Zhangjian

[1] Zhiliang Wang‚ Junyu Zhu‚ Xuejiao Chen‚ Qiang Yan‚ Jian Zhang∗‚ Yun Chen‚ JSynthesis and magnetic properties of nickel nanoparticles deposited on the silicon nanowires‚ ournal of Alloys and Compounds‚ doi:10.1016/j.jallcom.2011.09.047

[2] Meiguang Zhu‚ Xuejiao Chen‚ Zhiliang Wang‚ Yun Chen‚ Dianfei Ma‚ Hui Peng‚ Jian Zhang‚Structural and optical characteristics of silicon nanowires fabricated by wet chemical etching‚ Chemical Physics Letters 511 (2011) 106–109

[3] Shichao Hui‚ Jian Zhang∗‚ Xuejiao Chen‚ Huhua Xu‚ Dianfei Ma‚ Yanli Liu‚ Bairui Tao‚ Study of an amperometric glucose sensor based on Pd–Ni/SiNW electrode‚ Sensors and Actuators B 155 (2011) 592–597

[4] Xuejiao Chen‚ Jian Zhang∗‚ Zhiliang Wang‚ Qiang Yan‚ Shichao Hui‚ Humidity sensing behavior of silicon nanowires with hexamethyldisilazane modification‚ Sensors and Actuators B 156 (2011) 631– 636

[5] Xue Jiao Chen‚ Jian Zhang‚ Dian Fei Ma‚ Shi Chao Hui‚ Yan Li Liu‚ Wei Yao‚ Preparation of gold–poly(vinyl pyrrolidone) core–shell nanocomposites and their humidity-sensing properties‚ J. Appl. Polym. Sci.‚Vol. 121‚No.1‚ (2011)‚ 1685-1690

[6] Bairui Tao‚ Jian Zhang‚ Fengjuan Miao‚ Shichao Hui‚ LiJuan Wan‚ Preparation and electrochemistry of NiO/SiNW nanocomposite electrodes for electrochemical capacitorsElectrochimica Acta‚ Vol. 55‚ No. 18‚ (2010) 5258-5262

[7] Bairui Tao‚ Jian Zhang∗‚ Shichao Hui‚ Xuejiao Chen‚ Lijuan Wan‚ An electrochemical methanol sensor based on a Pd–Ni/SiNWs catalytic electrode‚ Electrochimica Acta 55 (2010) 5019–5023

[8] Meiguang Zhu‚ Jian Zhang‚ Zhiliang Wang‚ Lijuan Wan‚ Xuejiao Chen‚ Effect of interfacial layer and series resistance on electrical characteristics‚ for the PtSi/p-SiNWs Schottky diode‚ Physica E43(2010)515–520

[9] Wei Yao‚ Xuejiao Chen‚ Jian Zhang∗A capacitive humidity sensor based on gold–PVA core–shell nanocomposites‚ ‚ Sensors and Actuators B 145 (2010) 327–333

[10] Bairui Tao‚ Jian Zhang∗‚ Shichao Hui‚ Lijuan Wan‚ An amperometric ethanol sensor based on a Pd–Ni/SiNWs electrode‚ Sensors and Actuators B 142 (2009) 298–303

[11] Bairui Tao‚ Jian Zhang‚ Fengjuan Miao‚ Huilin Li‚ LijuanWan‚ YitingWang‚ Capacitive humidity sensors based on Ni/SiNWs nanocomposites‚ Sens. Actuators‚ B 136 (2009) 144-150.

[12] Wan‚ LJ; Zhang‚ J; Chen‚ XJ‚ et al. Low-temperature solution selective growth of zinc oxide nanorods on different substrates ‚JOURNAL OF CERAMIC PROCESSING RESEARCH 11 ( 3) : 287-292 ‚ 2010

[13] LiJuan Wan‚ WenLi Gong‚ Kewei Jiang‚ HuiLin Li‚ BaiRui Tao‚ Jian Zhang “Preparation and surface modification of silicon nanowires under normal conditions”‚ Applied Surface Science 254 (2008) 4899–4907

[14] LiJuan Wan‚ WenLi Gong‚ KeWei Jiang‚ HuiLin Li‚ BaiRui Tao‚ Jian Zhang‚“Selective formation of silicon nanowires on pre-patterned substrates” ‚ Applied Surface Science 255（2008）3752-3758

[15] Huilin Li‚ Jian Zhang‚ BaiRui Tao‚ LiJuan Wan‚ WenLi Gong‚ “investigation of capacitive humidity sensing behavior of silicon nanowires”‚ Physica E: low-dimensional Systems and Nanostructures‚ Vol. 41‚ No. 4‚ 2009‚ 600-604. [

[16] Wang‚ Yiting‚ Yu L‚ Lei)‚ Zhu ZQ‚ Zhang J‚ Zhu JZ‚ Novel Uric Acid Sensor Based on Enzyme Electrode Modified by ZnO Nanoparticles and Multiwall Carbon Nanotubes ‚ ANALYTICAL LETTERS.‚ Vol: 42 ‚ No. 5 ‚ 775-789‚ 2009

[17] Wang YT‚ Yu L‚ Zhu ZQ‚ Zhang J‚ Zhu JZ‚ Fan CH ‚Improved enzyme immobilization for enhanced bioelectrocatalytic activity of glucose sensor SENSORS AND ACTUATORS B-CHEMICAL‚ Vol. 136‚ No. 2 ‚ 332-337 ‚ 2009

[18] Wang‚ XH; Yao‚ YL; Zhang‚ J‚ et al ‚Uric acid detection using quartz crystal microbalance coated with uricase immobilized on ZnO nanotetrapods ‚ SENSORS AND MATERIALS‚ Vol. 20‚ No. 3‚ 111-121‚ 2008

[19]Jiang‚ KW; Liu‚ WJ; Wan‚ LJ‚ et al. Manipulation of ZnO nanostructures using dielectrophoretic effect SENSORS AND ACTUATORS B-CHEMICAL‚ Vol. 134‚ No. 1‚ 79-88‚ 2008

[20] Liu‚ WJ; Zhang‚ J; Wan‚ LJ‚ et al. Dielectrophoretic manipulation of nano-materials and its application to micro/nano-sensors SENSORS AND ACTUATORS B-CHEMICAL‚ Vol. 133‚ No. 2‚ 664-670‚ 2008

[21] XF Zhou‚ J Zhang‚ T Jiang‚ ZQ Zhu‚ Humidity sensors based on quartz tuning fork coated with sol-gel derived nanocrystalline zinc oxide thin films‚ sensors and Actuators B‚ 123:299-305 2007.

[22] Xiaofeng Zhou‚ Jian Zhang‚ Xiaohua Wang‚ Tao Jiang‚ Humidity detection by nanostructured ZnO: A wireless quartz crystal microbalance investigation‚ Sensors and Actuators A 135: 209–214 2007

[23] Z Q Zhu‚ B Zhu‚ J Zhang‚ J Z Zhu‚ C H Fan‚ Nanocrystalline silicon-based oligonucleotide chips‚ Biosensors and Bioelectronics‚ 22(9-10): 2351-2355 2007.

[24] Zhu ZQ‚ Shao L‚ Zhang J ‚Zhu JZ ‚Porous silicon as a carrier of sensing materials in sensors‚ Rare Metal Materials and Engineering 35: 471-475‚ 2006

[25] Zhu ZQ‚ Zhang J‚ Zhu JZ‚ et al.人Fabrication and characterization of potassium ion-selective electrode based on porous silicon ‚IEEE Sensors Journal 7 (1-2): 38-42‚2007

[26] Wang XH‚ Zhang J‚ Zhu ZQ‚ et al.Humidity sensing properties of Pd2+-doped ZnO nanotetrapods Applied Surface Science 253 (6): 3168-3173‚2007

[27] Wang XH‚ Ding YF‚ Zhang J‚ et al.Humidity sensitive properties of ZnO nanotetrapods investigated by a quartz crystal microbalance ‚Sensors and Actuators B 115 (1): 421-427‚2006

[28] Wang XH‚ Zhang J‚ Zhu ZQ‚ et al.‚Effect of Pd2+ doping on ZnO nanotetrapods ammonia sensor‚ Colloids and Surfaces A 276 (1-3): 59-64 ‚2006

[29] Wang XH‚ Zhang J‚ Zhu ZQ‚ Ammonia sensing characteristics of ZnO nanowires studied by quartz crystal microbalance ‚Applied Surface Science 252 (6): 2404-2411‚2006

[30] Zhu ZQ‚ Zhang J‚ Zhu JZ‚ An overview of Si-based biosensors ‚Sensor Letters 3 (2): 71-88 2005

[31] Tan AWY‚ Tay FEH‚ Zhang J‚ Characterization of localized laser assisted eutectic bonds‚ Sensors and Actuators A 125 (2): 573-585 2006

[32] Ziqiang Zhu‚ Rong Wang‚ Xiaqin Wu‚ Jian Zhang‚ Jianzhong Zhu and Bin Zhu‚ Porous silicon-based cDNA array sensors‚ Senors‚ 2006‚ 5‚ in press

[33] Gao P‚ Zhang J‚ A piezoelectric microactuator with a threee-dimensional structure and its microfabrication‚ Sensors and Actuators B (Accepted)

[34] Zhang J‚ Au KH‚ Chang SY‚ Investigation of sol-gel derived Indium tin oxide thin films with poly(ethylene glycol) as an additive‚ Journal of Ceramic Processing Research (3): 208-213 2004

[35] Palaniappan A‚ Zhang J‚ Su XD‚ Tay FEH‚ Preparation of mesoporous silica films using sol-gel process and argon plasma treatment‚ Chemical Physics Letters 395 (1-3): 70-74 2004.

[36] Su XD‚ Zhang J‚ Comparison of surface plasmon resonance spectroscopy and quartz crystal microbalance for human IgE quantification‚ Sensors and Actuators B 100 (3): 309-314 2004.

[37] Chen SQ‚ Zhu ZQ‚ Zhu JZ‚ Zhang J‚ Shi YL‚ Ke Y‚ Wang WM‚ Wang XH‚ Feng XA‚ Luo LQ‚ Li S ‚ Hydroxyapatite coating on porous silicon substrate obtained by precipitation process‚ Applied Surface Science 230 (1-4): 418-424 2004.

[38] Chen Shaoqiang‚ Zhang Jian‚ Feng Xiao‚ Wang Xiaohua‚ Luo laiqiang‚ Shi Yanling‚ Xue Qingsong‚ Wang Chang‚Zhu Jianzhong‚ Zhu Ziqiang‚ Nanocrystalline ZnO thin films on porous silicon/silicon substrates obtained by sol–gel technique‚ Applied Surface Science‚241（1-6）‚384-391‚2005.

[39] Jian Zhang‚ Palaniappan A‚ Su XD‚ Tay FEH‚ Mesoporous silica thin films prepared by argon plasma treatment of sol-gel-derived precursor. Applied Surface Science (Accepted)

[40] J. Zhang‚ K. H. Au‚ Z. Q. Zhu and S. O´Shea‚Sol–gel preparation of poly(ethylene glycol) doped indium tin oxide thin films for sensing applications Optical Materials‚ Volume 26‚ Issue 1‚ 2004‚ Pages 47-55.

[41] J. Zhang ‚ J. Hu ‚ Z. Q. Zhu ‚ H. Gong and S. J. O’Shea‚Quartz crystal microbalance coated with sol–gel-derived indium–tin oxide thin films as gas sensor for NO detection Colloids and Surfaces A‚ Volume 236‚ Issues 1-3‚ 2004‚ Pages 23-30.

[42] Zhang J‚ O´Shea S‚Tuning forks as micromechanical mass sensitive sensors for bio- or liquid detection‚ Sensors and Actuators B 94 (1): 65-72 2003.

[43] Zhang J‚ Hu JQ‚ Zhu FR‚ Gong H‚ O´Shea SJ‚ITO thin films coated quartz crystal microbalance as gas sensor for NO detection‚ Sensors and Actuators B 87 (1): 159-167 2002.

[44] Zhang J‚ Hu JQ‚ Zhu FR‚ et al. Quartz Crystal Microbalance coated with sol-gel-derived thin films as gas sensor for NO detection‚ Sensors 3 (10): 404-414 2003

[45] Hu JQ‚ Zhu FR‚ Zhang J‚ et al. A room temperature indium tin oxide/quartz crystal microbalance gas sensor for nitric oxide‚ Sensors and Actuators B 93 (1-3): 175-180 2003.

[46] Zhang J‚ Su XD‚ O´Shea SJ‚ Antibody/antigen affinity behavior in liquid environment with electrical impedance analysis of quartz crystal microbalances‚ Biophysical Chemistry 99 (1): 31-41 2002.

[47] Wang XD‚ Hong GD‚ Zhang J‚ Lin BL‚ Gong HQ‚ Wang WY‚ Precise patterning of diamond films for MEMS application‚ Journal of Materials Processing Technology‚127 (2): 230-233 2002.

[48] Zhang J‚ Determination of Young´s modulus of electroplated nickel-iron (Ni/Fe) and micro-machined Si thin films by the balance method‚ Journal of Materials Processing Technology 123 (3): 329-335 2002.

[49] Zhang J‚ Dai CC‚ Su XD‚ O´Shea SJ‚ Determination of liquid density with a low frequency mechanical sensor based on quartz tuning fork‚ Sensors and Actuators B 84 (2-3): 123-128 2002.

[50] Su XD‚ Dai CC‚ Zhang J‚ O´Shea SJ‚Quartz tuning fork biosensor‚ Biosensors and Bioelectronics ‚17 (1-2): 111-117 2002.

[51] Zhang J‚ Tan KL‚ Gong HQ‚Characterization of the polymerization of SU-8 photoresist and its applications in micro-electro-mechanical systems (MEMS)‚ Polymer Testing 20 (6): 693-701 2001.

[52] Zhang J‚ Tan KL‚ Hong GD‚ Yang LJ‚ Gong HQ‚ Polymerization optimization of SU-8 photoresist and its applications in microfluidic systems and MEMS‚ Journal of Micromechanics and Microengineering 11 (1): 20-26 2001.