D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Materials Science D-index 77 Citations 29,789 319 World Ranking 1230 National Ranking 84
Chemistry D-index 74 Citations 25,423 314 World Ranking 2005 National Ranking 159

Overview

What is he best known for?

The fields of study he is best known for:

  • Polymer
  • Organic chemistry
  • Composite material

The scientist’s investigation covers issues in Polymer, Electrospinning, Nanofiber, Nanotechnology and Liquid crystal. His Polymer research integrates issues from Self-assembly, Nanotube, Chemical engineering and Polymer chemistry. His work carried out in the field of Electrospinning brings together such families of science as Fiber, Synthetic fiber, Microfluidics and Optoelectronic materials.

His Nanofiber research includes elements of Biodegradable polymer, Core shell and Spinning. His Nanotechnology research is multidisciplinary, incorporating perspectives in Tissue engineering, Porosity, Nanometre and Surface modification. His Liquid crystal study combines topics from a wide range of disciplines, such as Crystallography, Side chain and Electron mobility.

His most cited work include:

  • Electrospinning: A Fascinating Method for the Preparation of Ultrathin Fibers (3126 citations)
  • Use of electrospinning technique for biomedical applications (1219 citations)
  • Nanostructured Fibers via Electrospinning (970 citations)

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

Joachim H. Wendorff focuses on Polymer, Liquid crystal, Polymer chemistry, Crystallography and Organic chemistry. He combines subjects such as Nanofiber, Nanotechnology and Chemical engineering with his study of Polymer. His Liquid crystal research focuses on subjects like Phase, which are linked to Chemical physics.

His Polymer chemistry research incorporates elements of Glass transition, Amorphous solid, Condensation polymer, Poly and Dielectric. His research in Crystallography intersects with topics in Mesophase, Columnar phase, Discotic liquid crystal, Triphenylene and Stereochemistry. His Electrospinning study results in a more complete grasp of Composite material.

He most often published in these fields:

  • Polymer (35.29%)
  • Liquid crystal (29.67%)
  • Polymer chemistry (26.60%)

What were the highlights of his more recent work (between 2006-2017)?

  • Nanofiber (13.81%)
  • Electrospinning (14.83%)
  • Polymer (35.29%)

In recent papers he was focusing on the following fields of study:

His primary areas of investigation include Nanofiber, Electrospinning, Polymer, Nanotechnology and Chemical engineering. His biological study spans a wide range of topics, including Tissue engineering, Fiber, Biophysics, Osteoblast and Mesenchymal stem cell. His Electrospinning study incorporates themes from Aqueous solution, Synthetic fiber and Polymer chemistry, Spinning.

The study incorporates disciplines such as Crystallography, Porosity, Composite number and Liquid crystal in addition to Polymer. His Nanotechnology study integrates concerns from other disciplines, such as Wetting and Ceramic. His Chemical engineering study combines topics from a wide range of disciplines, such as Biomass and Spirulina.

Between 2006 and 2017, his most popular works were:

  • Electrospinning: A Fascinating Method for the Preparation of Ultrathin Fibers (3126 citations)
  • Use of electrospinning technique for biomedical applications (1219 citations)
  • Functional materials by electrospinning of polymers (569 citations)

In his most recent research, the most cited papers focused on:

  • Organic chemistry
  • Polymer
  • Composite material

Joachim H. Wendorff focuses on Electrospinning, Nanofiber, Nanotechnology, Polymer and Tissue engineering. The Electrospinning study combines topics in areas such as Nanoparticle, Microfluidics, Polymer chemistry and Synthetic fiber. His work in Nanofiber addresses issues such as Spinning, which are connected to fields such as Thermoplastic and Elasticity.

His studies deal with areas such as Fiber, Surface modification and Anisotropy as well as Nanotechnology. He has included themes like Self-assembly, Porosity and Chemical engineering, Nanometre in his Polymer study. His Nanometre research integrates issues from Scientific method and Fusible alloy.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Electrospinning: A Fascinating Method for the Preparation of Ultrathin Fibers

Andreas Greiner;Joachim H. Wendorff.
Angewandte Chemie (2007)

4752 Citations

Use of electrospinning technique for biomedical applications

Seema Agarwal;Joachim H. Wendorff;Andreas Greiner.
Polymer (2008)

1819 Citations

Nanostructured Fibers via Electrospinning

Michael Bognitzki;Wolfgang Czado;Thomas Frese;Andreas Schaper.
Advanced Materials (2001)

1434 Citations

Compound core-shell polymer nanofibers by co-electrospinning

Zaicheng Sun;Eyal Zussman;Alexander L. Yarin;Joachim H. Wendorff.
Advanced Materials (2003)

1233 Citations

Polymer nanotubes by wetting of ordered porous templates.

Martin Steinhart;Joachim H. Wendorff;Andreas Greiner;Ralf B. Wehrspohn.
Science (2002)

1009 Citations

Functional materials by electrospinning of polymers

Seema Agarwal;Andreas Greiner;Joachim H. Wendorff.
Progress in Polymer Science (2013)

828 Citations

Reversible digital and holographic optical storage in polymeric liquid crystals

Manfred Eich;Joachim H. Wendorff;Bernd Reck;Helmut Ringsdorf.
Die Makromolekulare Chemie, Rapid Communications (1987)

619 Citations

Model considerations and examples of enantiotropic liquid crystalline polymers. Polyreactions in ordered systems, 14

Heino Finkelmann;Helmut Ringsdorf;Joachim H. Wendorff.
Macromolecular Chemistry and Physics (1978)

562 Citations

Nanotubes by template wetting: a modular assembly system.

Martin Steinhart;Ralf B. Wehrspohn;Ulrich Gösele;Joachim H. Wendorff.
Angewandte Chemie (2004)

525 Citations

Polymer, Metal, and Hybrid Nano‐ and Mesotubes by Coating Degradable Polymer Template Fibers (TUFT Process)

Michael Bognitzki;Haoqing Hou;Michael Ishaque;Thomas Frese.
Advanced Materials (2000)

505 Citations

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