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\u4e00\u3001\u9ea6\u7acb\u5f3a\u6559\u6388\u6210\u679c\u7b80\u4ecb<\/h3>\n

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1\u3001Yolk-shell-structured zinc-cobalt binary metal sulfide @ N-doped carbon for enhanced lithium-ion storage1<\/sup><\/strong><\/p>\n

\u8fd9\u662f\u4e00\u7bc7\u5e94\u7528\u53cc\u91d1\u5c5e\u786b\u5316\u7269\u4e8e\u9502\u79bb\u5b50\u7535\u6c60\u65b9\u5411\u7684\u6587\u7ae0\uff0c\u4f5c\u8005\u4ee5Zn\/Co-ZIF-67\u4e3a\u6a21\u677f\uff0c\u5728\u5176\u8868\u9762\u5305\u8986\u4e00\u5c42PDA\uff0c\u6700\u540e\u5728\u6c2e\u6c14\u6c1b\u56f4\u4e0b\u9000\u706b\uff0c\u53ca\u5f97\u5230\u86cb\u9ec4\u58f3\u72b6\u4ea7\u7269\u3002<\/p>\n

\u56fe\u4e00\u00a0Zn-Co-S @ N-C\u5236\u5907\u793a\u610f\u56fe<\/p>\n

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\u56fe\u4e8c\u00a0Zn-Co-S @ N-C\u5f62\u8c8c\u8868\u5f81<\/p>\n

\"\"<\/p>\n

\u56fe\u4e09\u00a0Zn-Co-S @ N-C\u7535\u5316\u5b66\u6027\u80fd<\/p>\n

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2\u3001Deep Reconstruction of Nickel-Based Precatalysts for Water Oxidation Catalysis2<\/sup><\/strong><\/p>\n

\u6c27\u6c14\u6790\u51fa\u53cd\u5e94\uff08OER\uff09\u5bf9\u50ac\u5316\u5242\u7684\u91cd\u6784\u901a\u5e38\u5bfc\u81f4\u50ac\u5316\u5242\u8868\u9762\u6d3b\u6027\u4f4d\u70b9\u51cf\u5c11\uff0c\u56e0\u6b64\u50ac\u5316\u6d3b\u6027\u964d\u4f4e\u3002\u672c\u7814\u7a76\u4e2d\uff0c\u63d0\u51fa\u4e86\u4e00\u79cd\u6df1\u5ea6\u91cd\u6784\u7684\uff08DR\uff09\u50ac\u5316\u5242\uff0c\u8be5\u50ac\u5316\u5242\u662f\u7531\u5c0f\u4e8e10 nm\u7684\u9884\u50ac\u5316\u5242\u884d\u751f\u800c\u6765\u7684\uff0c\u5b83\u80fd\u5b9e\u73b0\u9ad8\u6d3b\u6027\u50ac\u5316\u3002\u7814\u7a76\u8005\u901a\u8fc7\u9502\u5316\u8bf1\u5bfc\u7684\u6df1\u5c42\u91cd\u5efa\u7b56\u7565\uff0c\u83b7\u5f97\u4e86\u7531\u4f4e\u4e8e5 nm\u7eb3\u7c73\u9897\u7c92\u4e92\u8fde\u7684\u5177\u6709\u591a\u5c42\u7eb3\u7c73\u7247\u7ed3\u6784\u7684DR-NiOOH\u3002\u4e0e\u672a\u6df1\u5ea6\u91cd\u5efa\u7684Ni@NiOOH\u76f8\u6bd4\uff0c\u5177\u6709\u4e30\u5bcc\u6d3b\u6027\u4f4d\u70b9\u7684DR-NiOOH\u4f7f\u5176\u6d3b\u6027\u663e\u8457\u63d0\u9ad8\uff08\u57285mA mg-1<\/sup>\u65f6\uff0cOER\u8fc7\u7535\u52bf\u964d\u4f4e170 mV\uff09\uff0c\u5e76\u5177\u6709\u66f4\u597d\u7684\u8010\u4e45\u6027\uff08> 10\u5929\uff09\u3002\u5b83\u5177\u6709\u5f88\u5f3a\u7684\u8010\u8150\u8680\u6027\uff0830 wt\uff05KOH\uff0c72\u5c0f\u65f6\uff09\u548c\u5f88\u9ad8\u7684\u70ed\u7a33\u5b9a\u6027\uff0852.8\u2103\uff0c> 40\u5c0f\u65f6\uff09\u3002\u7406\u8bba\u5206\u6790\u8bc1\u660e\u6b63\u4ea4\u6676\u5f62NiOOH\u4e0a\u8986\u76d6\u7684\u4e0d\u9971\u548cOH\u5177\u6709\u826f\u597d\u7684OER\u6d3b\u6027\u3002\u8fd9\u9879\u5de5\u4f5c\u51f8\u663e\u4e86\u6df1\u5ea6\u91cd\u6784\u50ac\u5316\u5242\u5728\u73b0\u5b9e\u6761\u4ef6\u4e0b\u5bf9\u6f5c\u5728\u50ac\u5316\u5e94\u7528\u7684\u4f18\u52bf\u3002<\/p>\n

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3\u3001Two-Dimensional Mesoporous Heterostructure Delivering Superior Pseudocapacitive Sodium Storage via Bottom-Up Monomicelle Assembly3<\/sup><\/strong><\/p>\n

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4\u3001Magnesium storage performance and mechanism of CuS cathode4<\/sup><\/strong><\/p>\n

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\"\"<\/p>\n

5\u3001Nickel-iron bimetallic diselenides with enhanced kinetics for high-capacity and long-life magnesium batteries5<\/sup><\/strong><\/p>\n

\u91d1\u5c5e\u7852\u5316\u7269\u662f\u53e6\u4e00\u79cd\u6709\u524d\u666f\u7684\u9541\u7535\u6c60\u6b63\u6781\u6750\u6599\u3002\u5728\u672c\u6587\u4e2d\uff0c\u7814\u7a76\u8005\u9996\u6b21\u62a5\u9053\u4e86\u4ee5Ni-Fe\u53cc\u91d1\u5c5e\u4e8c\u7852\u5316\u7269\u5fae\u7c73\u82b1\uff08Ni0.75<\/sub>Fe0.25<\/sub>Se2<\/sub>\uff0cNFS\uff09\u4f5c\u4e3a\u53ef\u5145\u7535\u9541\u7535\u6c60\u7684\u6b63\u6781\u6750\u6599\u3002\u8be5NFS\u6b63\u6781\u5177\u6709190 mA h g-1<\/sup>\u7684\u53ef\u9006\u5bb9\u91cf\u548c\u51fa\u8272\u7684Mg\u5b58\u50a8\u5faa\u73af\u7a33\u5b9a\u6027\uff08\u5373\u4f7f\u7ecf\u8fc7500\u6b21\u5faa\u73af\u4e5f\u5177\u6709148 mA h g-1<\/sup>\uff09\u3002\u4e0e\u4e00\u5143\u8fc7\u6e21\u91d1\u5c5e\u4e8c\u7852\u5316\u7269\uff08NiSe2<\/sub>\uff0cNS\uff09\u76f8\u6bd4\uff0cNFS\u663e\u793a\u51fa\u66f4\u591a\u7684\u6c27\u5316\u8fd8\u539f\u6d3b\u6027\u4f4d\u70b9\u548c\u66f4\u9ad8\u7684Mg2+<\/sup>\u6269\u6563\u901f\u7387\uff0c\u4ece\u800c\u5e26\u6765\u4e86\u4f18\u5f02\u7684\u53ef\u9006\u5bb9\u91cf\u548c\u957f\u5faa\u73af\u5bff\u547d\u3002\u6b64\u5916\uff0c\u57fa\u4e8e\u7535\u4f4d\u5dee\uff0c\u7814\u7a76\u8005\u63d0\u51fa\u4e86NFS\u5d4c\u9541\/\u8131\u9541\u8fc7\u7a0b\u987a\u5e8f\u53cd\u5e94\u7684\u6982\u5ff5\uff0c\u5e76\u901a\u8fc7\u7535\u5316\u5b66\u6d4b\u91cf\u548c\u7ed3\u6784\u8868\u5f81\u5f97\u5230\u8bc1\u660e\u3002\u672c\u6587\u4e3a\u6784\u9020\u53ef\u5145\u7535\u9541\u7535\u6c60\u7684\u9ad8\u6027\u80fd\u6b63\u6781\u6750\u6599\u94fa\u5e73\u4e86\u9053\u8def\u3002<\/p>\n

\u56fe\u5341\u4e00\u00a0NFS\u7ed3\u6784\u5f62\u8c8c\u8868\u5f81<\/p>\n

\"\"<\/p>\n

\u56fe\u5341\u4e8c\u00a0NFS\u7535\u5316\u5b66\u6d4b\u8bd5<\/p>\n

\"\"<\/p>\n

6\u3001Bottom-Up Confined Synthesis of Nanorod-in-Nanotube Structured Sb@N-C for Durable Lithium and Sodium Storage6<\/sup><\/strong><\/p>\n

\u9511\uff08Sb\uff09\u7531\u4e8e\u5176660 mA h g-1<\/sup>\u7684\u9ad8\u7406\u8bba\u5bb9\u91cf\u800c\u6210\u4e3a\u6709\u5438\u5f15\u529b\u7684\u9502\u548c\u94a0\u79bb\u5b50\u7535\u6c60\u8d1f\u6781\u6750\u6599\u3002\u5728\u8fd9\u9879\u5de5\u4f5c\u4e2d\uff0c\u7814\u7a76\u8005\u901a\u8fc7\u81ea\u4e0b\u800c\u4e0a\u7684\u7ec4\u88c5\u65b9\u6cd5\uff0c\u8bbe\u8ba1\u5e76\u5236\u9020\u4e86\u4e00\u79cd\u65b0\u9896\u7684\u8c46\u835a\u72b6N\u63ba\u6742\u78b3\u7a7a\u5fc3\u7eb3\u7c73\u7ba1\u5c01\u88c5\u7684Sb\u7eb3\u7c73\u68d2\u590d\u5408\u7269\uff0c\u5373\u6240\u8c13\u7684\u7eb3\u7c73\u68d2-\u7eb3\u7c73\u7ba1\u7ed3\u6784Sb@N-C\u3002<\/p>\n

\u56fe\u5341\u4e09\u00a0Sb@N-C\u5408\u6210\u793a\u610f\u56fe<\/p>\n

\"\"<\/p>\n

\u56fe\u5341\u56db\u00a0Sb@N-C\u5f62\u8c8c\u8868\u5f81<\/p>\n

\"\"<\/p>\n

\u901a\u8fc7\u539f\u4f4d\u9ad8\u6e29XRD\u8868\u5f81\u76d1\u6d4bN\u63ba\u6742\u78b3\u6d82\u5c42\u548c\u70ed\u8fd8\u539f\u8fc7\u7a0b\u3002\u7531\u4e8e\u5176\u5148\u8fdb\u7684\u7ed3\u6784\u4f18\u70b9\uff0c\u4f8b\u5982\u8db3\u591f\u7684N\u63ba\u6742\uff0c1D\u5bfc\u7535\u78b3\u6d82\u5c42\u548c\u8db3\u591f\u7684\u5185\u90e8\u7a7a\u9699\u7a7a\u95f4\uff0cSb@N-C\u8868\u73b0\u51fa\u4f18\u5f02\u7684\u9502\/\u94a0\u5b58\u50a8\u6027\u80fd\u3002\u5bf9\u4e8e\u9502\u7535\u6c60\uff0cSb@NC\u5177\u6709\u9ad8\u53ef\u9006\u5bb9\u91cf\uff08\u57280.2 A g-1<\/sup>\u4e0b\u4e3a650.8 mA h g-1<\/sup>\uff09\uff0c\u51fa\u8272\u7684\u5faa\u73af\u7a33\u5b9a\u6027\uff08\u57282 A g-1<\/sup>\u4e0b\u5faa\u73af3000\u6b21\uff0c\u6bcf\u4e2a\u5faa\u73af\u7684\u5bb9\u91cf\u8870\u51cf\u4ec5\u4e3a0.022\uff05\uff09\u548c\u8d85\u9ad8\u500d\u7387\u6027\uff08\u572820 A g-1<\/sup>\u65f6\u4e3a343.3 mA h g-1<\/sup>\uff09\u3002\u5bf9\u4e8e\u94a0\u7535\u6c60\uff0cSb@NC\u7eb3\u7c73\u590d\u5408\u6750\u6599\u5728\u5df2\u62a5\u544a\u7684\u57fa\u4e8eSb\u7684\u8d1f\u6781\u6750\u6599\u4e2d\u8868\u73b0\u51fa\u6700\u4f73\u7684\u957f\u671f\u5faa\u73af\u6027\u80fd\uff08\u57282 A g-1<\/sup>\u4e0b\u7ecf\u8fc73000\u6b21\u5faa\u73af\u540e\u5bb9\u91cf\u4e3a345.6 mA h g-1<\/sup>\uff09\u3002\u7ed3\u679c\u8868\u660e\uff0cSb@N-C\u7eb3\u7c73\u590d\u5408\u6750\u6599\u662f\u6709\u524d\u9014\u7684\u9ad8\u6027\u80fd\u9502\/\u94a0\u5b58\u50a8\u8d1f\u6781\u6750\u6599\u3002<\/p>\n

\u56fe\u5341\u4e94\u00a0Sb@N-C\u50a8\u9502\u7535\u5316\u5b66\u8868\u5f81<\/p>\n

\"\"<\/p>\n

\u56fe\u5341\u516d\u00a0Sb@N-C\u50a8\u94a0\u7535\u5316\u5b66\u8868\u5f81<\/p>\n

\"\"<\/p>\n

\u4e8c\u3001\u5b59\u65ed\u5e73\u6559\u6388\u6210\u679c\u7b80\u4ecb<\/h3>\n

\u5b59\u65ed\u5e73\uff0c\u535a\u58eb\uff0c\u6559\u6388\uff0c\u535a\u58eb\u751f\u5bfc\u5e08\uff0c\u7535\u5b50\u79d1\u6280\u5927\u5b66\u57fa\u7840\u4e0e\u524d\u6cbf\u7814\u7a76\u9662\u3002\u517c\u4efbMaterials Express\u526f\u4e3b\u7f16; \u4e2d\u56fd\u6750\u6599\u7814\u7a76\u5b66\u4f1a\u7eb3\u7c73\u6750\u6599\u4e0e\u5668\u4ef6\u5206\u4f1a\u7406\u4e8b\u3002\u5728\u00a0Nat. Commun., J. Am. Chem. Soc., Angew. Chem., Adv. Mater., Adv. Energy Mater., Nano Lett.\u7b49\u520a\u7269\u53d1\u8868\u7814\u7a76\u8bba\u6587440\u4f59\u7bc7\uff0c\u5355\u7bc7\u5f15\u7528\u5927\u4e8e200\u6b21\u8bba\u658727\u7bc7,\u5355\u7bc7\u6700\u9ad8\u5f15\u75281266\u6b21, ESI \u6570\u636e\u5e93\u9ad8\u88ab\u5f15\u8bba\u6587105\u7bc7\uff0cESI\u6570\u636e\u5e93\u70ed\u70b9\u8bba\u658757\u7bc7\uff0c\u4e2d\u56fd\u767e\u7bc7\u6700\u5177\u5f71\u54cd\u56fd\u9645\u5b66\u672f\u8bba\u65873\u7bc7\uff1b\u8bba\u6587\u603b\u5f15\u7ea631000\u6b21,H\u6307\u657089\u3002\u7814\u7a76\u65b9\u5411\u4e3a\u7eb3\u7c73\u7535\u50ac\u5316; \u7535\u5316\u5b66\u5206\u6790\u3002<\/p>\n

1\u3001A practical-oriented NiFe-based water-oxidation catalyst enabled by ambient redox and hydrolysis co-precipitation strategy7<\/sup><\/strong><\/p>\n

\u5c3d\u7ba1\u57fa\u4e8eNiFe\u7684\uff08\u7f9f\u57fa\uff09\u6c22\u6c27\u5316\u7269\u88ab\u516c\u8ba4\u4e3a\u662f\u5de5\u4e1a\u6c34\u5206\u89e3\u4e2d\u6700\u6709\u5e0c\u671b\u7684\u9633\u6781\u6750\u6599\uff0c\u4f46\u662f\u73b0\u6709\u7684\u5408\u6210\u65b9\u6cd5\u96be\u4ee5\u5236\u9020\u540c\u65f6\u6ee1\u8db3\u4f4e\u6210\u672c\u3001\u9ad8\u6027\u80fd\u3001\u6613\u4e8e\u5b9e\u73b0\u5927\u89c4\u6a21\u751f\u4ea7\u548c\u73af\u5883\u5408\u6210\u5de5\u827a\u8981\u6c42\u7684\u57fa\u4e8eNiFe\u7684\uff08\u7f9f\u57fa\uff09\u6c22\u6c27\u5316\u7269\u3002\u5728\u8fd9\u9879\u5de5\u4f5c\u4e2d\uff0c\u63d0\u51fa\u4e86\u4e00\u79cd\u7b80\u5355\u800c\u6709\u6548\u7684\u7b56\u7565\uff0c\u5728Ni\u6ce1\u6cab\u4e0a\u5236\u5907\u6392\u5217\u6574\u9f50\u7684Ni-Fe\u6c22\u6c27\u5316\u7269\u7eb3\u7c73\u7247\u9635\u5217\uff08NiFe-OH NS \/ NF\uff09\u3002\u9ad8\u5ea6\u5b9a\u5411\u7684\u975e\u6676\u6001\u548c\u7eb3\u7c73\u591a\u5b54\u7eb3\u7c73\u7247\u7ed3\u6784\uff0c\u4ee5\u53caNi\u548cFe\u7269\u79cd\u4e4b\u95f4\u7684\u5f3a\u7535\u5b50\u76f8\u4e92\u4f5c\u7528\uff0c\u8d4b\u4e88\u4e86NiFe-OH NS \/ NF\u51fa\u8272\u7684OER\u6d3b\u6027\uff0c\u5b83\u53ef\u4ee5\u5728500mA cm-2<\/sup>\u7684\u5927\u7535\u6d41\u5bc6\u5ea6\u4e0b\u4ec5\u9700292 mV\u7684\u4f4e\u8fc7\u7535\u4f4d\u3002\u91cd\u8981\u7684\u662f\uff0c\u901a\u8fc7\u8fd9\u79cd\u7b56\u7565\u5408\u6210NiFe-OH NS \/ NF\u7684\u5236\u9020\u548c\u539f\u6750\u6599\u6210\u672c\u4f30\u8ba1\u4ec5\u4e3a\u6bcf\u5e73\u65b9\u5398\u7c730.0165\u7f8e\u5143\uff0c\u8fdc\u4f4e\u4e8e\u5176\u4ed6\u62a5\u9053\u7684\u542b\u94c1\u81ea\u652f\u6491\u50ac\u5316\u5242\u6750\u6599\u7684\u6210\u672c\u3002\u800c\u4e14\uff0c\u8fd9\u79cd\u6e29\u548c\u7684\u5236\u5907\u624b\u6bb5\u4e0d\u4ec5\u53ef\u7528\u4e8e\u5927\u89c4\u6a21\u751f\u4ea7\u5177\u6709\u7a33\u5b9a\u7eb3\u7c73\u9635\u5217\u7ed3\u6784\u7684\u5c3a\u5bf8\u53ef\u8c03\u7684NiFe-OH NS \/ NF\uff0c\u800c\u4e14\u8fd8\u53ef\u7528\u4e8e\u5408\u6210NiCo NS \/ NF\u548cNiCoFe NS \/ NF\u3002<\/p>\n

\u56fe\u4e00\u00a0NiFe-OH NS \/ NF\u5408\u6210\u793a\u610f\u56fe<\/p>\n

\"\"<\/p>\n

\u56fe\u4e8c\u00a0NiFe-OH NS \/ NF\u7535\u5316\u5b66\u6d4b\u8bd5<\/p>\n

\"\"<\/p>\n

2\u3001Phosphorus-Doped Co3<\/sub>O4<\/sub>\u00a0Nanowire Array: A Highly Efficient Bifunctional Electrocatalyst for Overall Water Splitting8<\/sup><\/strong><\/p>\n

\u5177\u6709\u53cc\u529f\u80fd\u50ac\u5316\u6027\u7684\u7535\u89e3\u6c34\u50ac\u5316\u5242\u662f\u50ac\u5316\u9886\u57df\u7684\u7814\u7a76\u70ed\u70b9\u3002\u8fd9\u7bc7\u6587\u732e\u4e2d\uff0c\u7814\u7a76\u8005\u4f7f\u7528NaH2<\/sub>PO2<\/sub>\u4f5c\u4e3a\u78f7\u6e90\uff0c\u901a\u8fc7\u4f4e\u6e29\u9000\u706b\u628a\u6ce1\u6cab\u954d\u4e0a\u7684Co3<\/sub>O4<\/sub>\u7eb3\u7c73\u7ebf\u9635\u5217\u8f6c\u5316\u4e3a\u78f7\u63ba\u6742\u7684Co3<\/sub>O4<\/sub>\u7eb3\u7c73\u7ebf\u9635\u5217\uff08P-Co3<\/sub>O4<\/sub>\u00a0\/ NF\uff09\u3002\u4f5c\u4e3a3D\u50ac\u5316\u5242\uff0c\u57281 M KOH \u6eb6\u6db2\u4e2d\uff0cP-Co3<\/sub>O4<\/sub>\u00a0\/ NF\u5177\u6709\u51fa\u8272\u7684\u6790\u6c27\u50ac\u5316\u6027\u80fd\uff08\u572820 mA cm-2<\/sup>\u4e0b\u4e3a260 mV\uff0cTafel\u659c\u7387\u4e3a60 mV dec-1<\/sup>\uff09\uff0c\u4ee5\u53ca\u826f\u597d\u7684\u8010\u4e45\u6027\u3002\u5bc6\u5ea6\u6cdb\u51fd\u7406\u8bba\u8ba1\u7b97\u8868\u660e\uff0c\u5bf9\u4e8e\u6790\u6c27\u53cd\u5e94\u7684\u7535\u52bf\u51b3\u5b9a\u6b65\u9aa4\uff0cP-Co3<\/sub>O4<\/sub>\u7684\u53cd\u5e94\u81ea\u7531\u80fd\u503c\u6bd4\u539f\u59cbCo3<\/sub>O4<\/sub>\u5c0f\u5f97\u591a\u3002 \u8fd9\u79cdP-Co3<\/sub>O4<\/sub>\u00a0\/ NF\u8fd8\u53ef\u6709\u6548\u5730\u50ac\u5316\u6790\u6c22\u53cd\u5e94\uff0c\u7531P8.6<\/sub>-Co3<\/sub>O4<\/sub>\u00a0\/ NF\u7ec4\u88c5\u6210\u7684\u4e24\u7535\u6781\u78b1\u6027\u7535\u89e3\u69fd\uff0c\u4ec5\u97001.63 V\u5373\u53ef\u8fbe\u523010 mA cm–<\/sup>2<\/sup>\u7684\u7535\u6d41\u3002<\/p>\n

\u56fe\u4e09\u00a0P-Co3<\/sub>O4<\/sub>\u00a0\/ NF\u7ed3\u6784\u5f62\u8c8c\u8868\u5f81<\/p>\n

\"\"<\/p>\n

\u56fe\u56db\u00a0P-Co3<\/sub>O4<\/sub>\u00a0\/ NF\u7535\u50ac\u5316\u6027\u80fd\u8868\u5f81<\/p>\n

\"\"<\/p>\n

3\u3001Co(OH)2<\/sub>\u00a0Nanoparticle-Encapsulating Conductive Nanowires Array: Room-Temperature Electrochemical Preparation for High-Performance Water Oxidation Electrocatalysis9<\/sup><\/strong><\/p>\n

\u5728\u5ba4\u6e29\u6761\u4ef6\u4e0b\uff0c\u8bbe\u8ba1\u548c\u5f00\u53d1\u5177\u6709\u9ad8\u6027\u80fd\u6c34\u6c27\u5316\u7535\u50ac\u5316\u7684Co\u57fa\u50ac\u5316\u5242\uff0c\u4ecd\u662f\u4e00\u9879\u6311\u6218\u4e0e\u673a\u9047\u540c\u5728\u7684\u5de5\u4f5c\u3002\u672c\u6587\u62a5\u9053\u4e86\u4e00\u79cd\u9633\u6781\u6c27\u5316\u5236\u5907\u6cd5\uff0c\u5728\u78b1\u6027\u6eb6\u6db2\u4e2d\uff0c\u6ce1\u6cab\u94dc\u4e0a\u7684Co(NQ)2<\/sub>(TCNQ \u4e3a\u56db\u6c30\u57fa\u82ef\u918c\u4e8c\u7532\u70f7)\u7eb3\u7c73\u7ebf\u9635\u5217\u88ab\u6c27\u5316\u4e3a\u5d4c\u5165TCNQ\u7eb3\u7c73\u9635\u5217\u7684Co(OH)2<\/sub>\u7eb3\u7c73\u7c92\u5b50\u3002\u6b64\u7c7bCo(OH)2<\/sub>-TCNQ\/CF\u663e\u793a\u51fa\u4f18\u5f02\u7684\u50ac\u5316\u6790\u6c27\u6d3b\u6027\uff0c\u5e76\u4e14\u4ec5\u9700276 mV\u7684\u4f4e\u8fc7\u7535\u52bf\u5373\u53ef\u57281 M KOH\u4e2d\u9a71\u52a825 mA cm-2<\/sup>\u7684\u51e0\u4f55\u7535\u6d41\u5bc6\u5ea6\u3002\u503c\u5f97\u6ce8\u610f\u7684\u662f\uff0c\u5b83\u8fd8\u8868\u73b0\u51fa\u5f3a\u5927\u7684\u957f\u671f\u7535\u5316\u5b66\u8010\u4e45\u6027\uff0c\u5728450 mV\u7684\u8fc7\u7535\u52bf\u548c100\uff05\u7684\u6cd5\u62c9\u7b2c\u6548\u7387\u4e0b\uff0c\u5176\u6d3b\u6027\u81f3\u5c11\u53ef\u518d\u7ef4\u630125\u5c0f\u65f6\uff0c\u5176TOF\u503c\u4e3a0.97 s-1<\/sup>\u3002\u8fd9\u9879\u7814\u7a76\u4e3a\u5408\u7406\u8bbe\u8ba1\u548c\u5f00\u53d1\u5bfc\u7535TCNQ\u7eb3\u7c73\u9635\u5217\uff0c\u5c06\u5176\u8fd0\u7528\u4e8e\u7535\u5316\u5b66\u9886\u57df\u63d0\u4f9b\u4e86\u4ee4\u4eba\u6fc0\u52a8\u7684\u65b0\u65b9\u6cd5\u3002\u00a0<\/p>\n

\u56fe\u4e94\u00a0Co(OH)2<\/sub>-TCNQ\/CF\u5408\u6210\u793a\u610f\u56fe<\/p>\n

\"\"<\/p>\n

\u56fe\u516d\u00a0Co(OH)2<\/sub>-TCNQ\/CF\u7535\u5316\u5b66\u6d4b\u8bd5<\/p>\n

\"\"<\/p>\n

4\u3001Ultrarapid in Situ Synthesis of Cu2<\/sub>S Nanosheet Arrays on Copper Foam with Room-Temperature-Active Iodine Plasma for Efficient and Cost-Effective Oxygen Evolution10<\/sup><\/strong><\/p>\n

\u975e\u8d35\u91d1\u5c5e\u786b\u5316\u7269\u5728\u7535\u50ac\u5316\u6c34\u6c27\u5316\u9886\u57df\u8fd1\u6765\u53d7\u5230\u5e7f\u6cdb\u5173\u6ce8\u3002\u672c\u6587\u8bbe\u8ba1\u4e86\u4e00\u79cd\u4e24\u6b65\u6cd5\u5236\u5907\u7b56\u7565\uff0c\u7ed3\u5408\u5e38\u6e29\u5e38\u538b\u7684\u7898\u7b49\u79bb\u5b50\u4f53\u548c\u9634\u79bb\u5b50\u4ea4\u6362\u53cd\u5e94\uff0c\u5728\u6ce1\u6cab\u94dc\u4e0a\u539f\u4f4d\u751f\u957f\u4e863D Cu2<\/sub>S\u7eb3\u7c73\u7247\u9635\u5217\uff08Cu2<\/sub>S\/CF\uff09\u3002\u7531\u4e8e\u8fd9\u79cd\u57fa\u4e8e\u7b49\u79bb\u5b50\u4f53\u65b9\u6cd5\u7684\u4f18\u52bf\uff0c\u4ee5\u53ca\u751f\u6210\u7684CuI\u548cS2-<\/sup>\u4e4b\u95f4\u6781\u5feb\u901f\u7684\u9634\u79bb\u5b50\u4ea4\u6362\u53cd\u5e94\uff0cCu2<\/sub>S\/CF OER\u50ac\u5316\u5242\u7684\u5408\u6210\u53ef\u4ee5\u57286\u5206\u949f\u5185\u5b8c\u6210\u3002\u8fd9\u79cd\u591a\u5b543D\u50ac\u5316\u5242\u5bf9OER\u8868\u73b0\u51fa\u4f18\u5f02\u7684\u7535\u50ac\u5316\u6d3b\u6027\u548c\u6301\u4e45\u7a33\u5b9a\u6027\uff08> 10 h\uff09\uff0c\u57281 M KOH\u4e2d\uff0c\u8fc7\u7535\u52bf\u4e3a336 mV\u65f6\u53ef\u9a71\u52a820 mA cm-2<\/sup>\u7684\u51e0\u4f55\u7535\u6d41\u5bc6\u5ea6\uff0c\u5176\u6027\u80fd\u4e0e\u8d35\u91d1\u5c5eIrO2<\/sub>\/CF\u7535\u6781\u76f8\u5f53\u3002<\/p>\n

\u56fe\u4e03\u00a0Cu2<\/sub>S\u5236\u5907\u793a\u610f\u56fe<\/p>\n

\"\"<\/p>\n

\u56fe\u516b\u00a0CuI\u548cCu2<\/sub>S\u5f62\u8c8c\u8868\u5f81<\/p>\n

\"\"<\/p>\n

\u56fe\u4e5d\u00a0Cu2<\/sub>S\u7535\u50ac\u5316\u8868\u5f81<\/p>\n

\"\"<\/p>\n

\u53c2\u8003\u6587\u732e<\/h3>\n

1. Wei, X.; Zhang, Y.; Zhang, B.; Lin, Z.; Wang, X.; Hu, P.; Li, S.; Tan, X.; Cai, X.; Yang, W.; Mai, L. Yolk-shell-structured zinc-cobalt binary metal sulfide @ N-doped carbon for enhanced lithium-ion storage. Nano Energy <\/i><\/em>2019,<\/b><\/strong>64, DOI: 10.1016\/j.nanoen.2019.103899.<\/p>\n

2. Liu, X.; Ni, K.; Wen, B.; Guo, R.; Niu, C.; Meng, J.; Li, Q.; Wu, P.; Zhu, Y.; Wu, X.; Mai, L. Deep Reconstruction of Nickel-Based Precatalysts for Water Oxidation Catalysis. Acs Energy Letters <\/i><\/em>2019,<\/b><\/strong>4 (11), 2585-2592 DOI: 10.1021\/acsenergylett.9b01922.<\/p>\n

3. Lan, K.; Wei, Q.; Wang, R.; Xia, Y.; Tan, S.; Wang, Y.; Elzatahry, A.; Feng, P.; Mai, L.; Zhao, D. Two-Dimensional Mesoporous Heterostructure Delivering Superior Pseudocapacitive Sodium Storage via Bottom-Up Monomicelle Assembly. Journal of the American Chemical Society <\/i><\/em>2019,<\/b><\/strong>141 (42), 16755-16762 DOI: 10.1021\/jacs.9b06962.<\/p>\n

4. Xiong, F.; Fan, Y.; Tan, S.; Zhou, L.; Xu, Y.; Pei, C.; An, Q.; Mai, L. Magnesium storage performance and mechanism of CuS cathode. Nano Energy <\/i><\/em>2018,<\/b><\/strong>47, 210-216 DOI: 10.1016\/j.nanoen.2018.02.060.<\/p>\n

5. Zhou, L.; Xiong, F.; Tan, S.; An, Q.; Wang, Z.; Yang, W.; Tao, Z.; Yao, Y.; Chen, J.; Mai, L. Nickel-iron bimetallic diselenides with enhanced kinetics for high-capacity and long-life magnesium batteries. Nano Energy <\/i><\/em>2018,<\/b><\/strong>54, 360-366 DOI: 10.1016\/j.nanoen.2018.10.033.<\/p>\n

6. Luo, W.; Li, F.; Gaumet, J.-J.; Magri, P.; Diliberto, S.; Zhou, L.; Mai, L. Bottom-Up Confined Synthesis of Nanorod-in-Nanotube Structured Sb@N-C for Durable Lithium and Sodium Storage. Advanced Energy Materials <\/i><\/em>2018,<\/b><\/strong>8 (19), DOI: 10.1002\/aenm.201703237.<\/p>\n

7. Zhu, W.; Zhang, T.; Zhang, Y.; Yue, Z.; Li, Y.; Wang, R.; Ji, Y.; Sun, X.; Wang, J. A practical-oriented NiFe-based water-oxidation catalyst enabled by ambient redox and hydrolysis co-precipitation strategy. Applied Catalysis B-Environmental <\/i><\/em>2019,<\/b><\/strong>244, 844-852 DOI: 10.1016\/j.apcatb.2018.12.021.<\/p>\n

8. Wang, Z.; Liu, H.; Ge, R.; Ren, X.; Ren, J.; Yang, D.; Zhang, L.; Sun, X. Phosphorus-Doped Co3<\/sub>O4<\/sub>Nanowire Array: A Highly Efficient Bifunctional Electrocatalyst for Overall Water Splitting. Acs Catalysis <\/i><\/em>2018,<\/b><\/strong>8 (3), 2236-2241 DOI: 10.1021\/acscatal.7b03594.<\/p>\n

9. Wu, D.; Wei, Y.; Ren, X.; Ji, X.; Liu, Y.; Guo, X.; Liu, Z.; Asiri, A. M.; Wei, Q.; Sun, X. Co(OH)2<\/sub>Nanoparticle-Encapsulating Conductive Nanowires Array: Room-Temperature Electrochemical Preparation for High-Performance Water Oxidation Electrocatalysis. Advanced Materials <\/i><\/em>2018,<\/b><\/strong>30 (9), DOI: 10.1002\/adma.201705366.<\/p>\n

10. He, L.; Zhou, D.; Lin, Y.; Ge, R.; Hou, X.; Sun, X.; Zheng, C. Ultrarapid in Situ Synthesis of Cu2<\/sub>S Nanosheet Arrays on Copper Foam with Room-Temperature-Active Iodine Plasma for Efficient and Cost-Effective Oxygen Evolution. Acs Catalysis <\/i><\/em>2018,<\/b><\/strong>8 (5), 3859-3864 DOI: 10.1021\/acscatal.8b00032.<\/p>\n

\u672c\u6587\u7531Buhuoyou<\/strong>\u4f9b\u7a3f\u3002<\/p>\n

\u6b22\u8fce\u5927\u5bb6\u5230\u6750\u6599\u4eba\u5ba3\u4f20\u79d1\u6280\u6210\u679c\u5e76\u5bf9\u6587\u732e\u8fdb\u884c\u6df1\u5165\u89e3\u8bfb\uff0c\u6295\u7a3f\u90ae\u7bb1: tougao@cailiaoren.com.<\/p>\n

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