detection in high-risk individuals. , 2021, Gastroenterology.

[13]  K. Ounnunkad,et al.  A label-free multiplex electrochemical biosensor for the detection of three breast cancer biomarker proteins employing dye/metal ion-loaded and antibody-conjugated polyethyleneimine-gold nanoparticles. , 2021, Journal of materials chemistry. B.

[14]  Mian Hasnain Nawaz,et al.  Dopamine/mucin-1 functionalized electro-active carbon nanotubes as a probe for direct competitive electrochemical immunosensing of breast cancer biomarker , 2021 .

[15]  Nandi Zhou,et al.  An ultrasensitive biosensor for dual-specific DNA based on deposition of polyaniline on a self-assembled multi-functional DNA hexahedral-nanostructure. , 2021, Biosensors & bioelectronics.

[16]  Yujing Guo,et al.  A novel dual signal and label-free electrochemical aptasensor for mucin 1 based on hemin/graphene@PdPtNPs. , 2020, Biosensors & bioelectronics.

[17]  Qianhong Cen,et al.  A review on development of MUC1-based cancer vaccine. , 2020, Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie.

[18]  Jan Tkac,et al.  Electrochemical Nanobiosensors for Detection of Breast Cancer Biomarkers , 2020, Sensors.

[19]  M. Javed,et al.  Controlled synthesis of Ag-doped CuO nanoparticles as a core with poly(acrylic acid) microgel shell for efficient removal of methylene blue under visible light , 2020, Journal of Materials Science: Materials in Electronics.

[20]  Dejun Chen,et al.  DFT-Calculated IR Spectrum Amide I, II, and III Band Contributions of N-Methylacetamide Fine Components , 2020, ACS omega.

[21]  N. Prabhakar,et al.  An electrochemical aptasensor for analysis of MUC1 using gold platinum bimetallic nanoparticles deposited carboxylated graphene oxide. , 2020, Analytica chimica acta.

[22]  A. Suganthi,et al.  Fabrication, characterization of polyaniline intercalated NiO nanocomposites and application in the development of non-enzymatic glucose biosensor , 2020 .

[23]  M. Ozsoz,et al.  Electrochemical xanthine detection by enzymatic method based on Ag doped ZnO nanoparticles by using polypyrrole. , 2019, Bioelectrochemistry.

[24]  Liping Jia,et al.  A sensitive electrochemical aptasensor for Mucin 1 detection based on catalytic hairpin assembly coupled with PtPdNPs peroxidase-like activity. , 2019, Talanta.

[25]  S. Basu,et al.  Role of conducting polymer and metal oxide-based hybrids for applications in ampereometric sensors and biosensors , 2019, Microchemical Journal.

[26]  P. Solanki,et al.  Carbon dots-modified chitosan based electrochemical biosensing platform for detection of vitamin D. , 2018, International journal of biological macromolecules.

[27]  Akhtar Hayat,et al.  Carboxylic group riched graphene oxide based disposable electrochemical immunosensor for cancer biomarker detection. , 2018, Analytical biochemistry.

[28]  S. Ponnaiah,et al.  New Electrochemical Sensor Based on a Silver-Doped Iron Oxide Nanocomposite Coupled with Polyaniline and Its Sensing Application for Picomolar-Level Detection of Uric Acid in Human Blood and Urine Samples. , 2018, The journal of physical chemistry. B.

[29]  M. Shamsipur,et al.  A sandwich-type electrochemical aptasensor for determination of MUC 1 tumor marker based on PSMA-capped PFBT dots platform and high conductive rGO-N′1,N′3-dihydroxymalonimidamide/thionine nanocomposite as a signal tag , 2017 .

[30]  Oh Seok Kwon,et al.  Conducting Polymer Based Nanobiosensors , 2016, Polymers.

[31]  D. Vashaee,et al.  Determination of total aflatoxin using cysteamine-capped CdS quantum dots as a fluorescence probe , 2016, Colloid and Polymer Science.

[32]  Anran Chen,et al.  Constructing heterostructure on highly roughened caterpillar-like gold nanotubes with cuprous oxide grains for ultrasensitive and stable nonenzymatic glucose sensor. , 2015, Biosensors & bioelectronics.

[33]  J. Xiang,et al.  A simple and sensitive impedimetric aptasensor for the detection of tumor markers based on gold nanoparticles signal amplification. , 2015, Talanta.

[34]  J. Amani,et al.  Designing a recombinant chimeric construct contain MUC1 and HER2 extracellular domain for prediagnostic breast cancer , 2014, Tumor Biology.

[35]  A. Ramanavičius,et al.  Gold nanoparticle and conducting polymer-polyaniline-based nanocomposites for glucose biosensor design , 2013 .

[36]  Weishan Li,et al.  Polyaniline/mesoporous tungsten trioxide composite as anode electrocatalyst for high-performance microbial fuel cells. , 2013, Biosensors & bioelectronics.

[37]  Feng Xu,et al.  The Effect of a Small Amount of Water on the Structure and Electrochemical Properties of Solid-State Synthesized Polyaniline , 2012, Materials.

[38]  Liang Su,et al.  Pt nanoflower/polyaniline composite nanofibers based urea biosensor. , 2011, Biosensors & bioelectronics.

[39]  O. Akhavan,et al.  Copper oxide nanoflakes as highly sensitive and fast response self-sterilizing biosensors , 2011 .

[40]  D. Kufe,et al.  Mucin 1 C-Terminal Subunit Oncoprotein Is a Target for Small-Molecule Inhibitors , 2011, Molecular Pharmacology.

[41]  Hongrui Peng,et al.  Polyaniline–vanadium oxide hybrid hierarchical architectures assembled from nanoscale building blocks by homogeneous polymerization , 2009 .

[42]  Hao Zheng,et al.  Highly selective and stable glucose biosensor based on incorporation of platinum nanoparticles into polyaniline-montmorillonite hybrid composites , 2020 .