Preparation, characterization and application of polyaniline nanospheres to biosensing

Dhand, Chetna; Das, Mukunda P.; Sumana, Gajjala; Srivastava, Avanish Kumar; Pandey, Manoj Kumar; Kim, Cheol Gi; Datta, Monika; Malhotra, Bansi D.

doi:10.1039/b9nr00346k

Cited by 95 publications

(53 citation statements)

References 40 publications

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“…Similarly, Dhand et al have investigated the performance of chemically fabricated PANI nanospheres and electrophoretically deposited nanostructured PANI as platform towards the fabrication of cholesterol biosensor. These studies have revealed that PANI nanospheres show better detection range with faster response time and shelf-life that may be attributed to the large aspect ratio of these films (Dhand et al, 2010). The integration of nanostructures and biomolecules may lead to new hybrid systems that couple the recognition or catalytic properties of biomaterials with attractive electronic and structural characteristics.…”

Section: Pani: An Efficient Materials For Biosensing Applicationmentioning

confidence: 98%

Recent advances in polyaniline based biosensors

Dhand

Das

Datta

et al. 2011

Biosensors and Bioelectronics

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467

257

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Section: Pani: An Efficient Materials For Biosensing Applicationmentioning

confidence: 98%

Recent advances in polyaniline based biosensors

Dhand

Das

Datta

et al. 2011

Biosensors and Bioelectronics

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467

257

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“…After this mediator has been immobilized on the electrode surface, LIP and GDH are covalently attached to PANI-SWCNT composite film via amide bond formation between the ÀNHÀ and ÀNH 2 groups of PANI and À COOH group of both the enzymes using EDC as the coupling agent and NHS as the activator (Scheme 1A) [29]. For the enzyme immobilization, the optimal binding is achieved when 50 mL solution of 50 mg LIP and 10 mL solution of 10 mg GDH mixed with 0.4 M EDC and 0.1 M NHS is dropped onto 1 cm 2 of PANI-SWCNT film and kept in a humid chamber for about 4 hours.…”

Section: Immobilization Of Tb Lip and Gdh Onto Pani-swcnt Composite mentioning

confidence: 99%

Polyaniline/Single‐Walled Carbon Nanotubes Composite Based Triglyceride Biosensor

et al. 2010

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Nanocomposite film comprising of polyaniline (PANI) and single walled carbon nanotubes (SWCNT) has been fabricated onto indium-tin-oxide (ITO) coated glass plate using electrophoretic technique. Co-immobilization of glycerol dehydrogenase (GDH) and lipase (LIP) has been done via N-ethyl-N'-(3-dimethylaminopropyl) carbodiimide and N-hydroxysuccinimide chemistry to explore its application for triglyceride (tributyrin) sensing. Response studies have been done using linear sweep voltammetry revealing that LIP-GDH/PANI-SWCNT-TB/ITO bioelectrode can detect tributyrin in the range of 50 to 400 mg dL À1 with low Michaelis-Menten constant of 1.138 mM, improved response time of 12 s, high sensitivity as 4.28 10 À4 mA mg À1 dL and storage stability of about 13 weeks.

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“…Doping with acid and base can interchange EB and emeraldine salt forms of PANI. EB is regarded as the most useful form of PANI due to its high stability at room temperature and its doped form is electrically conducting [19][20][21]. The conducting polymer of PANI might be greatly applied in many biosensors in virtue of its especial properties such as (1) high surface area and chemical specificities, (2) redox conductivity and polyelectrolyte characteristics, (3) direct and easy deposition on the electrode, (4) long-term environmental stability, and (5) control of thickness and low cost.…”

Section: Introductionmentioning

confidence: 99%

Fabrication of multiwalled carbon nanotube–polyaniline/platinum nanocomposite films toward improved performance for a cholesterol amperometric biosensor

Cheng

Tan

et al. 2015

Biotech and App Biochem

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A simple and high sensitive cholesterol amperometric biosensor, which is based on in situ electropolymerization of multi-walled carbon nanotube-polyaniline (MWCNT-PANI) nanocomposite and electrodeposition of platinum nanoparticle (nano-Pt) films onto the glassy carbon electrode surface for cholesterol oxidase immobilization, was constructed in this study. The preparation process of the modified electrode was characterized by cyclic voltammetry, electrochemical impedance spectroscopy, scanning electron microscopy, and chronoamperometry. Because of the synergistic electrocatalytic activity between MWCNT-PANI nanocomposites and nano-Pt, the cholesterol biosensor exhibited an excellent performance with a linear range of 2.0-510.0 µM, a detection limit of 0.8 µM (signal-to-noise ratio = 3), a high sensitivity of 109.9 µA mM , and a short response time within 5 Sec. Moreover, the reproducibility, stability, and selectivity of the biosensor were also investigated.

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Preparation, characterization and application of polyaniline nanospheres to biosensing

Cited by 95 publications

References 40 publications

Recent advances in polyaniline based biosensors

Recent advances in polyaniline based biosensors

Polyaniline/Single‐Walled Carbon Nanotubes Composite Based Triglyceride Biosensor

Fabrication of multiwalled carbon nanotube–polyaniline/platinum nanocomposite films toward improved performance for a cholesterol amperometric biosensor

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