Professor Gu Gang has published nearly 50 papers in famous international journals such as Nature Materials, Nano Letters, and Advanced Functional Materials. The highest single article (first author) has been cited more than 200 times, and he has applied for nearly ten U.S. national patents. indivual. The paper published in Nano Letters was widely cited in the professional textbook "Metal Oxide Nanostructures As Gas Sensing Devices". He is a reviewer for internationally renowned journals such as Small, Advanced Materials, and Advanced Functional Materials.
Professor Gu Gang’s original research achievements that have been highly praised internationally include: (1) Systematic research on the linear and nonlinear optical properties of fullerene materials; (2) Single-walled nanocarbons with high yield Vapor phase synthesis of tubes. The important role of hydrogen in the vapor phase synthesis of carbon nanotubes was discovered for the first time in the world. Discovered a new method of synthesizing nanocatalysts, and the patent application based on this method was authorized by the U.S. Patent Office (US Patent 7, 235, 159); (3) Chemical sensors based on work function changes of nanodevice electrodes. For the first time in the world, the concept of using changes in the work function of nanodevice electrodes to measure gases and biomolecules was proposed, and was experimentally confirmed. The patent application based on this concept was authorized by the United States Patent Office (US Patent 7, 052, 588); (4) The V2O5 nanofiber actuator was discovered for the first time in the world. The results were published in "Nature Materials". "Nature Materials" published a special article in the same issue to introduce this innovative achievement. This paper has been widely cited by scientists from various countries.
Professor Gu Gang’s main research achievements in the research and development department of MSA (a leading multinational company in Mine Safety Appliances sensors and safety instruments) are: (1) The organization includes junior scientists, testers, technicians and A team of operators optimizes the film synthesis process and technology to produce high-quality film gas sensors and enters the market; (2) Use new Al2O3 to improve the anti-toxic performance of catalytic combustion gas sensors; (3) Use MEMS technology The power consumption of the gas sensor is reduced; (4) a highly selective NH3 gas sensor is prepared; (5) the first attempt to industrialize a gas sensor using WO3 new material.