Chih-Chung Yang

What is he best known for?

The fields of study he is best known for:

• Quantum mechanics
• Optics
• Laser

His scientific interests lie mostly in Optoelectronics, Optics, Quantum well, Photoluminescence and Surface plasmon. In most of his Optoelectronics studies, his work intersects topics such as Electroluminescence. His Quantum well research incorporates themes from Indium and Semiconductor.

Chih-Chung Yang has included themes like Relaxation, Condensed matter physics, Exciton, Quantum dot and Stark effect in his Photoluminescence study. The Surface plasmon study combines topics in areas such as Thin film, Nanoparticle and Coupling. Chih-Chung Yang interconnects Metalorganic vapour phase epitaxy and Transmission electron microscopy in the investigation of issues within Wide-bandgap semiconductor.

His most cited work include:

• Dependence of composition fluctuation on indium content in InGaN/GaN multiple quantum wells (202 citations)
• Localized surface plasmon-induced emission enhancement of a green light-emitting diode. (156 citations)
• Ultrafast all‐optical switching in semiconductor nonlinear directional couplers at half the band gap (121 citations)

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

His primary areas of investigation include Optoelectronics, Optics, Quantum well, Photoluminescence and Light-emitting diode. Optoelectronics and Gallium nitride are commonly linked in his work. In his study, Silicon is inextricably linked to Doping, which falls within the broad field of Quantum well.

His research investigates the connection with Photoluminescence and areas like Thin film which intersect with concerns in Analytical chemistry. His Light-emitting diode research incorporates elements of Layer, Epitaxy and Etching. His Surface plasmon research is multidisciplinary, incorporating perspectives in Dipole and Surface plasmon resonance.

He most often published in these fields:

• Optoelectronics (53.56%)
• Optics (46.05%)
• Quantum well (26.28%)

What were the highlights of his more recent work (between 2013-2021)?

• Optoelectronics (53.56%)
• Light-emitting diode (17.79%)
• Surface plasmon (13.24%)

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

Chih-Chung Yang spends much of his time researching Optoelectronics, Light-emitting diode, Surface plasmon, Quantum well and Diode. The various areas that he examines in his Optoelectronics study include Layer, Nanorod and Optics. His Light-emitting diode study combines topics from a wide range of disciplines, such as Surface and Dry etching.

His Surface plasmon study also includes fields such as

• Dipole which is related to area like Effective radiated power,
• Scattering that connect with fields like Optical coherence tomography. His Quantum well research is multidisciplinary, incorporating elements of Stark effect, Transmission electron microscopy, Indium and Quantum efficiency. His Diode research includes elements of Current density, Absorption and Epitaxy.

Between 2013 and 2021, his most popular works were:

• Further reduction of efficiency droop effect by adding a lower-index dielectric interlayer in a surface plasmon coupled blue light-emitting diode with surface metal nanoparticles (33 citations)
• Combination of photothermal and photodynamic inactivation of cancer cells through surface plasmon resonance of a gold nanoring. (28 citations)
• Modulation behaviors of surface plasmon coupled light-emitting diode. (25 citations)

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

• Quantum mechanics
• Optics
• Laser

Chih-Chung Yang focuses on Optoelectronics, Light-emitting diode, Surface plasmon, Diode and Optics. He studies Photoluminescence which is a part of Optoelectronics. His Photoluminescence study combines topics in areas such as Indium and Excitation.

His research in Surface plasmon intersects with topics in Resonance and Dielectric. His study in Optics focuses on Wavelength in particular. His research integrates issues of Current density and Nanorod in his study of Quantum well.

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