Nikolausz M.
37
Coauthors
8
Documentos
Volumen de publicaciones por año
Cargando gráfico
| Año de publicación | Num. Publicaciones |
|---|---|
| 2020 | 2 |
| 2021 | 1 |
| 2022 | 3 |
| 2023 | 2 |
Publicaciones por áreas de conocimiento
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| Área de conocimiento | Num. Publicaciones |
|---|---|
| Microbiología | 14 |
| Energía | 4 |
| Ciencia ambiental | 2 |
| Agricultura | 1 |
| Energía renovable | 1 |
| Ciencias Agrícolas | 1 |
| Fisiología | 1 |
Publicaciones por áreas temáticas
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| Área temática | Num. Publicaciones |
|---|---|
| Microorganismos, hongos y algas | 7 |
| Ecología | 2 |
| Tecnología de las bebidas | 1 |
| Huertos, frutas, silvicultura | 1 |
| Fisiología y materias afines | 1 |
| Ingeniería química | 1 |
| Ingeniería sanitaria | 1 |
| Técnicas, equipos y materiales | 1 |
Principales fuentes de datos
| Origen | Num. Publicaciones |
|---|---|
| Scopus | 8 |
| Google Scholar | 0 |
| RRAAE | 0 |
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Coautores destacados por número de publicaciones
| Coautor | Num. Publicaciones |
|---|---|
| Washington N. Logroño | 8 |
| Harms H. | 6 |
| Kleinsteuber S. | 5 |
| Sträuber H. | 2 |
| Schroeder B.G. | 2 |
| Kluge P. | 2 |
| Popp D. | 2 |
| Formann S. | 1 |
| Janke L. | 1 |
| Hahn A. | 1 |
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Top Keywords
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Publicaciones del autor
Physiological Effects of 2‐Bromoethanesulfonate on Hydrogenotrophic Pure and Mixed Cultures
ArticleAbstract: Mixed or pure cultures can be used for biomethanation of hydrogen. Sodium 2‐bromo-ethanesulfonate (BPalabras claves:acetic acid, Biological biogas upgrading, Biomethane, Formate dehydrogenase, Formate synthase, Formic acid, Homoacetogenesis, Methanogenesis, Power to gasAutores:Harms H., Kleinsteuber S., Nikolausz M., Washington N. LogroñoFuentes:scopusEnrichment of Anaerobic Microbial Communities from Midgut and Hindgut of Sun Beetle Larvae (Pachnoda marginata) on Wheat Straw: Effect of Inoculum Preparation
ArticleAbstract: The Pachnoda marginata larva have complex gut microbiota capable of the effective conversion of lignPalabras claves:anaerobic digestion, Carboxylates, enrichment, larva gut, lignocellulosic biomass, MethaneAutores:Harms H., Nikolausz M., Nunes da Rocha U., Schroeder B.G., Washington N. LogroñoFuentes:scopusEffect of Inoculum Microbial Diversity in Ex Situ Biomethanation of Hydrogen
ArticleAbstract: The effects of the inoculum origin, temperature or operational changes on ex situ biomethanation byPalabras claves:Biomethane, Homoacetogenesis, hydrogen, hydrogenotrophic methanogens, methanogenic communities, Power-to-Gas, RENEWABLE ENERGYAutores:Harms H., Kleinsteuber S., Kluge P., Nikolausz M., Washington N. LogroñoFuentes:scopusEffect of Alkaline and Mechanical Pretreatment of Wheat Straw on Enrichment Cultures from Pachnoda marginata Larva Gut
ArticleAbstract: In order to partially mimic the efficient lignocellulose pretreatment process performed naturally inPalabras claves:alkaline pretreatment, anaerobic digestion, Carboxylates, larvae gut enrichment, lignocellulosic biomass, Methane, wheat strawAutores:Harms H., İstanbullu H.B., Nikolausz M., Schmidt M., Schroeder B.G., Washington N. LogroñoFuentes:scopusMicrobial Communities in Flexible Biomethanation of Hydrogen Are Functionally Resilient Upon Starvation
ArticleAbstract: Ex situ biomethanation allows the conversion of hydrogen produced from surplus electricity to methanPalabras claves:anaerobic digester, biogas upgrading, Biomethane, Hydrogenotrophic methanogenesis, intermittent feeding, METHANOBACTERIUM, Power-to-Gas, Wastewater treatmentAutores:Harms H., Kleinsteuber S., Kluge P., Nikolausz M., Popp D., Washington N. LogroñoFuentes:scopus