H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Materials Science D-index 56 Citations 10,469 401 World Ranking 4233 National Ranking 1079

Overview

What is he best known for?

The fields of study he is best known for:

  • Ceramic
  • Composite material
  • Piezoelectricity

The scientist’s investigation covers issues in Piezoelectricity, Ceramic, Analytical chemistry, Mineralogy and Composite material. His Piezoelectricity research integrates issues from Tetragonal crystal system, Phase transition, Phase boundary and Ferroelectricity. The study incorporates disciplines such as Polarization, Sintering, Atmospheric temperature range, Poling and Dielectric in addition to Ceramic.

His research in Analytical chemistry tackles topics such as Doping which are related to areas like Crystal structure, Electrical resistivity and conductivity and Sodium. His work is dedicated to discovering how Mineralogy, Mixed oxide are connected with Scanning electron microscope and other disciplines. His studies deal with areas such as Thermal stability and Coercivity as well as Composite material.

His most cited work include:

  • Recent development in lead-free perovskite piezoelectric bulk materials (286 citations)
  • The structural origin of enhanced piezoelectric performance and stability in lead free ceramics (236 citations)
  • Piezoelectric and ferroelectric properties of [Bi0.5(Na1−x−yKxLiy)0.5]TiO3 lead-free piezoelectric ceramics (230 citations)

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

His main research concerns Ceramic, Piezoelectricity, Analytical chemistry, Dielectric and Composite material. His Ceramic study combines topics in areas such as Orthorhombic crystal system, Doping, Sintering, Mineralogy and Microstructure. His work carried out in the field of Piezoelectricity brings together such families of science as Tetragonal crystal system, Phase transition, Phase boundary and Curie temperature.

His Analytical chemistry research incorporates elements of X-ray crystallography, Perovskite, Crystal structure and Dopant. His research integrates issues of Nanotechnology, Electrical resistivity and conductivity and Poling in his study of Composite material. His Ferroelectricity research is multidisciplinary, incorporating perspectives in Polarization, Thin film and Coercivity.

He most often published in these fields:

  • Ceramic (53.78%)
  • Piezoelectricity (47.27%)
  • Analytical chemistry (43.70%)

What were the highlights of his more recent work (between 2017-2021)?

  • Ceramic (53.78%)
  • Piezoelectricity (47.27%)
  • Composite material (34.66%)

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

His scientific interests lie mostly in Ceramic, Piezoelectricity, Composite material, Dielectric and Analytical chemistry. His Ceramic research is multidisciplinary, relying on both Doping, Sintering, Crystal structure, Thermal stability and Microstructure. His studies deal with areas such as Phase transition, Ferroelectricity, Curie temperature, Optoelectronics and Ultrasonic sensor as well as Piezoelectricity.

He has included themes like Tetragonal crystal system, Polarization and Condensed matter physics in his Ferroelectricity study. His Tetragonal crystal system research focuses on subjects like Phase boundary, which are linked to Potassium sodium. The Analytical chemistry study which covers Monoclinic crystal system that intersects with Activation energy.

Between 2017 and 2021, his most popular works were:

  • Recent development in lead-free perovskite piezoelectric bulk materials (286 citations)
  • Ultrahigh Performance in Lead-Free Piezoceramics Utilizing a Relaxor Slush Polar State with Multiphase Coexistence. (69 citations)
  • Practical High Piezoelectricity in Barium Titanate Ceramics Utilizing Multiphase Convergence with Broad Structural Flexibility. (68 citations)

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

Recent development in lead-free perovskite piezoelectric bulk materials

Ting Zheng;Jiagang Wu;Dingquan Xiao;Jianguo Zhu.
Progress in Materials Science (2018)

433 Citations

Piezoelectric and ferroelectric properties of [Bi0.5(Na1−x−yKxLiy)0.5]TiO3 lead-free piezoelectric ceramics

Dunmin Lin;Dingquan Xiao;Jianguo Zhu;Ping Yu.
Applied Physics Letters (2006)

348 Citations

The structural origin of enhanced piezoelectric performance and stability in lead free ceramics

Ting Zheng;Haijun Wu;Yuan Yuan;Xiang Lv.
Energy and Environmental Science (2017)

232 Citations

Effects of K/Na ratio on the phase structure and electrical properties of (KxNa0.96-xLi0.04)(Nb0.91Ta0.05Sb0.04)O3 lead-free ceramics

Jiagang Wu;Dingquan Xiao;Yuanyu Wang;Jianguo Zhu.
Applied Physics Letters (2007)

226 Citations

Role of room-temperature phase transition in the electrical properties of (Ba, Ca)(Ti, Zr)O3 ceramics

Jiagang Wu;Dingquan Xiao;Wenjun Wu;Qiang Chen.
Scripta Materialia (2011)

211 Citations

Composition and poling condition-induced electrical behavior of (Ba0.85Ca0.15)(Ti1−xZrx)O3 lead-free piezoelectric ceramics

Jiagang Wu;Dingquan Xiao;Wenjuan Wu;Qiang Chen.
Journal of The European Ceramic Society (2012)

186 Citations

Lead-free piezoelectrics based on potassium-sodium niobate with giant d(33).

Binyu Zhang;Jiagang Wu;Xiaojing Cheng;Xiaopeng Wang.
ACS Applied Materials & Interfaces (2013)

182 Citations

Effects of Ag content on the phase structure and piezoelectric properties of (K0.44−xNa0.52Li0.04Agx)(Nb0.91Ta0.05Sb0.04)O3 lead-free ceramics

Jiagang Wu;Yuanyu Wang;Dingquan Xiao;Jianguo Zhu.
Applied Physics Letters (2007)

178 Citations

Compositional dependence of phase structure and electrical properties in (K0.42Na0.58)NbO3-LiSbO3 lead-free ceramics

Jiagang Wu;Dingquan Xiao;Yuanyu Wang;Jianguo Zhu.
Journal of Applied Physics (2007)

150 Citations

Colossal permittivity in titanium dioxide ceramics modified by tantalum and trivalent elements

Zhenwei Li;Jiagang Wu;Dingquan Xiao;Jianguo Zhu.
Acta Materialia (2016)

143 Citations

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