1 |
MIN Xinzhe, ZHU Bin, LI Bo,et al.Interfacial solar vapor generation:Materials and structural design[J].Accounts of Materials Research,2021,2(4):198-209.
|
2 |
MENG Xiangyu, PENG Xiaoli, XUE Jing,et al.A biomass-derived,all-day-round solar evaporation platform for harvesting clean water from microplastic pollution[J].Journal of Materials Chemistry A,2021,9(17):11013-11024.
|
3 |
JIN Haichuan, LIN Guiping, BAI Lizhan,et al.Steam generation in a nanoparticle-based solar receiver[J].Nano Energy,2016,28:397-406.
|
4 |
GUO Ankang, FU Yang, WANG Gang,et al.Diameter effect of gold nanoparticles on photothermal conversion for solar steam generation[J].RSC Advances,2017,7(8):4815-4824.
|
5 |
GHASEMI H, NI G, MARCONNET A M,et al.Solar steam generation by heat localization[J].Nature Communications,2014,5:4449.
|
6 |
ZHOU Lin, TAN Yingling, WANG Jingyang,et al.3D self-assembly of aluminium nanoparticles for plasmon-enhanced solar desalination[J].Nature Photonics,2016,10(6):393-398.
|
7 |
ZHOU Lin, TAN Yingling, JI Dengxin,et al.Self-assembly of highly efficient,broadband plasmonic absorbers for solar steam generation[J].Science Advances,2016,2(4):e1501227.
|
8 |
王星瑶,顾宇飞,王鹏飞,等.聚吡咯壳聚糖复合气凝胶的制备及光热性能[J].功能高分子学报,2022,35(2):196-202.
|
|
WANG Xingyao, GU Yufei, WANG Pengfei,et al.Preparation and photothermal properties of polypyrrole chitosan composite aero-
|
|
gels[J].Journal of Functional Polymers,2022,35(2):196-202.
|
9 |
薛超瑞,李洋森,黄蕊蕊,等.BiOBr/Bi复合光热粉体的制备及其界面光热驱动水蒸发性能[J].复合材料学报,2022,39(7):3271-3280.
|
|
XUE Chaorui, LI Yangsen, HUANG Ruirui,et al.Preparation of BiOBr/Bi composite photothermal powder and its interfacial photothermal driven water evaporation performance[J].Acta Materiae Compositae Sinica,2022,39(7):3271-3280.
|
10 |
HU Xiaozhen, XU Weichao, ZHOU Lin,et al.Tailoring graphene oxide-based aerogels for efficient solar steam generation under one Sun[J].Advanced Materials,2017,29(5):1604031.
|
11 |
李亚玲,杨曙光,王义.石墨烯基复合水凝胶的制备及其在海水脱盐净化中的应用[J].东华大学学报(自然科学版),2021,47(6):1-6,28.
|
|
LI Yaling, YANG Shuguang, WANG Yi.Preparation of graphene-based composite hydrogels and its application in seawater desalination and purification[J].Journal of Donghua University(Natural Science),2021,47(6):1-6,28.
|
12 |
YIN Zhe, WANG Huimin, JIAN Muqiang,et al.Extremely black vertically aligned carbon nanotube arrays for solar steam generation[J].ACS Applied Materials & Interfaces,2017,9(34):28596-28603.
|
13 |
FANG Jing, LIU Jie, GU Jiajun,et al.Hierarchical porous carbonized lotus seedpods for highly efficient solar steam generation[J].Chemistry of Materials,2018,30(18):6217-6221.
|
14 |
ZHU Mengmeng, YU Jialiang, MA Cunlin,et al.Carbonized daikon for high efficient solar steam generation[J].Solar Energy Materials and Solar Cells,2019,191:83-90.
|
15 |
XUE Guobin, LIU Kang, CHEN Qian,et al.Robust and low-cost flame-treated wood for high-performance solar steam generati-
|
|
on[J].ACS Applied Materials & Interfaces,2017,9(17):15052-15057.
|
16 |
ZHU Mingwei, LI Yiju, CHEN Guang,et al.Tree-inspired design for high-efficiency water extraction[J].Advanced Materials,2017, 29(44):1704107.
|
17 |
XU Ning, HU Xiaozhen, XU Weichao,et al.Mushrooms as efficient solar steam-generation devices[J].Advanced Materials,2017,29(28):1606762.
|
18 |
FANG Wei, ZHAO Lei, HE Xuan,et al.Carbonized rice husk foam constructed by surfactant foaming method for solar steam generation[J].Renewable Energy,2020,151:1067-1075.
|
19 |
NI G, MILJKOVIC N, GHASEMI H,et al.Volumetric solar heating of nanofluids for direct vapor generation[J].Nano Energy,2015,17:290-301.
|
20 |
KANG Shifei, HE Maofen, YIN Chaochuang,et al.Graphitic carbon embedded with Fe/Ni nano-catalysts derived from bacterial precursor for efficient toluene cracking[J].Green Chemistry,2020,22(6):1934-1943.
|
21 |
CHEN Hui, ZHAO Lei, WANG Xitang,et al.Hybrid one-dimensional nanostructure based on biomorphic porous SiO2 through in situ catalytic pyrolysis of rice husk[J].Ceramics International,2015,41(4):6089-6097.
|
22 |
LI Xiuqiang, NI G, COOPER T,et al.Measuring conversion efficiency of solar vapor generation[J].Joule,2019,3(8):1798-1803.
|