K. Giribabu scite author profile

Minimizing the shuttle effect by constraining polysulfides to the cathode compartment and activating the passive layer between cathode and separator are highly important for improving the Li-S cell performance, Coulombic efficiency, and cycle life. Here, we report a submicron thin coating of permselective sulfonated poly(ether ether ketone) (SPEEK) composite layer on the separator that would reduce polysulfide crossover, imparting a significant improvement in cycle life. It is observed that SPEEK increases the stability, and adding Nafion improves the capacity value. Among different ratios of Nafion and SPEEK (25:75, 50:50, and 75:25), the composite with a SPEEK/Nafion ratio of 50:50 showed a controlled shuttle effect with a stable cell capacity of 600 mA h g up to 300 cycles. This modified separator with permselective coatings not only reduces the polysulfide shuttle but also improves the wettability and interfacial contact, which results in an improvement in average cell potential and lithium diffusivity. It is demonstrated here that the combination of functional (ionomer coating on separator) and nonfunctional (extra cathode layer) physical barriers effectively suppresses the polysulfide crossover and improves the electrochemical performance of Li-S batteries. The cell shows an initial capacity of 1300 mA h g and a capacity retention of 650 mA h g over 500 cycles with a 6 mg/cm sulfur loading.

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Fabrication of Ni–Fe2O3 magnetic nanorods and application to the detection of uric acid

Suresh

et al. 2014

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Doping of Ni into Fe 2 O 3 lattices has been achieved by co-precipitation followed by thermal decomposition method. The structural, morphological, and magnetic properties of the fabricated samples were investigated by X-ray diffraction (XRD) analysis, X-ray photoelectron spectroscopy (XPS), Fourier transformed infrared (FT-IR) spectroscopy, UV-visible absorption (UV-vis) spectroscopy, scanning electron microscopy (SEM), transmission electron microscopy (TEM), and vibrating sample magnetometry (VSM). The results reveal that the Ni is well doped within the lattices of Fe 2 O 3 . The Ni dopant suppresses the formation of more stable a-Fe 2 O 3 at higher calcination temperature. Further, the Ni-doped Fe 2 O 3 nanoparticles were used to fabricate an electrochemical sensor (Ni-Fe 2 O 3 /GCE) for the detection of uric acid (UA) in biological conditions by cyclic voltammetry (CV) and chronoamperometry (CA). It was found that 5%Ni-Fe 2 O 3 /GCE exhibits best response towards UA with less positive potential and larger current response. Furthermore, the sensor gives good linear current response in the concentration range of 6.6 to 112.4 mM with the higher sensitivity of 0.849 mA (mM cm 2 ) À1 . Such fabricated sensors are appropriate for newly emerging non-enzymatic electrochemical nanobiosensors.

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Pd nanospheres decorated reduced graphene oxide with multi-functions: Highly efficient catalytic reduction and ultrasensitive sensing of hazardous 4-nitrophenol pollutant

Vilian

Choe

Giribabu

et al. 2017

Journal of Hazardous Materials

155

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AgNWs-PANI nanocomposite based electrochemical sensor for detection of 4-nitrophenol

Zhang

Govindaraju

Giribabu

et al. 2017

Sensors and Actuators B: Chemical

154

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A review on chemical and electrochemical methodologies for the sensing of biogenic amines

et al. 2020

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K. Giribabu

Permselective SPEEK/Nafion Composite-Coated Separator as a Potential Polysulfide Crossover Barrier Layer for Li–S Batteries

Fabrication of Ni–Fe2O3 magnetic nanorods and application to the detection of uric acid

Pd nanospheres decorated reduced graphene oxide with multi-functions: Highly efficient catalytic reduction and ultrasensitive sensing of hazardous 4-nitrophenol pollutant

AgNWs-PANI nanocomposite based electrochemical sensor for detection of 4-nitrophenol

A review on chemical and electrochemical methodologies for the sensing of biogenic amines

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