Research Progress

发布者:陈国华发布时间:2014-04-14浏览次数:507

Prize:
►2013 Key techniques and applications of reliability of silicon-based power integration First Prize of Technological Innovation Award, Ministry of Education 
►2013 Key techniques and applications of silicon-based MEMS producability design Second Prize of Technological Innovation Award, Chinese Institute of Electronics 
►2013 PLC type 1x8116132 optical power splitter series First Prize of Technological Innovation Award, Ministry of Education 
►2011 Research on key techniques and applications of secure electronic trade for countryside, peasants and agriculture  First Prize of S&T Progress Award, Jiangsu Province 
►2009 Techniques and applications of silicon integrated powver MOS devices and integration of high and low voltage Second Prize of National Technological Innovation Award 
►2008 Key techniques and applications of power MOS integrated circuit design and fabrication First Prize of S&T Progress Award, Jiangsu Province 
etc.
  

Patents:
►2012,our publishing papers included by SCI is about 143, included by EI about 129;
apply for 219 patents,authorized patents 84.
►2011,our publishing papers included by SCI is about 103, included by EI about 129;
apply for 210 patents,authorized patents 72.

etc.

 

Selected Publications :
►Pei Y, Wang Z, Zong S, et al. Highly sensitive SERS-based immunoassay with simultaneous utilization of self-assembled substrates of gold nanostars and aggregates of gold nanostars[J]. J. Mater. Chem. B, 2013. (IF 6.1)
►Zhou X, Zhang F, Sun X. Centralized PON Monitoring Scheme Based on Optical Coding[J]. 2013. (IF 2.0)
►Bi H, Yin K, Xie X, et al. Microscopic bimetallic actuator based on a bilayer of graphene and graphene oxide[J]. Nanoscale, 2013, 5(19): 9123-9128. (IF 6.2, cited 1)
►Bi H, Yin Z, Cao X, et al. Carbon Fiber Aerogel Made from Raw Cotton: A Novel, Efficient and Recyclable Sorbent for Oils and Organic Solvents[J]. Advanced Materials, 2013, 25(41): 5916-5921. (IF 14.8)
►Xie X, Zhou Y, Bi H, et al. Large-range Control of the Microstructures and Properties of Three-dimensional Porous Graphene[J]. Scientific reports, 2013, 3. (IF 2.9)
►Liu X, Xu T, Wu X, et al. Top–down fabrication of sub-nanometre semiconducting nanoribbons derived from molybdenum disulfide sheets[J]. Nature communications, 2013, 4: 1776. (IF 10.0, cited 2)
►Xu T, Yin K, Xie X, et al. Size‐Dependent Evolution of Graphene Nanopores Under Thermal Excitation[J]. Small, 2012, 8(22): 3422-3426. (IF 7.8, cited 3)
►He L, Xu T, Sun J, et al. Investment casting of carbon tubular structures[J]. Carbon, 2012, 50(8): 2845-2852. (IF 5.9, cited 1)
►Wu L, Wang Z, Zong S, et al. A SERS-based immunoassay with highly increased sensitivity using gold/silver core-shell nanorods[J]. Biosensors and Bioelectronics, 2012, 38(1): 94-99. (IF 5.4, cited 11)
►Chen J, Xu F, Wu J, et al. Flexible photovoltaic cells based on a graphene–CdSe quantum dot nanocomposite[J]. Nanoscale, 2012, 4(2): 441-443. (IF 6.2, cited 23)
►Xu S, Wang C, Zhang H, et al. Discriminative detection of bivalent Mn ions by a pH-adjustable recognition method via quantum dot fluorescence sensing[J]. Journal of Materials Chemistry, 2012, 22(18): 9216-9221. (IF 6.1, cited 6)
►Song C, Abell J L, He Y, et al. Gold-modified silver nanorod arrays: growth dynamics and improved SERS properties[J]. Journal of Materials Chemistry, 2012, 22(3): 1150-1159. (IF 6.1, cited 10)
►Bi H, Xie X, Yin K, et al. Spongy graphene as a highly efficient and recyclable sorbent for oils and organic solvents[J]. Advanced Functional Materials, 2012, 22(21): 4421-4425. (IF 9.8, cited 39)
►Bi H, Yin K, Xie X, et al. Low temperature casting of graphene with high compressive strength[J]. Advanced Materials, 2012, 24(37): 5124-5129. (IF 14.8, cited 15)
►Liu Q, Sun J, Lv H, et al. Real‐Time Observation on Dynamic Growth/Dissolution of Conductive Filaments in Oxide‐Electrolyte‐Based ReRAM[J]. Advanced Materials, 2012, 24(14): 1844-1849. (IF 14.8, cited 53)
►Wang Z, Zong S, Li W, et al. SERS-Fluorescence Joint Spectral Encoding Using Organic–Metal–QD Hybrid Nanoparticles with a Huge Encoding Capacity for High-Throughput Biodetection: Putting Theory into Practice[J]. Journal of the American Chemical Society, 2012, 134(6): 2993-3000. (IF 10.7, cited 26)
►Chen J, Li C, Eda G, et al. Incorporation of graphene in quantum dot sensitized solar cells based on ZnO nanorods[J]. Chem. Commun., 2011, 47(21): 6084-6086. (IF 6.4, cited 18)
►Zhang X Y, Hu A, Zhang T, et al. Self-assembly of large-scale and ultrathin silver nanoplate films with tunable plasmon resonance properties[J]. ACS nano, 2011, 5(11): 9082-9092. (IF 12.1, cited 32)
►Xu F, Sun L. Solution-derived ZnO nanostructures for photoanodes of dye-sensitized solar cells[J]. Energy & Environmental Science, 2011, 4(3): 818-841. (IF 11.7, cited 70)
►Shang J, Chen B, Lin W, et al. Preparation of wafer-level glass cavities by a low-cost chemical foaming process (CFP)[J]. Lab on a chip, 2011, 11(8): 1532-1540. (IF 5.7, cited 7)
►Zong S, Wang Z, Yang J, et al. Intracellular ph sensing using p-aminothiophenol functionalized gold nanorods with low cytotoxicity[J]. Analytical chemistry, 2011, 83(11): 4178-4183. (IF 5.7, cited 47)
►Wang Z, Zong S, Yang J, et al. Dual-mode probe based on mesoporous silica coated gold nanorods for targeting cancer cells[J]. Biosensors and Bioelectronics, 2011, 26(6): 2883-2889. (IF 5.4, cited 40s)
 

    

 

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