What is he best known for?
The fields of study he is best known for:
- Organic chemistry
- Catalysis
- Oxygen
The scientist’s investigation covers issues in Phthalocyanine, Photochemistry, Polymer chemistry, Organic chemistry and Stereochemistry.
He interconnects Ruthenium, Ultraviolet visible spectroscopy, Physical chemistry, Excited state and Gallium in the investigation of issues within Phthalocyanine.
His research integrates issues of Indium, Dipole, Optical limiting, Nonlinear optics and Molecule in his study of Photochemistry.
His work carried out in the field of Polymer chemistry brings together such families of science as Denticity, Pyrazine, Inorganic chemistry and Polymer, Monomer.
Michael Hanack studied Polymer and Doping that intersect with Crystallography.
His studies deal with areas such as Chemical reaction, Medicinal chemistry and Inorganic compound as well as Stereochemistry.
His most cited work include:
- Conducting Stacked Metallophthalocyanines and Related Compounds (364 citations)
- Porphyrins and phthalocyanines as materials for optical limiting (354 citations)
- PERFLUOROALKANESULFONIC ESTERS: METHODS OF PREPARATION AND APPLICATIONS IN ORGANIC CHEMISTRY (295 citations)
What are the main themes of his work throughout his whole career to date?
Michael Hanack mainly investigates Medicinal chemistry, Polymer chemistry, Organic chemistry, Phthalocyanine and Photochemistry.
His research in Medicinal chemistry intersects with topics in Solvolysis, Aryl and Stereochemistry.
His work deals with themes such as Nickel, Ruthenium, Polymer, Monomer and Electrochemistry, which intersect with Polymer chemistry.
His Phthalocyanine study incorporates themes from Inorganic chemistry, Metal and Gallium.
His study explores the link between Metal and topics such as Crystallography that cross with problems in Doping.
The Photochemistry study combines topics in areas such as Molecule, Indium and Absorption spectroscopy.
He most often published in these fields:
- Medicinal chemistry (25.70%)
- Polymer chemistry (22.76%)
- Organic chemistry (21.69%)
What were the highlights of his more recent work (between 2000-2018)?
- Photochemistry (13.12%)
- Phthalocyanine (15.26%)
- Organic chemistry (21.69%)
In recent papers he was focusing on the following fields of study:
His primary areas of investigation include Photochemistry, Phthalocyanine, Organic chemistry, Polymer chemistry and Zinc.
His Photochemistry study integrates concerns from other disciplines, such as Fluorescence, Excited state, Molecule, Optical limiting and Absorption spectroscopy.
Michael Hanack combines subjects such as Triplet state, Indium, Nonlinear optics, Dimer and Gallium with his study of Phthalocyanine.
The study incorporates disciplines such as Characterization and Medicinal chemistry in addition to Organic chemistry.
The various areas that Michael Hanack examines in his Medicinal chemistry study include Trifluoromethyl and Stereochemistry.
His Polymer chemistry research is multidisciplinary, relying on both Ring, Tetra, Metal and Solubility.
Between 2000 and 2018, his most popular works were:
- Porphyrins and phthalocyanines as materials for optical limiting (354 citations)
- Molecular Engineering of Peripherally And Axially Modified Phthalocyanines for Optical Limiting and Nonlinear Optics (277 citations)
- Axially modified gallium phthalocyanines and naphthalocyanines for optical limiting (246 citations)
In his most recent research, the most cited papers focused on:
- Organic chemistry
- Catalysis
- Hydrogen
Michael Hanack spends much of his time researching Phthalocyanine, Photochemistry, Indium, Nonlinear optics and Nanosecond.
His Phthalocyanine study contributes to a more complete understanding of Organic chemistry.
His research is interdisciplinary, bridging the disciplines of Medicinal chemistry and Organic chemistry.
His Photochemistry research integrates issues from Naphthalocyanine, Dipole, Excited state, Optical limiting and Absorption spectroscopy.
The concepts of his Nonlinear optics study are interwoven with issues in Optoelectronics, Absorbance and Molecular engineering.
His Nanosecond research includes themes of Z-scan technique, Absorption, Fluorescence and Polymer.
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