posted on 2024-07-31, 03:29authored byZheyu Tian, Qing Chang, Zhenghong Liu, Chaorui Xue, Ning Li, Suping Jia, Xiangqian Fan, Jinlong Yang, Shengliang Hu
In this study, the electric energy harvesting capability
of the
hierarchical pore gradient silica aerogel (HPSA) is demonstrated due
to its unique porous structure and inherent hydroxyl groups on the
surface. Taking advantage of the positively charged surface of unwashed
HPSA credited by the preparation strategy, poly(4-styrene sulfonic
acid) (PSS) can be spontaneously adsorbed onto unwashed HPSA and shows
gradient distribution due to the pore-gradient structure of HPSA.
By virtue of the gradient distribution and the stronger ionization
of PSS, PSS-modified HPSA (PSS–HPSA) shows enhanced electricity
generation performance from natural water evaporation with an average
output voltage of 0.77 V on an individual device. The water evaporation-induced
electricity property of PSS–HPSA can be maintained in the presence
of a low concentration of salt. The desirable salt resistance capability
benefits from the unique 3D hierarchical porous structure of HPSA
which ensures rapid water replenishment so as to effectively avoid
the salt accumulation. The HPSA-based devices with the advantages
of unique porous structure, easy functionalization, good physicochemical
stability, good salt resistance capability, and eco-friendliness show
great potential as water evaporation-induced electricity generators.