ID 950206 - BioProject

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Accession: PRJNA950206 ID: 950206

Scaling up 3D-printing urine microbial fuel cells with membrane electrode assembly: treatment, performance, and microbial community analyses

This study aims to construct a low-cost, accessible and scalable urine MFC module based on 3D-printing technology, and to explore the factors affecting the performance of single-unit and stacked urine MFCs.

Accession	PRJNA950206
Data Type	Raw sequence reads
Scope	Multispecies
Submission	Registration date: 30-Mar-2023 National Taiwan University, NTU

Project Data:

Resource Name	Number of Links
Sequence data
SRA Experiments	20
Other datasets
BioSample	20

SRA Data Details

Parameter	Value
Data volume, Gbases	1
Data volume, Mbytes	641

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zh51a06.s1 Soares_fetal_liver_spleen_1NFLS_S1 Homo sapiens cDNA clone IMAGE:4155...
zh51a06.s1 Soares_fetal_liver_spleen_1NFLS_S1 Homo sapiens cDNA clone IMAGE:415570 3', mRNA sequence
gi|1391723|gnl|dbEST|588917|gb|W807

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Scaling up 3D-printing urine microbial fuel cells with membrane electrode assembly: treatment, performance, and microbial community analyses

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