Double-side solar hydrogen evolution nanopaper

Carbon nitride, regarded as a promising, environmentally friendly and sustainable photocatalyst for solar hydrogen generation, has shown a gradual improvement of photocatalytic activity with an apparent quantum yield up to 60%. However, it is still challenging to achieve flexible, efficient and scalable carbon nitride solar hydrogen evolution devices, limiting its practical application. Herein we report a visible-light-driven double-side hydrogen evolution nanopaper that is highly porous, crystalline and chemically stable. The nanopaper was fabricated via vacuum filtration of electrostatically self-assembled carbon nitride and nanocellulose. This nanopaper shows excellent mechanical properties with tensile strength of 18.5 MPa and Young's modulus of 414 MPa, a high hydrogen evolution rate of 3.9 mmol g(-1) h(-1) (corresponding to 6.5 mu mol cm(-2) h(-1)), and remarkable photostability over 32-h photocatalytic tests.