Silva-MartÃnez, R.D.; Aguilar-Juárez, O.; DÃaz-Jiménez, L.; Valdez-Guzmán, B.E.; Aranda-Jaramillo, B.; Carlos-Hernández, S.
Biological Hydrogen Production Through Dark Fermentation with High-Solids Content: An Alternative to Enhance Organic Residues Degradation in Co-Digestion with Sewage Sludge. Fermentation 2025, 11, 398.
https://doi.org/10.3390/fermentation11070398
AMA Style
Silva-MartÃnez RD, Aguilar-Juárez O, DÃaz-Jiménez L, Valdez-Guzmán BE, Aranda-Jaramillo B, Carlos-Hernández S.
Biological Hydrogen Production Through Dark Fermentation with High-Solids Content: An Alternative to Enhance Organic Residues Degradation in Co-Digestion with Sewage Sludge. Fermentation. 2025; 11(7):398.
https://doi.org/10.3390/fermentation11070398
Chicago/Turabian Style
Silva-MartÃnez, Rodolfo Daniel, Oscar Aguilar-Juárez, Lourdes DÃaz-Jiménez, Blanca Estela Valdez-Guzmán, Brenda Aranda-Jaramillo, and Salvador Carlos-Hernández.
2025. "Biological Hydrogen Production Through Dark Fermentation with High-Solids Content: An Alternative to Enhance Organic Residues Degradation in Co-Digestion with Sewage Sludge" Fermentation 11, no. 7: 398.
https://doi.org/10.3390/fermentation11070398
APA Style
Silva-MartÃnez, R. D., Aguilar-Juárez, O., DÃaz-Jiménez, L., Valdez-Guzmán, B. E., Aranda-Jaramillo, B., & Carlos-Hernández, S.
(2025). Biological Hydrogen Production Through Dark Fermentation with High-Solids Content: An Alternative to Enhance Organic Residues Degradation in Co-Digestion with Sewage Sludge. Fermentation, 11(7), 398.
https://doi.org/10.3390/fermentation11070398