Filter results
Content type
Publication Type
Tags
- (-) Fungi (3)
- (-) Crystal Structure (2)
- Viruses (10)
- Health (8)
- Soil Microbiology (8)
- Virology (8)
- Virus (8)
- PerCon SFA (5)
- Ions (4)
- Microbiome (4)
- Nanoparticles (4)
- sequencing (4)
- Electrical energy (3)
- Energy (3)
- Omics (3)
- RNA Sequence Analysis (3)
- Sodium (3)
- Synthetic Biology (3)
- Aggregation (2)
- Anions (2)
- Cations (2)
- Crystallization (2)
- Genomics (2)
- Mass Spectrometry (2)
- Metagenomics (2)
- Polymer Materials (2)
- Relativistic effects (2)
- Scattering (2)
- Solubility (2)
- Spectroscopy (2)
Category
Soil fungi facilitate the translocation of inorganic nutrients from soil minerals to other microorganisms and plants. This ability is particularly advantageous in impoverished soils, because fungal mycelial networks can bridge otherwise spatially disconnected and inaccessible nutrient hotspots...
Category
Particle-based crystallization is an important pathway to synthesize advanced materials with complex structures. Unlike monomer-by-monomer addition or Ostwald ripening, particle-based crystallization occurs via particle-by-particle addition to form larger crystals. This chapter reviews the...
Aluminate salts precipitated from caustic alkaline solutions exhibit a correlation between the anionic speciation and the identity of the alkali cation in the precipitate, with the aluminate ions occurring either in monomeric (Al(OH)4–) or dimeric (Al2O(OH)62–) forms. The origin of this correlation...
The accurate description of excited vibronic states is important for modeling a wide range of photoinduced processes. The nuclear–electronic orbital (NEO) approach, which treats specified protons on the same level as the electrons, can describe excited electronic–protonic states. Herein the...
The quantum mechanical treatment of both electrons and nuclei is crucial in nonadiabatic dynamical processes such as proton-coupled electron transfer. The nuclear−electronic orbital (NEO) method provides an elegant framework for including nuclear quantum effects beyond the Born–Oppenheimer...