Lihao Wang's research while affiliated with Qingdao University of Science and Technology and other places
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Publications (6)
Ultrasmall metal nanoclusters (MNCs, <3 nm) have emerged as a novel class of functional nanomaterials. Different from the prosperous development of noble MNCs, the fabrication of non‐noble MNCs remains a major challenge, which greatly curtails the advance of relevant application fields. Herein the authors put forward an in situ synthesis strategy o...
Developing highly efficient electrical-driven desalination techniques with minimum energy consumption and high stability is urgently required to settle the global water shortage. Herein, MoS2 nanoflakes-coated carbon nanofibers ([email protected]2) are synthesized via electrospinning and subsequent hydrothermal reaction. The [email protected]2 show...
Slow desalination kinetics and poor durability of the electrodes are two key limitations of electrochemical deionization (EDI) that are considered to be the next generation of capacitive desalination (CDI). Herein, we report the design of a high-efficiency chloride removal electrode material for accelerating the desalination kinetics and concurrent...
Citations
... The experiments were conducted using varying cut-off voltages of 0.8 V, 1.0 V, and 1.2 V, which were achieved through the utilization of a battery test system (SP-200, BioLogic Co.). The long-term stability of CLM electrode was studied by 30 cycles similar to previous studies [53][54][55][56][57]. The conductivity meter (Mettler Toledo S230) was utilized to continuously monitor and record the realtime conductivity of the NaCl solution. ...
... Wang et al. [100] synthesized Bi-containing polyacrylonitrile (PAN) precursor through electrostatic spinning and synthesized Bi/NCs@CNF electrode material after further calcination and pyrolysis. As shown in Fig. S2(a), SEM and EDS images of the material, it can be found that Bi/NCs@CNF has a three-dimensional carbon nanofiber (CNF) network structure and Bi, N, and C elements are evenly distributed on CNF. ...
... 11 Carbon-based nanomaterials have proven to be an effective carbon capture material, including the use of nanotubes and graphene. 8,12 Both graphene and carbon nanotubes can be doped with different functional groups to affect CO 2 adsorption. 12 Physisorption is an attractive mechanism for CO 2 sequestration because of the ease in regenerating the adsorbent through well-established pressure-swing or temperature-swing adsorption processes; however, these processes can be limited by their selectivity, free energy for sorption, and capacity. ...
... Our FeOOH-NS-based RCDI approach is found to lie in the upper-right region of the plot (compared with some other chloride intercalation-based CDI systems obtained from the literature), demonstrating its excellent kinetic performance. 32,33 Moreover, the cycling stability of the FeOOH-NS-based RCDI system was evaluated based on repeated desalinationsalination experiments at 50 mA g ¹1 (Figure 4e). The desalination capacity of the FeOOH-NS-based RCDI system remains stable during the cycling tests, and a performance degradation of only 16.8% is observed over 30 cycles. ...
... Furthermore, the surfaces of TMDs can be tuned with the aid of other materials to produce a well-defined crystal structure [141]. As for MoS 2 , Liu et al. [102] developed MoS 2 nanoflakes-coated carbon nanofibers (CNFs@MoS 2 ) that were fabricated using electrospinning, followed by hydrothermal reaction. The produced CNFs@MoS 2 nanofibers exhibited tremendous desalination performance in capacity deionization technology, e.g., a desalination capacity of 53 mg g − 1 and a desalination rate of 0.157 mg g − 1 s − 1 . ...