His work on Optics as part of general Iridescence study is frequently linked to Butterfly, bridging the gap between disciplines. His work on Optics is being expanded to include thematically relevant topics such as Iridescence and Visible spectrum. In most of his Optoelectronics studies, his work intersects topics such as Band gap and Visible spectrum. Qixin Guo performs multidisciplinary study in the fields of Band gap and Optoelectronics via his papers. His work in Nanotechnology is not limited to one particular discipline; it also encompasses Thin film. His studies link Nanotechnology with Thin film. Qixin Guo performs multidisciplinary study in the fields of Chemical engineering and Metallurgy via his papers. Qixin Guo integrates many fields in his works, including Metallurgy and Chemical engineering. His Composite material study frequently links to adjacent areas such as Porosity.
Qixin Guo links relevant study fields such as Doping, Photoluminescence and Band gap in the subject of Optoelectronics. His Doping study frequently draws connections to other fields, such as Optoelectronics. Much of his study explores Nanotechnology relationship to Thin film. His Thin film study frequently draws connections to other fields, such as Nanotechnology. Qixin Guo regularly ties together related areas like Chromatography in his Analytical Chemistry (journal) studies. His Chromatography study typically links adjacent topics like Analytical Chemistry (journal). His study ties his expertise on Organic chemistry together with the subject of Layer (electronics). Organic chemistry connects with themes related to Layer (electronics) in his study. In his study, Qixin Guo carries out multidisciplinary Optics and Laser research.
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Preparation of Cu2ZnSnS4 thin films by hybrid sputtering
Tooru Tanaka;Takeshi Nagatomo;Daisuke Kawasaki;Mitsuhiro Nishio.
Journal of Physics and Chemistry of Solids (2005)
Fabrication of Cu2ZnSnS4 thin films by co-evaporation
Tooru Tanaka;Daisuke Kawasaki;Mitsuhiro Nishio;Qixin Guo.
Physica Status Solidi (c) (2006)
Artificial inorganic leafs for efficient photochemical hydrogen production inspired by natural photosynthesis.
Han Zhou;Xufan Li;Tongxiang Fan;Frank E. Osterloh.
Advanced Materials (2010)
Temperature Dependence of Band Gap Change in InN and AlN
Qixin Guo;Akira Yoshida.
Japanese Journal of Applied Physics (1994)
Novel Photoanode Structure Templated from Butterfly Wing Scales
Wang Zhang;Di Zhang;Tongxiang Fan;Jiajun Gu.
Chemistry of Materials (2009)
Enhanced Light‐Harvesting and Photocatalytic Properties in Morph‐TiO2 from Green‐Leaf Biotemplates
Xufan Li;Tongxiang Fan;Han Zhou;Suk-Kwun Chow.
Advanced Functional Materials (2009)
Influence of composition ratio on properties of Cu2ZnSnS4 thin films fabricated by co-evaporation
Tooru Tanaka;Akihiro Yoshida;Daisuke Saiki;Katsuhiko Saito.
Thin Solid Films (2010)
Wide bandgap engineering of (AlGa)2O3 films
Fabi Zhang;Katsuhiko Saito;Tooru Tanaka;Mitsuhiro Nishio.
Applied Physics Letters (2014)
Thermal stability of indium nitride single crystal films
Qixin Guo;Osamu Kato;Akira Yoshida.
Journal of Applied Physics (1993)
Temperature dependence of Raman scattering in hexagonal indium nitride films
X. D. Pu;J. Chen;W. Z. Shen;H. Ogawa.
Journal of Applied Physics (2000)
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