{"id":119653,"date":"2017-12-31T06:30:17","date_gmt":"2017-12-30T22:30:17","guid":{"rendered":"\/\/m.iemloyee.com\/?p=119653"},"modified":"2017-12-29T22:15:58","modified_gmt":"2017-12-29T14:15:58","slug":"nano-energy-%e9%93%81%e6%b0%a7%e5%8c%96%e7%89%a9%e5%b5%8c%e5%85%a5%e5%88%b0tio2%e7%ba%b3%e7%b1%b3%e7%ba%bf-%e4%b8%80%e7%a7%8d%e9%85%b8%e6%80%a7%e7%94%b5%e8%a7%a3%e8%b4%a8%e4%b8%ad%e9%ab%98","status":"publish","type":"post","link":"\/\/m.iemloyee.com\/?p=119653","title":{"rendered":"Nano Energy : \u94c1\u6c27\u5316\u7269\u5d4c\u5165\u5230TiO2\u7eb3\u7c73\u7ebf – \u4e00\u79cd\u9178\u6027\u7535\u89e3\u8d28\u4e2d\u9ad8\u6d3b\u6027\u3001\u9ad8\u7a33\u5b9a\u6027\u7684OER\u7535\u50ac\u5316\u5242"},"content":{"rendered":"

\u3010\u5f15\u8a00\u3011<\/strong><\/p>\n

\u5728\u78b1\u6027\u6761\u4ef6\u4e0b\uff0c\u57fa\u4e8e\u50a8\u91cf\u4e30\u5bcc\u7684\u94c1\u3001\u94b4\u3001\u954d\u57fa\u50ac\u5316\u5242\u53ef\u6709\u6548\u3001\u7a33\u5b9a\u7684\u50ac\u5316OER\u3002\u7136\u800c\uff0c\u4e0a\u8ff0\u50ac\u5316\u5242\u5728\u9178\u6027\u6761\u4ef6\u4e0b\u7a33\u5b9a\u6027\u5dee\u5e76\u8fc5\u901f\u88ab\u8150\u8680\u3002\u8d35\u91d1\u5c5e\u6c27\u5316\u7269\u50ac\u5316\u5242(\u5982RuO2<\/sub>\u548cIrO2<\/sub>)\u517c\u5177\u6d3b\u6027\u548c\u826f\u597d\u7684\u7a33\u5b9a\u6027\uff0c\u80fd\u5728\u9178\u6027\u6761\u4ef6\u4e0b\u8fdb\u884c\u50ac\u5316\uff0c\u4f46\u5176\u9ad8\u6210\u672c\u548c\u50a8\u91cf\u77ed\u7f3a\u963b\u788d\u4e86\u5176\u5927\u89c4\u6a21\u5e94\u7528\u3002\u56e0\u6b64\uff0c\u4e9f\u5f85\u53d1\u73b0\u80fd\u591f\u5728\u9178\u6027\u7535\u89e3\u8d28\u4e2d\u7a33\u5b9a\u5730\u4f5c\u4e3a\u5168\u5206\u89e3\u6c34OER\u7535\u50ac\u5316\u5242\u7684\u91d1\u5c5e\u57fa\u6750\u6599\u3002\u5177\u6709\u5c42\u72b6\u7ed3\u6784\u7684\u949b\u9178\u76d0(\u5982K2Ti4O9)\u5df2\u5e7f\u6cdb\u5e94\u7528\u4e8e\u79bb\u5b50\u63d2\u5c42\u548c\u7535\u6c60\uff0c\u6613\u4e8e\u4e0e\u8fc7\u6e21\u91d1\u5c5e\u79bb\u5b50(\u5982Co2+<\/sup>\u3001Ni2+<\/sup>\u548cFe3+<\/sup>)\u53d1\u751f\u79bb\u5b50\u4ea4\u6362\u53cd\u5e94\u3002\u5c06\u94c1\u3001\u94b4\u3001\u954d\u57fa\u50ac\u5316\u5242\u4e0e\u949b\u9178\u76d0\u8fdb\u884c\u6574\u5408\u6216\u5c06\u8d77\u5230\u610f\u60f3\u4e0d\u5230\u7684\u6548\u679c\u3002<\/p>\n

\u3010\u6210\u679c\u7b80\u4ecb\u3011<\/strong><\/p>\n

\u8fd1\u65e5\uff0c\u5c71\u4e1c\u5927\u5b66\u5218\u5b8f\u6559\u6388\u3001\u6851\u5143\u534e\u526f\u6559\u6388\u3001\u534e\u5357\u7406\u5de5\u5927\u5b66\u5468\u4f1f\u5bb6\u526f\u6559\u6388(\u5171\u540c\u901a\u8baf\u4f5c\u8005)\u7b49<\/strong>\u901a\u8fc7\u79bb\u5b50\u4ea4\u6362\u548c\u7145\u70e7\u8fc7\u7a0b\u5c06\u5c11\u91cf\u7684\u94c1\u6c27\u5316\u7269\u5d4c\u5165\u5230TiO2<\/sub>\u7eb3\u7c73\u7ebf(Fe-TiOx LNWs\/Ti)\uff0c\u5e76\u5728Nano Energy<\/strong>\u4e0a\u53d1\u8868\u4e86\u9898\u4e3a\u201cIron Oxide Embedded Titania Nanowires – an Active and Stable Electrocatalyst for Oxygen Evolution in Acidic Media<\/strong>\u201d\u7684\u7814\u7a76\u8bba\u6587\u3002\u6240\u5f97Fe-TiOx LNWs\/Ti\u7a33\u5b9a\u6027\u5f97\u5230\u6781\u5927\u63d0\u5347\uff0c\u4e14\u5728\u9178\u6027\u7535\u89e3\u8d28\u80fd\u591f\u4fdd\u6301\u8f83\u9ad8\u7684\u6d3b\u6027(1 mA\u00b7cm-2<\/sup>\u4e0b\u8d77\u59cb\u7535\u4f4d\u4e3a1.49 V)\u3002\u8fd9\u9879\u7814\u7a76\u4e3a\u5236\u5907\u5728\u9178\u6027\u7535\u89e3\u8d28\u4e2d\u7a33\u5b9a\u548c\u9ad8\u6548\u7684\u975e\u8d35\u91d1\u5c5eOER \u7535\u50ac\u5316\u5242\u63d0\u4f9b\u4e86\u4e00\u6761\u7b80\u5355\u53ef\u884c\u7684\u8def\u7ebf\u3002<\/p>\n

\u3010\u56fe\u6587\u7b80\u4ecb\u3011<\/strong><\/p>\n

\u56fe1 Fe-TiOx<\/sub> LNWs\/Ti\u5236\u5907\u8fc7\u7a0b\u793a\u610f\u56fe<\/strong><\/p>\n

\"\"<\/p>\n

Fe-TiOx<\/sub> LNWs\/Ti\u5236\u5907\u8fc7\u7a0b\u793a\u610f\u56fe\u3002<\/p>\n

\u56fe2 \u50ac\u5316\u5242\u7684\u5f62\u8c8c\u548c\u6676\u4f53\u7ed3\u6784<\/strong><\/p>\n

\"\"<\/p>\n

a) K2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti\u7684SEM\u56fe\u50cf\uff1b<\/p>\n

b) Fex<\/sub>Ti4<\/sub>O9<\/sub>\/Ti\u7684SEM\u56fe\u50cf\uff1b<\/p>\n

c,d) Fe-TiOx<\/sub> LNWs\/Ti\u7684SEM\u56fe\u50cf\uff1b<\/p>\n

e,f) K2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (I)\u3001Fex<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (II)\u548cFe-TiOx<\/sub> LNWs\/Ti (III)\u7684\u5e7f\u89d2\/\u5c0f\u89d2XRD\u56fe\u8c31\u3002<\/p>\n

\u56fe3 \u50ac\u5316\u5242\u7684\u5143\u7d20\u4ef7\u6001\u5206\u6790<\/strong><\/p>\n

\"\"<\/p>\n

a) K2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (I)\u3001Fex<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (II)\u548cFe-TiOx<\/sub> LNWs\/Ti (III)\u7684XPS\u603b\u8c31\uff1b<\/p>\n

b) K2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (I)\u3001Fex<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (II)\u548cFe-TiOx<\/sub> LNWs\/Ti (III)\u7684Ti 2p XPS\u8c31\u56fe\uff1b<\/p>\n

c) K2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (I)\u3001Fex<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (II)\u548cFe-TiOx<\/sub> LNWs\/Ti (III)\u7684 Fe 2p XPS\u8c31\u56fe\u3002<\/p>\n

d) K2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (I)\u3001Fex<\/sub>Ti4<\/sub>O9<\/sub>\/Ti (II)\u548cFe-TiOx<\/sub> LNWs\/Ti (III)\u7684K 2p XPS\u8c31\u56fe\u3002<\/p>\n

\u56fe4 \u50ac\u5316\u5242\u7684\u6676\u683c\u6761\u7eb9\u548c\u5143\u7d20\u5206\u6790<\/strong><\/p>\n

\"\"<\/p>\n

a,b) K2<\/sub>Ti4<\/sub>O9<\/sub>\u7684(HR)TEM\u56fe\u50cf\uff1b<\/p>\n

c,d) Fex<\/sub>Ti4<\/sub>O9<\/sub>\u7684(HR)TEM\u56fe\u50cf\uff1b<\/p>\n

e,f) Fe-TiOx<\/sub> LNWs\u7684(HR)TEM\u56fe\u50cf\uff1b<\/p>\n

g) Fe-TiOx<\/sub> LNWs\u7684EDS\u5143\u7d20\u5206\u5e03\u3002<\/p>\n

\u56fe5 \u50ac\u5316\u5242\u7684\u7535\u50ac\u5316\u6027\u80fd<\/strong><\/p>\n

\"\"<\/p>\n

a) 0.5 M H2<\/sub>SO4<\/sub>\u4e2d\uff0c\u626b\u901f5 mV\u00b7s-1<\/sup>\uff0cK2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti\u3001Fe2<\/sub>O3<\/sub>\/Ti\u3001Fe2<\/sub>O3<\/sub>\/TiO2<\/sub> NWs\/Ti\u3001Fe-TiOx<\/sub> LNWs\/Ti\u548cRuO2<\/sub>\u7684\u6781\u5316\u66f2\u7ebf\uff1b<\/p>\n

b) K2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti\u3001Fe2<\/sub>O3<\/sub>\/Ti\u3001Fe2<\/sub>O3<\/sub>\/TiO2<\/sub> NWs\/Ti\u548cFe-TiOx<\/sub> LNWs\/Ti\u7684\u7535\u5bb9\u6027\u7535\u6d41\u66f2\u7ebf\uff1b<\/p>\n

c) \u9178\u6027\u7535\u89e3\u8d28\u4e2d\u4ee3\u8868\u6027\u7684OER \u50ac\u5316\u5242\u7684\u6027\u80fd\u603b\u7ed3\uff1b<\/p>\n

d) \u76f8\u5e94\u7684\u5854\u83f2\u5c14\u659c\u7387\uff1b<\/p>\n

e) 300 mV\u8fc7\u7535\u52bf\u4e0bK2<\/sub>Ti4<\/sub>O9<\/sub>\/Ti\u3001Fe2<\/sub>O3<\/sub>\/Ti\u3001Fe2<\/sub>O3<\/sub>\/TiO2<\/sub> NWs\/Ti\u548cFe-TiOx<\/sub> LNWs\/Ti \u7684\u4ea4\u6d41\u963b\u6297\u66f2\u7ebf\uff1b<\/p>\n

f) \u4e0d\u540c\u8fc7\u7535\u52bf\u4e0bFe-TiOx<\/sub> LNWs\/Ti\u7684\u4ea4\u6d41\u963b\u6297\u66f2\u7ebf\u3002<\/p>\n

\u56fe6 \u50ac\u5316\u5242\u7684\u7a33\u5b9a\u6027\u6d4b\u8bd5<\/strong><\/p>\n

\"\"<\/p>\n

a) Fe2<\/sub>O3<\/sub>\/Ti, Fe2<\/sub>O3<\/sub>\/TiO2<\/sub> NWs\/Ti, Fe-TiOx<\/sub> LNWs\/Ti\u7684\u957f\u671f\u7a33\u5b9a\u6027\uff1b<\/p>\n

b,c) \u50ac\u5316\u5242\u7a33\u5b9a\u6027\u6d4b\u8bd5\u524d\u540e\u7684Fe 2p XPS\u5149\u8c31\uff1b<\/p>\n

d,g) \u7a33\u5b9a\u6027\u6d4b\u8bd5\u524d\u540eFe-TiOx<\/sub> LNWs\/Ti\u7684SEM\u56fe\u50cf\uff1b<\/p>\n

e,h) \u7a33\u5b9a\u6027\u6d4b\u8bd5\u524d\u540eFe2<\/sub>O3<\/sub>\/TiO2<\/sub> NWs\/Ti\u7684SEM\u56fe\u50cf\uff1b<\/p>\n

f,i) \u7a33\u5b9a\u6027\u6d4b\u8bd5\u524d\u540eFe2<\/sub>O3<\/sub>\/Ti\u7684SEM\u56fe\u50cf\u3002<\/p>\n

\u3010\u5c0f\u7ed3\u3011<\/p>\n

\u7814\u7a76\u4eba\u5458\u5229\u7528\u6ce1\u6cab\u949b\u4e3a\u57fa\u5e95\u6750\u6599\uff0c\u5c06\u6c27\u5316\u94c1\u5d4c\u5165TiO2<\/sub>\u7eb3\u7c73\u7ebf\uff0c\u8fdb\u800c\u5236\u5907\u51fa\u4e00\u79cd\u5728\u9178\u6027\u6761\u4ef6\u4e0b\u7a33\u5b9a\u7684OER\u7535\u50ac\u5316\u5242(Fe-TiOx<\/sub> LNWs\/Ti)\u3002\u6240\u5236\u5907\u7684Fe-TiOx LNWs\/Ti\u5728\u9178\u6027\u6eb6\u6db2\u4e2d\u5177\u6709\u975e\u51e1\u7684\u7535\u50ac\u5316OER\u6d3b\u6027\u548c\u7a33\u5b9a\u6027\uff0c\u5176\u8d77\u59cb\u7535\u52bf\u4e3a1.49 V (vs. RHE\uff0c1 mA\u00b7cm-2<\/sup>)\uff0c\u5854\u83f2\u5c14\u659c\u7387\u4e3a126.2 mV\u00b7dec-1<\/sup>\u3002\u50ac\u5316\u5242\u4f18\u8d8a\u7684OER\u6027\u80fd\u5e94\u5f52\u56e0\u4e8eTiO2<\/sub>\u7eb3\u7c73\u7ebf\uff0c\u5176\u4e0d\u4ec5\u63d0\u5347\u4e86\u94c1\u5728\u9178\u6027\u6eb6\u6db2\u4e2d\u7684OER\u7a33\u5b9a\u6027\uff0c\u4e5f\u66b4\u9732\u51fa\u94c1\u7684\u6d3b\u6027\u4f4d\u70b9\u4f7f\u5f97OER\u6d3b\u6027\u63d0\u9ad8\u3002\u8fd9\u4e00\u53d1\u73b0\u4e3a\u5236\u5907\u5728\u9178\u6027\u4ecb\u8d28\u4e2d\u7a33\u5b9a\u548c\u9ad8\u6548\u7684\u975e\u8d35\u91d1\u5c5eOER \u7535\u50ac\u5316\u5242\u63d0\u4f9b\u4e86\u4e00\u6761\u7b80\u5355\u53ef\u884c\u7684\u8def\u7ebf\u3002\u503c\u5f97\u6ce8\u610f\u7684\u662f\uff0c\u5f88\u591aOER\u7535\u50ac\u5316\u5242\u5728\u9178\u6027\u7535\u89e3\u8d28OER\u8fc7\u7a0b\u4e2d\u7684\u7535\u6d41\u5bc6\u5ea6\u666e\u904d\u90fd\u975e\u5e38\u5c0f\uff0c\u672c\u7814\u7a76\u4e5f\u5b58\u5728\u8fd9\u4e2a\u95ee\u9898\uff0c\u56e0\u6b64\u7814\u7a76\u5982\u4f55\u63d0\u9ad8\u9178\u6027\u7535\u89e3\u8d28\u4e2dOER\u7535\u50ac\u5316\u5242\u7684\u7535\u6d41\u5bc6\u5ea6\u662f\u4eca\u540e\u4e9f\u5f85\u89e3\u51b3\u7684\u95ee\u9898\u3002<\/p>\n

\u6587\u732e\u94fe\u63a5\uff1a Iron Oxide Embedded Titania Nanowires – an Active and Stable Electrocatalyst for Oxygen Evolution in Acidic Media<\/a><\/strong>\u00a0(Nano Energy, 2017, DOI: 10.1016\/ j.nanoen.2017.12.029)<\/p>\n

\u3010\u901a\u8baf\u4f5c\u8005\u7b80\u4ecb\u3011<\/strong><\/p>\n

(1) \u5468\u4f1f\u5bb6\u535a\u58eb<\/strong>\u73b0\u4e3a\u534e\u5357\u7406\u5de5\u5927\u5b66\u73af\u5883\u4e0e\u80fd\u6e90\u5b66\u9662\u526f\u6559\u6388\uff0c2014\u5e74\u5165\u9009\u4e3a\u201c\u73e0\u6c5f\u79d1\u6280\u65b0\u661f\u201d\uff0c2017\u5e74\u5165\u9009\u4e3a\u201c\u5e7f\u4e1c\u7279\u652f\u8ba1\u5212\u9752\u5e74\u62d4\u5c16\u4eba\u624d\u201d\u548c \u201c\u5e7f\u4e1c\u7701\u81ea\u7136\u79d1\u5b66\u6770\u51fa\u9752\u5e74\u57fa\u91d1\u83b7\u5f97\u8005\u201d\uff0c\u5728Energy Environ. Sci.\u3001Angew.Chem. Int. Ed.\u3001ACS NANO, Adv. Funct. Mater.\u3001Nano energy\u7b49\u671f\u520a\u53d1\u8868\u7b2c\u4e00\u4f5c\u8005\u6216\u901a\u8baf\u4f5c\u8005SCI\u6536\u5f55\u8bba\u658740\u4f59\u7bc7\uff0c\u4ed6\u5f15\u8d85\u8fc72300\u4f59\u6b21\uff0cESI\u9ad8\u88ab\u5f15\u7528\u8bba\u658713\u7bc7\uff0c\u4e2d\u56fd\u767e\u7bc7\u6700\u5177\u5f71\u54cd\u529b\u56fd\u9645\u5b66\u672f\u8bba\u65871\u7bc7\uff1b\u6388\u6743\u53d1\u660e\u4e13\u52295\u9879\u3002\u4e3b\u8981\u7814\u7a76\u65b9\u5411\u4e3a\u7eb3\u7c73\u80fd\u6e90\u5b58\u50a8\u548c\u8f6c\u5316\u6280\u672f\u4e2d\u7684\u7535\u50ac\u5316\u7814\u7a76\u53ca\u73af\u5883\u5e9f\u5f03\u7269\u7684\u65b0\u80fd\u6e90\u8d44\u6e90\u5316\u518d\u5229\u7528\u7814\u7a76\uff0c\u73b0\u6709\u8bfe\u9898\u65b9\u5411\u5305\u62ec\uff1a(1)\u8fc7\u6e21\u91d1\u5c5e-\u78b3\u57fa\u548c\u94bc\u57fa\u7535\u50ac\u5316\u5242\u8bbe\u8ba1\u5408\u6210\u53ca\u5149\u7535\u50ac\u5316\u89e3\u6c34\u6027\u80fd\u7814\u7a76\uff1b(2)\u8d85\u7ea7\u7535\u5bb9\u5668\u4e09\u7ef4\u591a\u7ea7\u7535\u6781\u6784\u5efa\u53ca\u6027\u80fd\u8c03\u63a7\u7814\u7a76\uff1b(3)\u6c27\u8fd8\u539f\u53cd\u5e94\u7b49\u7535\u50ac\u5316\u7814\u7a76\u3002
\n (2) \u6851\u5143\u534e\u535a\u58eb<\/strong>\u73b0\u4e3a\u5c71\u4e1c\u5927\u5b66\u6676\u4f53\u6750\u6599\u56fd\u5bb6\u91cd\u70b9\u5b9e\u9a8c\u5ba4\u526f\u6559\u6388\uff0c\u5148\u540e\u5728Adv. Mater., Adv. Energy Mater., Nano Letters\uff0cNano energy\uff0cSmall\u7b49\u671f\u520a\u53d1\u8868\u7b2c\u4e00\u4f5c\u8005\u6216\u901a\u8baf\u4f5c\u8005SCI\u6536\u5f55\u8bba\u658730\u4f59\u7bc7\uff0c\u6388\u6743\u53d1\u660e\u4e13\u52298\u9879\u3002\u4e3b\u8981\u7814\u7a76\u65b9\u5411\u5305\u62ec\uff1a\uff081\uff09\u900f\u660e\u9676\u74f7;\uff082\uff09\u7528Czochralski\u6cd5\u751f\u957f\u5355\u6676;\uff083\uff09\u80fd\u6e90\u548c\u73af\u5883\u7c7b\u65b0\u6750\u6599\u7814\u7a76\u3002
\n (3) \u5218\u5b8f\u6559\u6388<\/strong>\u5c31\u804c\u4e8e\u5c71\u4e1c\u5927\u5b66\u6676\u4f53\u6750\u6599\u56fd\u5bb6\u91cd\u70b9\u5b9e\u9a8c\u5ba4\uff0c\u56fd\u5bb6\u6770\u51fa\u9752\u5e74\u79d1\u5b66\u57fa\u91d1\u83b7\u5f97\u8005\uff0c\u56fd\u5bb6\u91cd\u70b9\u7814\u53d1\u8ba1\u5212\u9879\u76ee\u9996\u5e2d\u79d1\u5b66\u5bb6\u3002\u4e2d\u56fd\u7845\u9178\u76d0\u5b66\u4f1a\u6676\u4f53\u751f\u957f\u5206\u4f1a\u7406\u4e8b\uff0c\u4e2d\u56fd\u5149\u5b66\u5b66\u4f1a\u6750\u6599\u4e13\u4e1a\u59d4\u5458\u4f1a\u4f1a\u5458\u7406\u4e8b\uff0c\u4e2d\u56fd\u6750\u6599\u7814\u7a76\u5b66\u4f1a\u7eb3\u7c73\u6750\u6599\u4e0e\u5668\u4ef6\u5206\u4f1a\u7406\u4e8b\u3002\u4e3b\u8981\u7814\u7a76\u65b9\u5411\uff1a\u7eb3\u7c73\u80fd\u6e90\u6750\u6599\u3001\u7ec4\u7ec7\u5de5\u7a0b\u4e0e\u5e72\u7ec6\u80de\u5206\u5316\u3001\u4eba\u5de5\u6676\u4f53\u6750\u6599\u7b49\u3002\u5341\u5e74\u6765\uff0c\u627f\u62c5\u4e86\u5305\u62ec\u56fd\u5bb6\u91cd\u70b9\u7814\u53d1\u4e13\u9879\u3001863\u3001973\u3001\u81ea\u7136\u57fa\u91d1\u91cd\u5927\u9879\u76ee\u5728\u5185\u7684\u5341\u4f59\u9879\u56fd\u5bb6\u7ea7\u79d1\u7814\u9879\u76ee\uff0c\u53d6\u5f97\u4e86\u91cd\u8981\u8fdb\u5c55\u30022004\u81f3\u4eca\uff0c\u5728\u5305\u62ecAdv. Mater., Nano Letters\uff0cACS Nano\uff0cJ. Am. Chem. Soc,Adv. Fun. Mater\uff0cEnvir.Eng. Sci., \u7b49\u5b66\u672f\u671f\u520a\u4e0a\u53d1\u8868SCI\u6587\u7ae0200\u4f59\u7bc7\uff0c\u5176\u4e2d\uff0c\u5f71\u54cd\u56e0\u5b50\u5927\u4e8e10\u7684\u8fd130\u7bc7\uff0c\u4e2a\u4eba\u6587\u7ae0\u603b\u88ab\u5f15\u6b21\u657011000\u4f59\u6b21\uff0cH\u56e0\u5b50\u4e3a49\u3002
\n (4)\u8bfe\u9898\u7ec4\u5149\u7535\u89e3\u6c34\u76f8\u5173\u4ee3\u8868\u5de5\u4f5c<\/strong>\uff1a
\n [1] Jin Jia, Tanli Xiong, Lili Zhao, Fulei Wang, Hong Liu, Renzong Hu, Jian Zhou, Weijia Zhou*, and Shaowei Chen, Ultrathin N-Doped Mo2<\/sub>C Nanosheets with Exposed Active Sites as Efficient Electrocatalyst for Hydrogen Evolution Reactions<\/a><\/strong>, ACS Nano, 2017, DOI: 10.1021\/acsnano.7b06607
\n [2] Jin Jia, Weijia Zhou*, Zhaoqian Wei, Tanli Xiong, Guixiang Li, Lili Zhao, Xiaofei Zhang, Hong Liu, Jian Zhou, Shaowei Chen*, Molybdenum carbide on hierarchical porous carbon synthesized from Cu-MoO2<\/sub> as efficient electrocatalysts for electrochemical hydrogen generation<\/a><\/strong>, Nano Energy, 2017, 41, 749-757;
\n [3] Linjing Yang, Weijia Zhou*, Jin Jia, Tanli Xiong, Kai Zhou, Chunhua Feng, Jian Zhou, Zhenghua Tang, Shaowei Chen, Nickel nanoparticles partially embedded into carbon fiber cloth via metal-mediated pitting process as flexible and efficient electrodes for hydrogen evolution reactions<\/a><\/strong>, Carbon, 2017, 122, 710-717.
\n [4] Lili Zhao, Jin Jia, Zhiyuan Yang, Jiayuan Yu, Aili Wang, Yuanhua Sang*, Weijia Zhou*, Hong Liu*, One-step synthesis of CdS nanoparticles\/MoS2<\/sub> nanosheets heterostructure on porous molybdenum sheet for enhanced photocatalytic H2<\/sub> evolution<\/a><\/strong>, Applied Catalysis B: Environmental, 2017, 210, 290\u2013296.
\n [5] Weijia Zhou*, Jia Lu, Kai Zhou, Linjing Yang, Yunting Ke, Zhenghua Tang, Shaowei Chen*, CoSe2<\/sub> Nanoparticles Embedded Defective Carbon Nanotubes Derived from MOFs as Efficient Electrocatalyst for Hydrogen Evolution Reaction<\/a><\/strong>, Nano Energy, 2016, 28, 143\u2013150.
\n [6] Weijia Zhou*, Jin Jia, Jia Lu, LinjingYang, Dongman Hou, Guoqiang Li*, Shaowei Chen, Recent Developments of Carbon-based Electrocatalysts for Hydrogen Evolution Reaction<\/a><\/strong>, Nano Energy, 2016, 28: 29-43.
\n [7] Weijia Zhou,* Tanli Xiong, Chaohong Shi, Jian Zhou, Kai Zhou, Nengwu Zhu,* Ligui Li, Zhenghua Tang, Shaowei Chen, Bioreduction of Precious Metals by Microorganism: Efficient Gold@N-Doped Carbon Electrocatalysts for the Hydrogen Evolution Reaction<\/a><\/strong>, Angew. Chem. Int. Ed., 2016, 128, 8556-8560.
\n [8] Yucheng Zhou, Yanhua Leng, Weijia Zhou,* Jilin Huang, Mingwen Zhao, Jie Zhan, Chunhua Feng, Zhenghua Tang, Shaowei Chen, Hong Liu*, Sulfur and nitrogen self-doped carbon nanosheets derived from peanut root nodules as high-efficiency non-metal electrocatalyst for hydrogen evolution reaction<\/a><\/strong>, Nano Energy, 2015, 16, 357.
\n [9] Weijia Zhou, Xue-JunWu, Xiehong Cao, Xiao Huang, Chaoliang Tan, Jian Tian, Hong Liu,* Jiyang Wang and Hua Zhang,* Ni3<\/sub>S2<\/sub> nanorods\/Ni foam composite electrode with low overpotential for electrocatalytic oxygen evolution<\/a><\/strong>, Energy Environ. Sci., 2013, 6, 2921-2924
\n [10] Weijia Zhou, Zongyou Yin, Yaping Du, Xiao Huang, Zhiyuan Zeng, Zhanxi Fan, Hong Liu*, Jiyang Wang and Hua Zhang*, Synthesis of Few-layer MoS2<\/sub> Nanosheet-Coated TiO2<\/sub> Nanobelt Heterostructures for Enhanced Photocatalytic Activities<\/a><\/strong>, Small, 2013, 9, 140-147<\/p>\n

\u672c\u6587\u7531\u6750\u6599\u4eba\u7f16\u8f91\u90e8\u65b0\u80fd\u6e90\u5c0f\u7ec4abc940504\u7f16\u8bd1\u6574\u7406\uff0c\u53c2\u4e0e\u65b0\u80fd\u6e90\u8bdd\u9898\u8ba8\u8bba\u8bf7\u52a0\u5165\u201c\u6750\u6599\u4eba\u65b0\u80fd\u6e90\u6750\u6599\u4ea4\u6d41\u7fa4 422065953\u201d\u3002<\/p>\n

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