²»ÏÞip×¢²áËÍ37Ôª½ð±Ò

»ù±¾ÐÅÏ¢

ÐÕÃû:Ðì´óÅô                                                                                             ³öÉúÄêÔ£º1981.9

ѧÀú:²©Ê¿Ñо¿Éú                                                                                      ѧλ:²©Ê¿

Ö°³Æ:¸±½ÌÊÚ                                                                                             Ö°Îñ:ÎÞ

ѧԺ:²»ÏÞip×¢²áËÍ37Ôª½ð±Ò                                                                               ÁªÏµ·½Ê½£ºEmail: badi56441071@sina.com

ѧϰ¾­Àú

2007ÄêÖÁ2010Ä꣺Î÷°²Àí¹¤´óѧ  ²ÄÁÏ¿ÆѧÓ빤³ÌѧԺ£¬²©Ê¿

2004ÄêÖÁ2007Ä꣺Î÷°²Àí¹¤´óѧ  ²ÄÁÏ¿ÆѧÓ빤³ÌѧԺ£¬Ë¶Ê¿

2000ÄêÖÁ2004Ä꣺Î÷°²Àí¹¤´óѧ  Ó¡Ë¢°ü×°ÓëÊý×ÖýÌåѧԺ£¬Ñ§Ê¿

¹¤×÷¾­Àú

2010ÄêÖÁ2013Ä꣺Ç廪´óѧ£¬²©Ê¿ºó

2013ÄêÖÁ2018Ä꣺²»ÏÞip×¢²áËÍ37Ôª½ð±Ò£¬½²Ê¦

2018ÄêÖÁ½ñ£º²»ÏÞip×¢²áËÍ37Ôª½ð±Ò£¬¸±½ÌÊÚ

ÕÐÉúÐÅÏ¢

ÿÄêÕÐÊÕ˶ʿÉú2Ãû¡£

Ñо¿·½Ïò

[1]¹¦ÄÜÄÉÃײÄÁÏ

[2]½ðÊô¸¯Ê´Óë·À»¤

Ö÷³ÖµÄ¿ÆÑÐÏîÄ¿

[1]º½¿Õº½ÌìÓøßÐÔÄܸßìغϽðÍ¿²ãµÄ¿É¿ØÖƱ¸¼¼Êõ£¬ÉÂÎ÷Ê¡ÖصãÑз¢¼Æ»®£¬2021.1-2022.12£¬2021GY-230

[2]³¬¸ß³¤¾¶±È½ðÊôÄÉÃ×ÏߵĿɿØÉú³¤¼°ÆäÔÚ͸Ã÷µ¼µç±¡Ä¤ÖеÄÓ¦Óã¬Ð£³¤»ù½ðÃæÉÏÅàÓýÏîÄ¿£¬2021.1-2023.12£¬XGPY200203

[3]ÐÂÐͽðÊô¸´ºÏÄÉÃ׽ṹµÄÖƱ¸¼°Æä±íÃæÔöÇ¿À­ÂüÉ¢ÉäЧӦ£¬¹ú¼Ò×ÔÈ»¿Æѧ»ù½ðÇàÄê¿Æѧ»ù½ðÏîÄ¿£¬2016.1-2018.12£¬11504284

[4]½ð¡¢Òø¡¢Í­ÄÉÃ׽ṹµÄÖƱ¸¼°Æä±íÃæÔöÇ¿À­ÂüÉ¢ÉäЧӦ£¬ÉÂÎ÷Ê¡½ÌÓýÌüרÏî¿ÆÑмƻ®ÏîÄ¿£¬2016.8-2018.7£¬*16JK1377

[5]ÒºÁϵÈÀë×ÓÅçÍ¿·¨ÖƱ¸²ôÔÓÄÉÃ׶þÑõ»¯îÑ·ÛÄ©µÄ¸ÄÐÔÑо¿£¬Î÷°²Àí¹¤´óѧ2009Äê¶ÈÓÅÐ㲩ʿÑо¿Éú¿ÆÑлù½ð

ÈÙÓþ½±Àø

[1]ÉÂÎ÷Ê¡¸ßµÈѧУ¿Æѧ¼¼Êõ¶þµÈ½±£¨2021Ä꣩

[2]ÉÂÎ÷Ê¡×ÔÈ»¿ÆѧÓÅÐãѧÊõÂÛÎÄÈýµÈ½±£¨2020Ä꣩

[3]²»ÏÞip×¢²áËÍ37Ôª½ð±ÒÓÅÐã¹²²úµ³Ô±£¨2020Ä꣩

[4]²»ÏÞip×¢²áËÍ37Ôª½ð±ÒÓÅÐã½Ìʦ£¨2019Ä꣩

[5]ÉÂÎ÷Ê¡ÓÅÐ㲩ʿѧλÂÛÎÄ£¨2012Ä꣩

ѧÊõ³É¹û

[1] Dapeng Xu*, Jiajia Li, Song Zhang, Yifan Zhang, Wei Yang, Zixiong Wang, Jian Chen. A novel and controllable SERS system for crystal violet and Rhodamine B

detection based on copper nanonoodle substrates[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2022,275:121165£¨SCI¡¢EIÊÕ¼£©

[2] Íõ×ÓÐÛ£¬Ðì´óÅô*£¬ÕÅÒ»·«£¬Àî¼Ñ¼Ñ. ±íÃæÔöÇ¿À­ÂüÉ¢Éä¼ì²â·ÖÎöÎï·Ö×ÓµÄÑо¿½øÕ¹[J]. ¹âÆ×ѧÓë¹âÆ×·ÖÎö£¬2022,42£¨2£©£º341-349.

[3] Dapeng Xu*, Yifan Zhang, Song Zhang, Wei Yang, Zixiong Wang, Jiajia Li. Copper nanoleaves SERS substrates with high surface roughness for sensitive detection crystal violet and rhodamine 6G[J]. Optics and Laser Technology, 2022,145:107502£¨SCI¡¢EIÊÕ¼£©

[4] Dapeng Xu*, Yifan Zhang, Song Zhang, Wei Yang, Jian Chen. Ultrasensitive SERS detection of crystal violet and malachite green based on high surface roughness copper nanocorns prepared via solid-state ionics method[J]. Sensors and Actuators: A. Physical, 2021,331:113042£¨SCI¡¢EIÊÕ¼£©

[5] Dapeng Xu*, Weigang Kang, Song Zhang, Wei Yang, Qiaoqin Guo, Jian Chen. Solid-state ionics method fabricated high aspect ratio silver nanowires: Application in transparent conductive films[J]. Materials Science & Engineering B, 2020,262:114759£¨SCI¡¢EIÊÕ¼£©

[6] Dapeng Xu*, Hengze Jiang, Song Zhang, Wei Yang, Qiaoqin Guo, Yifan Zhang, Jian Chen. Centimeter-scale high nanoscale roughness silver nanoparticles decorated silver nanowires: A highly sensitive material towards melamine in milk[J]. Optical Materials, 2020,109:110471£¨SCI¡¢EIÊÕ¼£©

[7] Dapeng Xu*, Hengze Jiang, Song Zhang, Wei Yang, Yifan Zhang, Zixiong Wang, Jian Chen. High roughness gold nanoparticles/silver nanowires composites:Fabrication, characterization and ultrasensitive SERS detection towards Rhodamine B[J]. Microchemical Journal, 2020,158:105136£¨SCI¡¢EIÊÕ¼£©

[8] Dapeng Xu*, Zixiong Wang, Song Zhang , Wei Yang, Jian Chen. High performance SERS substrates using high surface roughness gold nanosheets assembled by nanowires[J]. Vibrational Spectroscopy, 2020, 107:103041£¨SCI¡¢EIÊÕ¼£©

[9] Dapeng Xu*, Weigang Kang, Song Zhang , Wei Yang, Yaping Lei, Jian Chen. Quantitative determination of melamine in milk by surface-enhanced Raman scattering technique based on high surface roughness silver nanosheets assembled by nanowires[J]. Microchemical Journal, 2019, 148:190-196£¨SCI¡¢EIÊÕ¼£©

[10] Dapeng Xu*, Weigang Kang, Song Zhang , Wei Yang, Hengze Jiang,Yaping Lei, Jian Chen. Fractal theory and controllable preparation of centimeter level silver nanowire arrays and their application in melamine detection as SERS substrates[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2019, 221: 117184£¨SCI¡¢EIÊÕ¼£©

[11] Dapeng Xu*, Wei Yang, Song Zhang,Yaping Lei, Jian Chen. Fractal theory study and SERS application of gold nanoparticles decorated centimeter level copper nanowire detectors[J]. Journal of Crystal Growth, 2019, 525: 125199£¨SCI¡¢EIÊÕ¼£©

[12] Dapeng Xu*,Yifan Zhang, Song Zhang, Wei Yang, Jian Chen. Solid-state ionics method fabricated centimeter level high surface roughness silver nanoparticles/copper nanowires composites: Fractal theory study and SERS application[J]. Optical Materials, 2019, 90: 194-199£¨SCI¡¢EIÊÕ¼£©

[13] Dapeng Xu*, Song Zhang, Wei Yang, Jian Chen. Controlled growth of centimeter level gold nanowires via a solid-state ionics method and their SERS effect[J]. Chemical Physics, 2018, 513: 116-119 £¨SCI¡¢EIÊÕ¼£©

[14]Dapeng Xu*, Wei Yang, Song Zhang, Jian Chen. High surface roughness gold nanoparticle/centimeter level silvernanowire heterostructure detectors for SERS application[J]. Sensors and Actuators A: Physical, 2018, 279: 457-461 £¨SCI¡¢EIÊÕ¼£©

[15] Dapeng Xu*, Hengze Jiang, Wei Yang, Song Zhang, Jian Chen. SERS effect of Rhodamine 6G molecular probe on AgAu alloy nanowire arrays by a solid-state ionics method[J]. Physica E: Low-dimensional Systems and Nanostructures, 2018, 102:132-136 £¨SCI¡¢EIÊÕ¼£©

[16] Dapeng Xu*, Jing Dong, Song Zhang, Jian Chen. Fractal theory study and SERS effect of centimeter level of coppernanobranch detectors by solid-state ionics method[J]. Sensors and Actuators A: Physical, 2018, 271: 18-23 £¨SCI¡¢EIÊÕ¼£©

[17] Dapeng Xu*, Song Zhang, Wei Yang, Jian Chen. Fabrication and surface enhanced Raman scattering effect of centimeter level AgCuAu composite nanowires[J]. Optical Materials, 2017, 72: 697-701£¨SCI¡¢EIÊÕ¼£©

[18] Dapeng Xu*, Weigang Kang, Wei Yang, Song Zhang, Jian Chen. Synthesis of centimeter level AgCu alloy nanowires via a solid-state ionics method and their SERS effect[J]. Journal of Alloys and Compounds, 2017, 725: 248-252£¨SCI¡¢EIÊÕ¼£©

[19] Dapeng Xu*, Jing Dong, Wei Yang, Song Zhang, Yuli Peng, Jian Chen. Solid-state ionics method fabricated centimeter level CuAu alloy nanowires: Application in SERS, Journal of Colloid and Interface Science, 2017, 500: 150-154£¨SCI¡¢EIÊÕ¼£©

[20] Dapeng Xu, Zhanmin Dong, Jia-Lin Sun. Fabrication of copper nanowires by a solid-state ionics method and their surface enhanced Raman scattering effect[J]. Materials Letters, 2013,92£º143-146£¨SCI¡¢EIÊÕ¼£©

[21] Dapeng Xu, Zhanmin Dong, Jia-Lin Sun. Fabrication of high performance surface enhanced Raman scattering substrates by a solid-state ionics method[J].Nanotechnology, 2012, 23£¨12£©: 125705£¨1-6£©£¨SCI¡¢EIÊÕ¼£©

[22] Dapeng Xu, Lajun Feng, Ali Lei. Characterizations of lanthanum trivalent ions/TiO₂ nanopowders catalysis prepared by plasma spray[J]. Journal of Colloid and Interface Science, 2009, 329(2):395-403£¨SCI¡¢EIÊÕ¼£©

[23]Dapeng Xu, Lajun Feng, Ali Lei. Preparation of TiO₂ nanopowders doped with Y³⁺ by plasma spray and characterizations[J]. Materials Letters, 2008, 62(17-18): 3297-3300£¨SCI¡¢EIÊÕ¼£©

[24]Lajun Feng, Dapeng Xu, Ali Lei. Preparation of TiO₂ Nanopowders by Plasma Spray and Characterizations[J]. Journal of Thermal Spray Technology, 2008, 17(4):473-477£¨SCI¡¢EIÊÕ¼£©

[25] Xu Dapeng, Feng Lajun, Lei Ali, Zhu Guang. Preparation and Properties of Lanthanum Trivalent Ion Doped TiO₂ Nanopowders by Liquid Plasma Spray[J].Journal of Rare Earths, 2007, 25( Sp. Iss. SI) : 570-574£¨SCI¡¢EIÊÕ¼£©

[26] Ðì´óÅô£¬ÕÅËÉ£¬ÑîΡ. ½ðÒøÍ­¸´ºÏÄÉÃ×ÏßÕóÁеÄÖƱ¸¼°ÆäSERSЧӦÑо¿[J]. ²»ÏÞip×¢²áËÍ37Ôª½ð±Òѧ±¨. 2018.38£¨5£©£º481-486

[27] Ðì´óÅô£¬ÕÅËÉ£¬ÑîΡ. Í­Àë×Ó²ôÔÓÄÉÃ׶þÑõ»¯îÑ´ß»¯¼ÁµÄ¸ÄÐÔÑо¿[J]. ²»ÏÞip×¢²áËÍ37Ôª½ð±Òѧ±¨. 2017.37£¨6£©£º431-437

[28] Ðì´óÅô£¬ÕÅËÉ£¬ÑîΡ. ¹Ì̬Àë×Óѧ·½·¨ÖƱ¸ºê¹ÛÒøÄÉÃ×ÏßÕóÁÐ[J]. ²»ÏÞip×¢²áËÍ37Ôª½ð±Òѧ±¨. 2017.37£¨5£©£º405-410

[29]·ëÀ­¿¡£¬Ðì´óÅô£¬À×°¢Àû£¬¸´Åä±íÃæ¸ÄÐÔ¼Á°ü¸²Í­Ð¿·ÛÄ©ÅäÖõĽðÓÍÄ«¼°ÖƱ¸·½·¨£¬·¢Ã÷רÀû£¬CN200610105072.8

[30] Ðì´óÅô£¬¶­Ý¼£¬ÑîΡ. ÄÉÃ×±íÃæÔöÇ¿À­ÂüÉ¢Éä»ùµ×µÄÑо¿½øÕ¹[J]. ²»ÏÞip×¢²áËÍ37Ôª½ð±Òѧ±¨. 2015.35£¨12£©£º1-8

[31]Ðì´óÅô£¬À×°¢Àû£¬·ëÀ­¿¡£¬ÑîÊ¿´¨. ÒºÁϵÈÀë×ÓÅçÍ¿·¨ÖƱ¸Fe3+/TiO2ÄÉÃ×·ÛÄ©Óë±íÕ÷[J].Ó¦Óûù´¡Ó빤³Ì¿Æѧѧ±¨, 2008, 16(3): 341-348 £¨EIÊÕ¼£©

[32]À×°¢Àû£¬Ðì´óÅô£¬·ëÀ­¿¡£¬Öì¹ã£¬Àî¸ßºê. ÈÈÅçÍ¿·¨ÖƱ¸µÄLa3+²ôÔÓÄÉÃ×TiO2·ÛÄ©µÄ±íÕ÷[J].º¸½Óѧ±¨, 2008, 29(8): 25-28 £¨EIÊÕ¼£©

[33]Ðì´óÅô£¬À×°¢Àû£¬·ëÀ­¿¡£¬ÑîÊ¿´¨. ÒºÁϵÈÀë×ÓÈÈÅç·¨ÖƱ¸Fe3+/TiO2ÄÉÃ×·ÛÄ©[J].º¸½Óѧ±¨,2008, 29(8): 49-52 £¨EIÊÕ¼£©

[34]·ëÀ­¿¡£¬Ðì´óÅô£¬À×°¢Àû. ±íÃæ¸ÄÐÔ¼Á¶Ôͭп·ÛÄ©±íÃæÈóʪÐÔºÍƯ¸¡ÐÔµÄÓ°Ïì[J].ÖйúÓÐÉ«½ðÊôѧ±¨.2008.18£¨8£©£º1566-1570£¨EIÊÕ¼£©

[35]·ëÀ­¿¡£¬Ðì´óÅô£¬À×°¢Àû. ӡˢͭ½ð·ÛµÄ±íÃæ°ü¸²¸ÄÐÔÑо¿[J].ÖйúÔìֽѧ±¨£¬ 2007, 22(4): 84-87£¨EIÊÕ¼£©

[36]·ëÀ­¿¡£¬Ðì´óÅô£¬ÑîÊ¿´¨. ¸ß¹âÔó¶È½ðÓÍÄ«Åä·½Éè¼Æ[J]. °ü×°¹¤³Ì. 2007. 28£¨3£©£º42-44