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Posted:
7 years ago
2017年10月27日 GMT-4 04:53
Hi
What is the issue where you need Comsol? Mass transfer to the electrode? I suggest you to use the Electrochemistry module, if you have an access to it. It is not necessary but helps a lot. Just remember that the reaction rate r = i/(nF). The problem is that the reaction has a mechanism that affects on the rate law.
BR
Lasse
Hi
What is the issue where you need Comsol? Mass transfer to the electrode? I suggest you to use the Electrochemistry module, if you have an access to it. It is not necessary but helps a lot. Just remember that the reaction rate r = i/(nF). The problem is that the reaction has a mechanism that affects on the rate law.
BR
Lasse
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Posted:
7 years ago
2017年11月6日 GMT-5 10:31
Hi, Thanks for your reply. I need to know the current density (to perform a cyclic voltammetry) of the platinum electrode when oxidizing glucose. Not complete oxidation, but to gluconic acid.
Hi, Thanks for your reply. I need to know the current density (to perform a cyclic voltammetry) of the platinum electrode when oxidizing glucose. Not complete oxidation, but to gluconic acid.
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Posted:
7 years ago
2017年11月8日 GMT-5 02:12
Hi
Do you have an access to the electrochemistry module? Which version of Comsol are you using? I can provide a model that is made with the Transport of Diluted Species physics, no reaction enegineering is needed. I suppose that the reaction takes place in water. Hence, water does not need to be considered as a reactant because its concentration does not really vary due to the reaction, it is included in the reaction rate constant.
Because the reaction is irreversible, the rate law is
r = k·[glucose] = I/(2F)
Now, the rate constant k depends on the electrode potential in a way that depends on the reaction mechanism; it is not an easy task. Do you have any literature reference about it? Two electrons cannot be transferred simultaneously but in a cascade, and one of the reaction steps is rate determining with only one electron involved.
Best regards
Lasse
Hi
Do you have an access to the electrochemistry module? Which version of Comsol are you using? I can provide a model that is made with the Transport of Diluted Species physics, no reaction enegineering is needed. I suppose that the reaction takes place in water. Hence, water does not need to be considered as a reactant because its concentration does not really vary due to the reaction, it is included in the reaction rate constant.
Because the reaction is irreversible, the rate law is
r = k·[glucose] = I/(2F)
Now, the rate constant k depends on the electrode potential in a way that depends on the reaction mechanism; it is not an easy task. Do you have any literature reference about it? Two electrons cannot be transferred simultaneously but in a cascade, and one of the reaction steps is rate determining with only one electron involved.
Best regards
Lasse
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Posted:
7 years ago
2017年11月8日 GMT-5 03:56
Updated:
7 years ago
2017年11月8日 GMT-5 03:57
Hi, Thank you for the reply.
I am using v5.3 and have access to echem. There was a model of a 2D glucose sensor which I had referred to, initially. Instead, I am providing a 3D structure and have included a coarse platinum metal catalyst. One of the referred work is here, http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0038436.
As you said, the refernce also doesn't mention any on electron transfer nature. So, I started proceeding with including the reaction enginnering module and to perform a cyclic voltammetry on the intended structure. I also referred to the example model of 'fuel_cell_cathode'. And I was also considering water as a rectant. Will refer the model which you can provide.
Thanks in advance, Ram.
Hi, Thank you for the reply.
I am using v5.3 and have access to *echem*. There was a model of a 2D glucose sensor which I had referred to, initially. Instead, I am providing a 3D structure and have included a coarse platinum metal catalyst. One of the referred work is here, [http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0038436](http://).
As you said, the refernce also doesn't mention any on electron transfer nature. So, I started proceeding with including the reaction enginnering module and to perform a cyclic voltammetry on the intended structure. I also referred to the example model of 'fuel_cell_cathode'. And I was also considering water as a rectant. Will refer the model which you can provide.
Thanks in advance, Ram.
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Posted:
7 years ago
2017年11月8日 GMT-5 05:41
I have to digest this for a while...
I have to digest this for a while...
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Posted:
7 years ago
2017年11月9日 GMT-5 03:51
A simple model attached in 1D. The mechanism is hidden in the reaction order according to the attached paper.
A simple model attached in 1D. The mechanism is hidden in the reaction order according to the attached paper.