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Dr David Tiede   David Tiede (Chemical Sciences and Engineering Division, Argonne National Laboratory, USA)
General scientific interests: catalysis, diffuse scattering, metalloproteins, peptides, time-resolved studies.
Detailed scientific research interests: amorphous oxides, artificial photosynthesis, hydrogen reduction, metal oxide clusters, pair distribution function, photosynthesis, solar fuels, supramolecular chemistry, water-splitting.
Search for papers by Tiede, D. in Crystallography Journals Online | Google Scholar | Pubmed
Dr Victor Manuel Marquez Espinoza   Victor Manuel Marquez Espinoza (Chemical Engineering, 254 Phayathai Road, Wang Mai Subdistrict, Pathumwan District, Thailand)
General scientific interests: catalysis, defects, materials science, oxides, synchrotron radiation.
Detailed scientific research interests: Catalytic defective materials, Electrocatalysis, Electrocatalytic Hydrogenation, Electrochemical hydrogen evolution and oxygen evolution, High entropy materials, Photoelectrocatalysis for environmental applications and CO2 reduction.
Search for papers by Marquez Espinoza, V.M. in Crystallography Journals Online | Google Scholar | Pubmed
Dr Janice Rubin-Preminger   Janice Rubin-Preminger (Research and Development, Dexcel Pharma Technologies, Israel)
General scientific interests: aperiodic crystals, chemical crystallography, coordination chemistry, crystal chemistry, crystal engineering, crystal growth, data collection and processing, disorder, drug design, hydrogen bonding, incommensurate phases, inorganic compounds, liquid crystals, materials science, molecular recognition, organic compounds, organometallic compounds, phase determination, phase transitions, polymers, polymorphism, powder diffraction, quasicrystals, small molecules, structural chemistry, structure determination, teaching and education, texture, twinning, X-ray diffraction.
Detailed scientific research interests: Charged organic and organometallic materials such as salts and zwitterions., Hydrogen bonding and its effects on polymorphism and crystal engineering, Its parallel to halogen bonding, Structural control by changing growth conditions, X-ray data collection, data reduction and refinement..
Search for papers by Rubin-Preminger, J.M.. in Crystallography Journals Online | Google Scholar | Pubmed