桂許春,中山大學電子與信息工程學院副教授。
基本介紹
- 中文名:桂許春
- 畢業院校:清華大學
- 職業:教師
- 職稱:副教授
教育經歷,授課課程,研究方向,科研項目,科研成果,榮譽記錄,代表性論著,
教育經歷
清華大學畢業。
授課課程
大學物理
大學物理實驗
研究方向
1. 二維原子晶體材料與光電器件
2. 柔性感測器件與電子皮膚
3.電磁波吸收與禁止
4. 新能源材料與器件
科研項目
1. 廣州市科技計畫項目,2019年-2021年3月,主持。
2. 國家自然科學基金面上項目,2018-2021,主持。
3. 中山大學“三大”建設科研培育專項項目,2018-2019,主持。
4. 廣東特支計畫-科技青年拔尖人才項目,2016-2019,主持。
5. 廣東省自然科學基金面上項目,2016-2019,主持。
6. 廣東省自然科學傑出青年基金項目,2015-2018 ,主持。
7. 高校基本科研業務費青年教師重點培育項目,2016-2017,主持,已結題。
8. 廣州市珠江科技新星專項,2014-2017,主持,已結題。
9. 國家自然科學基金青年基金,2012-2014,主持,已結題。
10. 廣東省自然科學基金博士啟動項目,2012-2014,主持,已結題。
科研成果
長期從事碳納米材料和二維材料的可控合成,及其在柔性感測器件、光電器件和吸波禁止中的套用研究。迄今已在Advanced Materials,Nano Letters等國際知名期刊發表SCI論文100餘篇,總SCI引用3700餘次,單篇最高引用超過870次;獲授權國家發明專利6項。
榮譽記錄
入選“廣東特支計畫”科技創新青年拔尖人才(2015年)
入選"香江學者"計畫(2015年)
入選中山大學優秀青年教師培養計畫(2015年)
入選廣東省自然科學傑出青年基金資助計畫(2014年)
入選廣州市珠江科技新星(2014年)
清華大學優秀博士畢業生 (2011年)
代表性論著
2019年
[1]. Mei H, Zhao X, Gui XC, Lu DW, Han DY, Xiao SS, Cheng LF. SiC encapsulated FeCNT ultra-high absorptive shielding material for high temperature resistant EMI shielding. Ceramics International, 2019.
[2]. Chen WJ, Gui XC, Yang LL, Zhu H, Tang ZK. Wrinkling of two-dimensional materials: methods, properties and applications. Nanoscale Horizons, 2019, 4, 291-320.
[3]. Mo ZC, Yang YL, Lu DW, Yang LL, Hu QM, Li HB, Zhu H, Tang ZK, Gui XC. Lightweight, three-dimensional carbon NanotubeTiO2 sponge with enhanced microwave absorption performance. Carbon, 2019, 144, 433-439.
[4]. Wu Y, Wang Y, Lin ZQ, Wang YY, Li Y, Liu SW, Gui XC, Yang X. Three-dimensional α-Fe2O3/amino-functionalization carbon nanotube sponge for adsorption and oxidative removal of tetrabromobisphenol A. Separation and Purification Technology, 2019, 211, 359-367.
[5]. Yang RL, Du HW, Lin ZQ, Yang LL, Zhu H, Zhang H, Tang ZK, Gui XC. ZnO nanoparticles filled tetrapod-shaped carbon shell for lithium-sulfur batteries. Carbon, 2019, 141, 258-265.
2018年
[1] Liang BH, Lin ZQ, Chen WJ, He ZF, Zhong J, Zhu H, Tang ZK, Gui XC. Ultra-stretchable and highly sensitive strain sensor based on gradient structure carbon nanotubes. Nanoscale, 2018, 10, 13599-13606.
[2] Du HW, Gui XC, Yang RL, Zhang H, Lin ZQ, Liang BH, Chen WJ, Zhu H, Chen J. ZnS nanoparticles coated with graphene-like nano-cell as anode materials for high rate capability lithium-ion batteries. Journal of Materials Science, 2018, 53, 14619-14628.
[3]. Chen JK, Wang LM, Gui XC, Ren DD, Chu YH, Wu Y, Meng KK, Miao J, Xu XG, Jing Y. Intrinsic transportation properties along and across the CNTs in self-supported 3D-CNT frameworks. Materials Chemistry and Physics, 2018, 216, 345-348.
[4]. He ZF, Chen WJ, Liang HB, Liu CY, Yang LL, Lu DW, Mo ZC, Zhu H, Tang ZK, Gui XC. A Capacitive Pressure Sensor with High Sensitivity and Fast Response to Dynamic Interaction Based on Graphene and Porous Nylon Networks. ACS Applied Materials and Interfaces, 2018, 10, 12816-12823.
[5]. Shen F, Zhang F, Zheng YJ, Fan ZY, Li ZH, Sun ZT, Xuang YY, Zhao B, Lin ZQ, Gui XC, Han XG, Cheng YH, Niu CM. Direct growth of 3D host on Cu foil for stable lithium metal anode. Energy Storage Materials, 2018, 13, 323-328.
[6]. Lu DW, Mo ZC, Liang BH, Yang LL, He ZF, Zhu H, Tang ZK, Gui XC. Flexible, lightweight carbon nanotube sponges and composites for high-performance electromagnetic interference shielding. Carbon, 2018, 129, 646-652.
[7]. Du HW, Gui XC, Yang RL, Lin ZQ, Liang BH, Chen WJ, Zheng YJ, Zhu H, Chen J. In-situ sulfur loading in graphene-like nano-cell by template-free method for Li-S batteries. Nanoscale, 2018, 10, 3877-3883.
[8]. Chen WJ, Gui XC, Li SS, Yang LL, Liang BH, Zhu H, She JC, Tang ZK. Fabrication of wrinkled graphene based on thermal-enhanced Rayleigh-Benard convection for field electron emission. Carbon, 2018, 129, 646-652.
2017年
[1]. Liang BH, Chen WJ, He ZF, Yang RL, Lin ZQ, Du HW, Shang YY, Cao AY, Tang ZK, Gui XC. Highly Sensitive, Flexible MEMS Based Pressure Sensor with Photoresist Insulation Layer. Small, 2017, 13, 1702422.
[2]. Chen WJ, Gui XC, Liang BH, Yang RL, Zheng YJ, Zhao CC, Li XM, Zhu H, Tang ZK. Structural Engineering for High Sensitivity, Ultrathin Pressure Sensors Based on Wrinkled Graphene and Anodic Aluminum Oxide Membrane. ACS Applied Materials & Interfaces, 2017, 9, 24111-24117.
[3]. Zhen YJ, Lin ZQ, Chen WJ, Liang BH, Du HW, Yang RL, He XF, Tang ZK, Gui XC. Flexible, sandwich-like CNTs/NiCo2O4 hybrid paper electrodes for all-solid state supercapacitors. Journal of Materials Chemistry A, 2017, 5, 5886-5894.
[4]. Chen WJ, Gui XC, Zheng YJ, Liang BH, Lin ZQ, Zhao CC, Chen HJ, Chen ZF, Li XM, Tang ZK. Synergistic Effects of Wrinkled Graphene and Plasmonics in Stretchable Hybrid Platform for Surface-Enhanced Raman Spectroscopy. Advanced Optical Materials, 2017, 5, 1600715.
[5]. Chen JK, Wang LM, Gui XC, Lin ZQ, Ke XY, Hao F, Li YL, Jiang Y, Wu Y, Shi X, Chen LD. Strong anisotropy in thermoelectric properties of CNT/PANI composites. Carbon, 2017, 114, 1-7.
2016年
[1]. Lin ZQ, Zeng ZP, Gui XC, Tang ZK, Zou MC, Cao AY. Carbon Nanotube Sponges, Aerogels, and Hierarchical Composites: Synthesis, Properties, and Energy Applications. Advanced Energy Materials, 2016, 6: 1600554.
[2]. Chen WJ, Gui XC, Liang BH, Liu M, Lin ZQ, Zhu Y, Tang ZK. Controllable Fabrication of Large-Area Wrinkled Graphene on a Solution Surface. ACS Applied Materials & Interfaces, 2016, 8, 10977-10984.
[3]. Zhou GX, Zhang H, Xu SP, Gui XC, Wei HQ, Leng JS, Koratkar N, Zhong J. Fast Triggering of Shape Memory Polymers using an Embedded Carbon Nanotube Sponge Network. Scientific Reports, 2016, 6, 24148.
2015年
[1] Lin ZQ, Gui XC, Zeng ZP, Liang BH, Chen WJ, Liu M, Zhu Y, Cao AY, Tang ZK. Biomimetic Carbon Nanotube Films with Gradient Structure and Locally Tunable Mechanical Property. Advanced Functional Materials, 2015, 25, 7173-7179.
[2] Cheng XP, Gui XC, Lin ZQ, Zheng YJ, Liu M, Zhan RZ, Zhu Y, Tang ZK. Three-dimensional α-Fe2O3/carbon nanotube sponges as flexible supercapacitor electrodes. Journal of Materials Chemistry A, 2015, 3, 20927-20934.
[3]. Lin ZQ, Gui XC, Gan QM, Chen WJ, Cheng XP, Liu M, Zhu Y, Yang YB, Cao AY, Tang ZK. In-Situ Welding Carbon Nanotubes into a Porous Solid with Super- High Compressive Strength and Fatigue Resistance. Scientific Reports, 2015, 5,11336.
[4]. Chen JK, Gui XC, Lin ZQ, Tang ZK, Lee MM, Wokaun A, Lippert T. Pulsed ultra-violet laser interactions with ultra-low-density porous carbon nanotube sponges.Carbon, 2015, 93, 604-610.
2010-2014年
[1]. Gui XC, Zeng ZP, Zhu Y, Li HB, Lin ZQ, Gan QM, Xiang R, Cao AY, Tang ZK. Three-Dimensional Carbon Nanotube Sponge-Array Architectures with High Energy Dissipation. Advanced Materials, 2014, 26, 1248-1253.
[2]. Zeng ZP, Gui XC, Gan QM, Lin ZQ, Zhu Y, Zhang WH, Xiang R, Cao AY, Tang ZK. Integrated Random-Aligned Carbon Nanotube Layers: Deformation mechanism under compression. Nanoscale, 2014, 6, 1748-1755.
[3]. Gui XC, Zeng ZP, Lin ZQ, Gan QM, Xiang R, Zhu Y, Cao AY, Tang ZK. Magnetic and Highly Recyclable Macroporous Carbon Nanotubes for Spilled Oil Sorption and Separation. ACS Applied Materials & Interfaces. 2013, 5, 5845-5850.
[4]. Gui XC, Lin ZQ, Zeng ZP, Wang KL, Wu DH, Tang ZK. Controllable synthesis of spongy carbon nanotube blocks with tunable macro- and microstructures. Nanotechnology, 2013, 24, 085705.
[5]. Zeng ZP, Gui XC, Lin ZQ, Zhang LH, Jia Y, Cao AY, Zhu Y, Xiang R, Wu TZ, Tang ZK. Carbon nanotube sponge-array tandem composites with extended energy absorption range. Advanced Materials, 2013, 25, 1185-1191.
[6]. Chen JK, Meng FQ, Gui XC, Sun HC, Zeng ZP, Li Z, Zhou YF, Tang ZK. The application of a three dimensional CNT-sponge as the counter electrode for dye-sensitized solar cells. Carbon, 2012,50, 5624-5627.
[7]. Gui XC, Zeng ZP, Cao AY, Lin ZQ, Zeng HQ, Xiang R, Wu TZ, Zhu Y, Tang ZK. Elastic Shape Recovery of Carbon Nanotube Sponges in Liquid Oil. Journal of Materials Chemistry, 2012, 22, 18300-18305.
[8]. Chen JK, Gui XC, Wang ZW, Li Z, Xiang R, Wang KL, Wu DH, Xia XG, Zhou YF, Wang Q, Tang ZK, Chen LD. Superlow Thermal conductivity 3D carbon nanotube network for thermoelectric applications. ACS Applied Materials and Interfaces, 2012, 4 , 81-86.
[9]. Gui XC, Li HB, Wang KL, Wei JQ, Jia Y, Li Z, Fan LL, Cao AY, Zhu HW, Wu DH. Recyclable carbon nanotube sponges for oil absorption. Acta Materialia, 2011, 59, 4798-4804.
[10]. Gui XC, Li HB, Zhang LH, Jia Y, Liu L, Li Z, Wei JQ, Wang KL, Zhu HW, Tang ZK, Wu DH, Cao AY. A Facile Route to Isotropic Conductive Nanocomposites by Direct Polymer Infiltration of Carbon Nanotube Sponges. ACS Nano, 2011, 5(6), 4276-4283.
[11]. Gui XC, Wei JQ, Wang KL, Xu EY, Lv RT, Zhu D, Guo ZG, Kang FY, Zhu YQ, Li DJ, Zhu HW, Wu DH. Super-low turn-on and threshold electric fields of plasma-treated partly Fe-filled carbon nanotube films.Materials Research Bulletin, 2010, 45, 568-571.
[12]. Gui XC, Wei JQ, Wang KL, Cao AY, Zhu HW, Jia Y, Shu QK, Wu DH. Carbon Nanotube Sponges. Advanced Materials, 2010, 22, 617-621.
[13]. Gui XC, Cao AY, Wei JQ, Li HB, Jia Y, Li Z, Fan LL, Wang KL, Zhu HW, Wu DH. Soft, highly conductive nanotube sponges and composites with controlled compressibility. ACS Nano, 2010, 4, 2310-2326.
[14]. Gui XC, Wang KL, Cao AY, Wei JQ, Lv RT, Kang FY, Shu QK, Jia Y, Wu DH. Selective microwave absorption of Iron-rich carbon nanotube composites. Journal of Nanoscience and Nanotechnology, 2010, 10, 1808-1813.