Northeastern University (China)

About: Northeastern University (China) is a education organization based out in Shenyang, China. It is known for research contribution in the topics: Microstructure & Control theory. The organization has 36087 authors who have published 36125 publications receiving 426807 citations. The organization is also known as: Dōngběi Dàxué & Northeastern University (东北大学).

Fiber optic SPR sensor for refractive index and temperature measurement based on MMF-FBG-MMF structure

Abstract: Fiber optic SPR (Surface Plasmon Resonance) sensor based on MMF-FBG-MMF (Multi-mode Fiber–Fiber Bragg Grating–Multi-mode Fiber) structure has been proposed and applied to dual-parameter measurement– liquid refractive index and temperature. The fabrication method of this proposed sensor is simpler than other kinds of fiber optic SPR sensors. The basic sensing principle of fiber optic SPR sensors has been provided and the dual-parameter measurement system has been set up. The changes of NaCl resolution refractive index and temperature have been detected and analyzed. The refractive index sensitivity of the proposed sensor has reached 2556.8 nm/RIU, and the temperature sensitivity has been improved to 172 pm/°C.

Tantalum (oxy)nitride based photoanodes for solar-driven water oxidation

Abstract: Photoelectrochemical (PEC) water splitting is a very promising process to produce hydrogen as a clean energy carrier. To achieve 10% solar to hydrogen (STH) conversion efficiency required for practical applications, the current central task in PEC water splitting is the development of efficient photoelectrodes, particularly photoanodes for water oxidation, used in PEC cells. Tantalum (oxy)nitrides with bandgaps ranging from 2.5 to 1.9 eV, corresponding to theoretical STH efficiencies varying from 9.3% to 20.9%, are considered a class of attractive light adsorbers for use in photoanodes for PEC water oxidation and have attracted much recent research attention. In this review, the recent development of tantalum (oxy)nitride photoanodes is summarized. Special interest is focused on the synthesis methods of tantalum (oxy)nitride films and important approaches for improving PEC conversion efficiency and stability of these films as photoanodes. The future trends of tantalum (oxy)nitride based photoanodes are also discussed.