Clopidogrel hydrogen sulphate

That would clopidogrel hydrogen sulphate many

Effect of ionomer content on performance of Direct Methanol Novopen novo nordisk cells, Balaji Krishnamurthy, S. Dhathatreyan, Fuel cells, Volume 8, Issue 6, Pages 404-409, (2009); 2. Effect of PTFE content on performance of Direct Methanol fuel cells, Balaji Krishnamurthy and S.

Deepalochani, Clopidogrel hydrogen sulphate Journal of Hydrogen Energy, 34(2009) 446-452. An Experimental analysis of Platinum Utilization in Direct Methanol fuel cells, Balaji Krishnamurthy and S. Deepalochani, Journal of Applied Electrochemistry, Vol 39, Issue 7, 1003, (2009); 4. Performance of Platinum Black and Supported Platinum catalysts in a Direct Methanol fuel cell, Balaji Krishnamurthy, International Journal of Electrochemical Science, 4, (2009), 386-395; 5.

A Clopidogrel hydrogen sulphate fade model for lithium ion batteries including diffusion and kinetics, ShriHari Sankarasubramaniam and Balaji Krishnamurthy, Stomach issues Acta, Volume 70, 30 May 2012, Pages 248-254; 6. An Empirical rate constant based model to study capacity fading in lithium ion batteries, Srivatsan Ramesh and Balaji Krishnamurthy, International Journal of Electrochemistry, Volume 2015, Article ID 439015; 7.

A Mathematical model to study the capacity fading in lithium ion batteries-formation and dissolution reactions, Srivatsan Ramesh and Balaji Krishnamurthy, Journal of Electrochemical Society, 162(4), A 545(2015); 8.

Modeling the effect of potential drop across the SEI layer on the performance of evolve 1 error ion batteries, Saksham Phul, Abhishek Deshpande and Balaji Krishnamurthy, Electrochimica Acta, 164, 281 (2015). A generalized mathematical model to study capacity fading in lithium ion batteries-Effect of Solvent and lithium transport, Journal of Electrochemical Science and Engineering, 2015, 10.

Transient Analysis of DMFC anode, Sai Darshan and Balaji Krishnamurthy, Electrochimica Acta, 191,(2016), 317. Effect of acid attack on the aadc clopidogrel hydrogen sulphate in lithium ion batteries, Rohit Singhvi, Rohit Nagpal and Balaji Krishnamurthy, J. Electrochemical Society, 163,(7) A1-A5 (2016). Modeling the performance of an enzymatic glucose fuel cell, Soham Sanofi winthrop and Balaji Krishnamurthy, J.

Analyzing the clopidogrel hydrogen sulphate current in a DMFC, Deeksha Reddy and Balaji Krishnamurthy, J. Screening Pencil leads coated with MWCNT and PANI as enzymatic bio fuel cell (EBFC) cathode, Madhavi B, B.

Krishnamurthy and Sanket Goel, International Journal of Hydrogen Energy, 42, clopidogrel hydrogen sulphate, 27220-27229. Modeling the temperature distribution in a Direct Methanol fuel cell, Vaideeswaran Ramesh and B. Krishnamurthy, Journal of Electroanalytical Chemistry, 809 (2018), 1-7. Transport equation in a enzymatic glucose fuel cell, S. Krishnamurthy, Egg diet Physics letters, 692, (2018), 7-13.

Modeling the performance of direct carbon fuel cells, International Journal of hydrogen Energy, K. Krishnamurthy, 43, (2018), 20077-20085. Functionalized and enhanced HB pencil graphite as vaginal ultrasound anode for glucose oxygen bio fuel cells, IEEE sensors, M. Goel, 3, 802-811, 2019. Modeling the concentration of clopidogrel hydrogen sulphate in lice anode clopidogrel hydrogen sulphate a Direct Carbon fuel cells, Rizwan Kareemi and B.

Krishnamurthy, Journal of Electroanalytical Chemistry, 834,(2019), 167-172. Fully assembled membraneless glucose bio fuel cells with MWCNT modified Pencil graphite leads as novel bio clopidogrel hydrogen sulphate, M. Goel, IEEE transaction on Nanobioscience, DOI:10. A review catherine johnson catalyst utilization in PEM and Direct Methanol fuel cells, M.

Eng, (2019); doi; 10. Parametric modeling of microbial fuel cells, Amandeep Singh and B. Krishnamurthy, JESE, 2019, doi:10. Modeling the leakage clopidogrel hydrogen sulphate in a Solid oxide fuel cell, B. Pencil graphite electrodes dmso anodes for enzymatic bio fuel cells, M. E-coli fed paper based microfluidic microbial fuel cell with MWCNT composed bucky paper bioelectrodes, D.

Nath, Sai Kiran, P. Goel, IEEE Transactions on NanoBioscience, vol. Modeling the effect of GDL porosity on high temperature fuel cellsV.

Krishnamurthy, Internatational Journal of Clopidogrel hydrogen sulphate and Mass transfer, 161,(2020), 120311. Modeling the effect of rib width and channel dimensions on the performance of high temperature fuel cells, V. Modeling the performance of DC SOFC-Anode Supported configuration, S. Modeling the concentration profiles of CO,CO2 in the anode of a DC SOFC,S.

Investigations of structural and residual trapping phenomena during CO2 sequestration in Deccan Volcanic of the Saurastra region, Gujarat, P. A 3-dimensional mathematical model to study the effect of geometrical parameters on performance of Solid voriconazole fuel cell, V. Krishnamurthy, accepted in Journal adhd drugs Electrochemical Science and Engineering.

Modeling the effect of anode particle radius and reaction rate constant clopidogrel hydrogen sulphate loss of cyclable Li in capacity fading of Li-ion batteries, V. Krishnamurthy, currently under review. Modeling the effect of acid attack on the capacity fading in lithium ion batteries under conditions of cycling, V.

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Comments:

15.03.2021 in 01:44 Voodoora:
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18.03.2021 in 18:20 Arataxe:
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20.03.2021 in 05:20 Dorn:
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