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1. ﮵ç³Ø
Ionic liquid/poly(ionic liquid)-based electrolytes for lithium batteries
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ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D2IM00051B
ÖÐÎĽâ¶Á£ºhttps://mp.weixin.qq.com/s/bKzv8DwcPD18-O-WFVUCZw
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ÒýÓãºInd. Chem. Mater., 2023, 1, 39-59
ÎÄÕÂÁÁµã:
¡ï ϵͳȫÃæµÄ×ܽáÁ˽üЩÄêÀ´Àë×ÓÒºÌå/¾ÛÀë×ÓÒºÌåÔÚҺ̬µç½âÖÊ¡¢£¨×¼£©¹Ì̬µç½âÖÊÒÔ¼°µç½âÖÊÌí¼Ó¼ÁÖеÄÑо¿¹¤×÷£»
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¡ï ½éÉÜÁËÀë×ÓÒºÌå/¾ÛÀë×ÓÒºÌåµç½âÖÊÔÚ﮵ç³ØÁìÓòµÄÇ°¾°ºÍÌôÕ½£¬ÎªÑо¿ÈËÔ±½øÒ»²½Ì½Ë÷¸ß°²È«ÐԺ͸ßÄÜÁ¿ÃܶȵÄ﮵ç³ØÌṩÁËÒ»¸öеķ½Ïò¡£
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2. ﮵ç³Ø
Design of functional binders for high-specific-energy lithium-ion batteries: from molecular structure to electrode properties
ÖпÆÔºÎïÀíËùÓíÏ°Ç«Ñо¿Ô±£º¸ß±ÈÄÜ﮵ç³Ø¹¦ÄÜÐÔÕ³½á¼ÁÉè¼Æ¡ª¡ª´Ó·Ö×ӽṹµ½µç¼«ÐÔÄÜ
ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D3IM00089C
ÖÐÎĽâ¶Á£ºhttps://mp.weixin.qq.com/s/U4JSFN4jEQy4V-p0g0RSIw
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ÒýÓãºInd. Chem.Mater., 2024, 10.1039/D3IM00089C
ÎÄÕÂÁÁµã:
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3. ﮵ç³Ø
Recent progress and challenges in silicon-based anode materials for lithium-ion batteries
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ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D3IM00115F
ÖÐÎĽâ¶Á£ºhttps://mp.weixin.qq.com/s/YhoeNZLMtmYs3aoAv_5oFQ
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ÒýÓãºInd. Chem. Mater., 2024, 10.1039/D3IM00115F
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4. ﮵ç³Ø
Large-scale direct regeneration of LiFePO4@C based on spray drying
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ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D2IM00007E
ÖÐÎĽâ¶Á£ºhttps://mp.weixin.qq.com/s/WZB016--oSORtBGvZ3tsDw
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ÒýÓãºInd. Chem. Mater., 2023, 1, 254-261
ÎÄÕÂÁÁµã:
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¡ï ÔÙÉúµÄLFP@C±íÏÖ³öÁ¼ºÃµÄ²ÄÁÏÐÔÖÊÓëÓÅÐãµÄµç»¯Ñ§ÐÔÄÜ£¬ÔÙÉúЧ¹ûÏÔÖø¡£
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5. ﮵ç³Ø
Preparation of yolk¨Cshell urchin-like porous Co3O4/NiO@C microspheres with excellent lithium storage performance
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ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D2IM00017B
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ÒýÓãºInd. Chem. Mater., 2023, 1, 247-253
ÎÄÕÂÁÁµã:
¡ï Yolk¨Cshell urchin-like porous Co3O4/NiO@C microspheres were synthesized via solvothermal method and annealing treatment. A high reversible capacity of 502.7 mA h g−1 was maintained after 1000 cycles at 5 C, showing the long cycling stability.
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6. пÀë×Óµç³Ø
Stable zinc anode by regulating the solvated shell and electrode¨Celectrolyte interface with a sodium tartrate additive
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ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D3IM00111C
ÖÐÎĽâ¶Á£ºhttps://mp.weixin.qq.com/s/U4jltCn2fNnq4JZM3x_X2Q
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ÒýÓãºInd. Chem. Mater., 2024, 10.1039/D3IM00111C
ÎÄÕÂÁÁµã:
¡ï STAÓëZn2+ÓÅÏÈÅä룬¹¹½¨Æ½Ì¹¡¢¾ùÔÈÖÂÃܵĵ缫-µç½âÖʽçÃ棬ÓÕµ¼¾ùÔȳÁ»ý¡¢ÏÞÖÆZn2+µÄ¶þάÀ©É¢£¬ÒÖÖÆÖ¦¾§Éú³¤£»
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7. ³¬¼¶µçÈÝÆ÷
Understanding the charging of supercapacitors by electrochemical quartz crystal microbalance
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ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D2IM00038E
ÖÐÎĽâ¶Á£ºhttps://mp.weixin.qq.com/s/UY5vwz04VGffcUo-vcmcmA
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ÒýÓãºInd. Chem. Mater., 2023, 1, 175-187
ÎÄÕÂÁÁµã:
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8. ³¬¼¶µçÈÝÆ÷
Tunable construction of CuS nanosheets@flower-like ZnCo-layered double hydroxide nanostructures for hybrid supercapacitors
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ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D3IM00027C
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ÒýÓãºInd. Chem. Mater., 2023, 1, 443-457
ÎÄÕÂÁÁµã:
¡ï CuS nanosheets@ZnCo-LDH nanoflower nanostructures are synthesized for hybrid supercapacitors.
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9. Ì«ÑôÄܵç³Ø
Recent progress in non-fused ring electron acceptors for high performance organic solar cells
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ÎÄÕÂÁ´½Ó£ºhttps://doi.org/10.1039/D2IM00037G
ÖÐÎĽâ¶Á£ºhttps://mp.weixin.qq.com/s/6P4W-VxEktfiSASht7PSdA
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ÒýÓãºInd. Chem. Mater., 2023, 1, 60-78
ÎÄÕÂÁÁµã:
¡ï ϵͳ½éÉÜÁË·Ç³í»·ÊÜÌå²ÄÁÏ£¨°üÀ¨¾ßÓиøµç×Ӻˡ¢È±µç×Ӻˡ¢ÍêÈ«·Ç³í»·½á¹¹£©µÄÉè¼Æ²ßÂԺͽṹ-ÐÔÄÜÖ®¼äµÄ¹Øϵ¼°×îÐÂÑо¿½øÕ¹£»
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