Monika Schönhoff

What is she best known for?

The fields of study Monika Schönhoff is best known for:

• Ion
• Electrolyte
• Molecule

Monika Schönhoff combines Organic chemistry and Imide in her studies. Her study deals with a combination of Catalysis and Ionic liquid. She merges Ionic liquid with Catalysis in her research. Monika Schönhoff brings together Ion and Salt (chemistry) to produce work in her papers. With her scientific publications, her incorporates both Salt (chemistry) and Ion. Monika Schönhoff integrates many fields in her works, including Molecule and Crystallography. Monika Schönhoff integrates Crystallography with Molecule in her research. Monika Schönhoff combines Nanotechnology and Nanopore in her research. Monika Schönhoff performs multidisciplinary study on Nanopore and Nanotechnology in her works.

Her most cited work include:

• Melting and freezing of water in cylindrical silica nanopores (280 citations)
• Enhanced Lithium Transference Numbers in Ionic Liquid Electrolytes (190 citations)
• Negative effective Li transference numbers in Li salt/ionic liquid mixtures: does Li drift in the “Wrong” direction? (111 citations)

What are the main themes of her work throughout her whole career to date

Organic chemistry is closely attributed to Phase (matter) in her research. Her Organic chemistry research extends to the thematically linked field of Phase (matter). Her Quantum mechanics study frequently draws connections to adjacent fields such as Spectral line. Her study connects Quantum mechanics and Spectral line. Her Thermodynamics study frequently draws connections to other fields, such as Thermal conductivity. Her study in Thermodynamics extends to Thermal conductivity with its themes. Monika Schönhoff performs multidisciplinary studies into Ion and Ionic bonding in her work. In her research, she performs multidisciplinary study on Ionic bonding and Ion. She integrates Physical chemistry and Inorganic chemistry in her studies.

Monika Schönhoff most often published in these fields:

• Organic chemistry (65.00%)
• Quantum mechanics (45.00%)
• Thermodynamics (45.00%)

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