Zhang CV Nov 2014 张波教授 简历
“补拙斋主”张波印象
“补拙斋主”张波印象常志康【期刊名称】《《上海商业》》【年(卷),期】2012(000)011【总页数】2页(P76-77)【关键词】张波; 上海戏剧学院; 印象; 2008年; 书法家; 秘书长; 副主席; 嘉定区【作者】常志康【作者单位】【正文语种】中文【中图分类】F299.271认识张波是在2008年上海戏剧学院书法本科班上。
一位知名书法家第一次上课时看到他,说道, “张波应该在台上当教员”。
他是为充电而来的。
接触多了,大家感觉他言语不多、温和散淡,心境逍遥,待人以诚,鄙视浮躁。
在书法本科班学习期间,他加入了中国书协会员,又被选为上海书协理事、嘉定区书协副主席兼秘书长。
我调侃,“想散淡也不成了”。
“有责任就得为更多人做事了”,他说。
写张波得从他与墨伴随近三十个春夏秋冬的书道谈起。
别署“补拙斋主”张波,上海嘉定人,最初学的是国画,因对画上的题字不满意而于1984年起学习书法,书法家袁寿连带他走进了书法殿堂,从此一发而不可收。
八十年代中期,他开始在当地书法作品展获奖,又在“兰亭杯”全国青少年书法大赛中获奖,在嘉定区开始小有名气。
1988年,他被调到区文化馆任书法指导老师。
至今,他共有五十多次获奖或入展。
张波的书法成就主要在楷、隶、行三体。
细察他的楷书作品,迎入眼帘的是端庄秀整俊醇雅,淡定从容度超然,洗尽铅华见本真,沉静入骨见气息。
他的笔墨语言有一定深度,注入了精神、情感,流出了心境、学养。
字写到这种程度,源于他植根于传统。
他初从柳公权《玄秘塔》,后临颜真卿《勤礼碑》、《告身帖》,又临褚遂良《雁塔圣教序》,于王宠、锺繇和文征明小楷用功最多,他博采众长,对深入研究、对比钟繇的“古”、“雅”的法在理之中,王宠的“简”、“润”的理藏法之间,取钟繇的“古朴”与王宠的“鲜活”,他把钟繇之隶意、文征明之精致、王宠之圆润三者结合,“入古出新”,以意化之,终于熔得既“古质”又“今妍”的已貌。
书法家郭舒权言,“他的作品写得风流倜傥,典雅潇洒,水准在同辈中可谓佼佼者。
年国家自然科学奖
2019年度国家自然科学奖安徽省提名项目公示(一)项目名称大数据挖掘的若干模型和方法(二)提名意见该项目对大数据挖掘的若干模型和方法开展了深入研究,解决了大数据挖掘若干科学问题,例如,系统性地阐明大数据的基本特征,提出了大数据多层次处理框架;设计稀疏嵌入与最小方差下的哈希方法,有效解决训练数据集具有海量特征和高维特征的问题;发明了含缺失值的决策树分类子,可以直接有效地利用缺失数据。
研究成果发表在TKDE、TIP和PAMI等权威杂志,在国内外产生一定的学术影响,被同行引用2600多次、SCI 引用1100多次,获得了学术界和工业界的跟进发展和采用,推动了本学科及相关学科的发展。
项目材料填写规范,内容真实,经公示无异议。
对照国家自然科学奖授奖条件,提名该项目为国家自然科学奖二等奖。
(三)项目简介图灵奖获得者斯通布雷克教授认为,大数据的四种含义之一是大多样性,意指:处理来自太多源的数据必然导致令人畏惧的数据集成挑战。
数据集成的实质性困难在于多源数据的海量、异质异构和低质量性,这也一直是数据库领域的基础性关键研究问题。
该项目组在过十来年对大数据的上述挑战中海量、高维、动态和低质量等问题展开深入研究,揭示了大数据中模式的形态与演变态势,提出训练样本的分块挖掘方法、噪音数据和缺失数据利用模型,从而,在2013年阐明了大数据的四个基本特征:异构、自治、复杂和演化,凝练出HACE定理。
主要科学发现点如下:1、大数据的基本特征与挖掘框架:阐明大数据的基本特征,提出了大数据多层处理框架,为大数据分析提供了理论基础和应用框架;提出稀疏嵌入与最小方差下的哈希方法,用于处理海量特征和高维特征的训练数据集。
2、不完全动态大数据的模式发现:揭示大数据中模式的形态与演变态势,提出面向大数据的不完全信息下模式发现、动态模式发现和模式演变的模型与方法。
3、噪音以及缺失数据的模式质量:揭示噪音数据的可修正机制及缺失数据与已知数据之间的关联关系,提出误差感知下的贝叶斯分类器用于解决噪声数据清洗所带来的信息丢失和信息错误的问题。
论案例库在法学教学中的应用
教法课程◆教法◆教学[摘要]在现代化教学理念的背景下,传统的教学模式和教学法显然已经不能满足当前教育体制改革和深入发展的需求,在学科教学中,除了强调对学生专业技能的培养和训练以外,更加注重理论与实践的结合,重视对学生自主学习能力、实际操作能力和综合能力的培养。
基于此,案例教学法被提出,并被广泛地应用于教学中。
案例库在教学过程中取得显著的成效,对提高课堂教学效率和质量、提升学生专业技能和综合能力方面都具有重要的作用。
以法学教学为例,对案例库在法学教学中的应用进行分析,希望进一步优化案例库在法学教学中的应用,提高其运用效果。
[关键词]案例库;法学教学;应用[中图分类号]G642[文献标志码]A[文章编号]2096-0603(2017)25-0112-02论案例库在法学教学中的应用张波(山东理工大学法学院,山东淄博255000)在法学教学中,根据教学内容和教学要求,采用案例教学既是对课堂教学的深入和补充,实现课堂教学精彩生成,帮助学生更全面、更立体地掌握知识点和内化知识点,也是对学生自身能力的一种培养和挖掘,让学生借助案例自主分析、思考、互动探讨,在潜移默化中提升学生的思维能力、法学能力和综合实力。
当然,案例教学建立在完整的案例库基础上,能够满足各类法学教学的要求,并且所选择的案例具有典型性、代表性,能切实地反映教学问题和解决教学问题,以此来提升教学效果,构建高效课程。
一、案例库教学的基本特点案例库教学是将典型案例按照一定逻辑顺序进行汇编,作为教学的一种补充形式,相比于传统的教学模式,更加突显学生的主体性,重视对学生个性化的培养和发展。
在法学教学中,结合教材内容,让学生在案例库中自主查阅、分析相关的案例、去思考、归纳、总结,既能满足学生对基础知识的运用和专业技能的掌握,同样也强调对学生识别能力、思维能力、分析和解决具体问题能力的培养,以此达到教学的目的和教学的效果。
从客观的角度来看,案例库教学的基本特点主要表现在以下几个方面。
网络卫士张波:战斗在没有硝烟的战场
网络卫士张波:战斗在没有硝烟的战场作者:雷怡安来源:《一带一路报道》2020年第01期开栏语在《找回失落的工匠精神》一书中,工匠精神被这样定义:工匠精神是一种情怀、道德与操守,其核心要义在于,创造出无人匹敌的卓越产品。
回眸旧时光,老工匠以一针一线、一钉一锤,在灯火依稀处日复一日、年复一年地打磨手上的物件,慢工细活、不急不躁是他们对手上物件的尊重。
科技的发展给社会带来了日新月异的变化,老工匠们在社会的变迁里逐渐淡出人们的视线,但工匠精神却从未走远。
一批批年轻的工匠传承着这份精神,用新的方式、新的手段继续“打磨”着手中的“物件”,创造出一个又一个令人赞叹的奇迹。
他们的故事值得被记录,他们的名字值得被传颂。
人物名片:张波,中国电信四川公司网络技术专家,获得四川工匠、四川省五一劳动奖章、中国电信集团技术能手、中国电信四川公司突出员工等荣誉。
四川省网络安全竞赛中获团队第一名,个人第一名。
如果说看得见的战场硝烟弥漫,那么互联网就如同没有硝烟的战场,看似云淡风轻,殊不知背后却雷霆万钩。
在成都城西,一栋30层的高楼耸立于此,大楼像一面巨大的屏障为我们阻挡着来自夕卜界的各种攻击,这里就是中国电信四川枢纽中心。
在16层,记者见到了网络战场背后的守卫者张波。
80后的他和人说话时笑容满面,一副黑框眼镜衬得他十分儒雅,第一面让人无法将他与“网络卫士”的身份联系起来。
2019年8月,四川工匠评选结束,张波从全省众多候选人中脱颖而出获此殊荣。
他的获奖词这样写道:以精湛技艺、责任担当和敬业精神建设网络强国、为企业经营发展保驾护航。
作为一名网络技术专家,张波早已拥有了CISSP(国际注册信息系统安全专家)、CISP (注册信息安全专业人员)、HCDP(华为数据通信资深工程师)认证、RHCE(红帽认证工程师)等称号。
毫不夸张地说,在电信网络规则设定的这个层面他已经成为制定者和主导者。
大年初一的第一件事。
数字时代的来临,让世界变得越来越“小”,但随之也衍生出各种棘手的问题。
18、电子科技大学(罗萍)张波课题组
(一)课题组成员及导师名单(二)课题组主要研究方向与特点¾Power Devices¾(Bipolar) CMOS DMOS Process¾Power ICs功率集成技术实验室SOI High Voltage ICs:Novel integrated SOI power devices PDP Driver ICs High Voltage Gate Driver ICs High Voltage Control ICs High Voltage IC with Radiation-Hard2010-4-2911功率集成技术实验室功率集成理论-PSoC Power System on Chip2010-4-29Novel Integrated Power Devices Control Mode suited for SPIC Power Integrated Process Digital Assistant Power Design12功率集成技术实验室Power Device Control Theory BCD Process Power IC & PSoC2010-4-29 13功率集成技术实验室(三)课题组部分研究成果展示2010-4-2914Power management IC Series功率集成技术实验室Motor Driver ICs Motor Driver ICs2010-4-2915White LED Driver ICs White LED Driver ICs功率集成技术实验室2010-4-2916Power management IC Series功率集成技术实验室2010-4-2917电路理论功率集成技术实验室Pulse Skip Modulation (PSM)100Efficiency(%)90 80 70 60 50 20 40 60 Vin=2.0V Vin=1.8V Vin=1.5V Vin=1.2V 80 100I-out(mA)2010-4-2918Digitally Assisted Power Integration (DAPI) 功率集成技术实验室复杂负载SoC的低功耗设计问题数模混合SoC SIP2010-4-2919集成电路发展趋势ITRS功率集成技术实验室国 际 半 导 体 技 术 蓝 图2010-4-2920¾Realization of high voltage (> 700 V) in Device Letters¾New high-voltage (> 1200 V) MOSFET with the¾30(3):305-307, 2009 ¾¾ADI ¾NIKO(四)课题组在研的主要项目(五)课题组培养研究生的优势和竞争力(六)课题组对学生的要求。
基于单片机的智能避障小车
2020年8月第15期总第457期内蒙古科技与经济Inner Mongolia Science Technology & EconomyAugust 2020No. 15 Total No. 457基于卑片机的智饨建障小车张波,徐传旭,李 可,杨 智,王晨阳(苏州市职业大学电子信息工程学院,江苏苏州215104)摘要:以STC12C5A60S2单片机为控制核心设计了智能避障小车。
智能避障小车利用超声波模 块测距 实现超声波避障和物体踉随,用两对红外发射接收管实现红外避障和物体跟随,利用红外光电传 感觉器实现循迹功能,LED 数码管显示距离、温度等信息。
设计的智能避障小车稳定可靠,是智能小车 设计入门的学习佳晶,同时也可为智能机器人设计提供参考。
关键词:智能小车;STC12单片机;超宾波测距;红外避.障中图分类号:TP273 文献标识码:A 文章编号:1007—6921(2020)15—0100—02随着科技的进步,智能小车应用越来越广。
智能小车可以替代人在如易燃易爆、有毒有害气体、阴暗潮湿等恶劣环境中工作,完成搬运和检测等工 作此外,智能小车在流分拣传送、餐厅送餐和无 人工厂也有广泛的应用。
设计智能避障小车包括微 处理器技术、检测技术、电机控制技术等,综合性很 强。
笔者以STC12C5A60S2单片机为控制核心设 计了稳定可靠的智能避障小车。
1智能小车的系统构成L293驱动 电 机红外光电传感器 红外对管图1智能小车系统框图智能小车系统框图如图1所示。
智能避障小车 的控制以STC12C5A60S2单片机为核心,通过程序 完成相应控制功能;小车采用两个小型直流电机,配以来自德州仪器Unitrode 的电机驱动芯片L293? 智能小车前配有HC —SR04超声波测距模块,该模 块为小车提供2cm 〜400cm 的无接触式距离检测功 能;5mm 红外发射管和5mm 红外接收管共两对,可 帮助小车实现红外避障,红外跟随等功能;2个RPR220光电传感器,帮助小车实现循迹功能;CHQ1838红外接收管1个,接受来自红外遥控器的信号,帮助小车实现红外遥控功能;小车还配有温度 传感器DS18B20,光敏电阻,以帮助小车实现更多 的功能;配2个四位共阳数码管,显示超声波测距模 块测得的距离或温度;采用2节3. 7V 锂电池辅以 7805电源芯片供电。
机械通气模式的发展与临床应用评价
专题笔谈作者单位:解放军空军总医院呼吸科,北京100036E 2mail:zhangbohuxi@sina 1com机械通气技术的新进展【文章编号】1005-2194(2007)05-0326-03机械通气模式的发展与临床应用评价张 波【中图分类号】R5 【文献标志码】A 张波,医学博士,主任医师,硕士研究生导师。
现任解放军空军总医院呼吸科主任。
兼任中华医学会呼吸病分会呼吸衰竭学组委员,全军呼吸病专业委员会委员,《中国医疗》、《国际呼吸杂志》、《临床肺科杂志》、《内科理论与实践》、《世界急危重病医学杂志》等多种医学杂志的常务编委、编委和审稿人。
主要从事人工呼吸支持技术的临床和基础研究。
发表学术论文60余篇,出版机械通气专著2部,参加编写医学专著8部,获国家和军队科技进步奖多项。
连续4年承担国家级一类“机械通气技术临床应用新进展”继续医学教育项目。
【关键词】 呼吸,人工;呼吸衰竭Keywords Res p irati on,artificial;Res p irat ory failure 近年来,随着电子计算机技术、传感技术、呼吸监测技术与呼吸病理生理新理论的不断发展与融合,呼吸治疗技术有了长足的发展。
对严重呼吸衰竭的治疗观念较以往有了很大改变,新的机械通气模式不断出现并应用于临床,为临床医生提供更多的治疗选择。
传统的机械通气模式在临床应用过程中也被不断赋予新的内容。
如何评价这些新的机械通气模式和实际应用价值,以及如何正确应用好传统的机械通气模式,根据患者的病理生理特征实施个体化通气治疗是危重病医学领域研究的热点问题。
本文重点介绍在这一领域中的研究进展。
1 传统通气模式与新通气模式所有通气模式可归为2大类:完全通气支持(呼吸机提供患者的整个分钟通气量)和部分通气支持(分钟通气量由呼吸机和患者的自主呼吸2部分构成)。
完全通气支持包括:控制或辅助2控制通气(contr ol mode ventilati on,C MV )、设定呼吸频率接近正常呼吸频率时的同步间歇指令通气(synchr onized inter m ittent mandat ory ventilati on,SI M V )、压力调节容量控制通气(p ressure regulated volu me contr ol,PRVC )。
急性间质性肺炎的诊断与治疗[1]
![急性间质性肺炎的诊断与治疗[1]](https://img.taocdn.com/s3/m/7dcc4aebe009581b6bd9eb88.png)
・专论・急性间质性肺炎的诊断与治疗张波 作者单位:100142 北京,空军总医院呼吸科 作者简介:主任医师、教授。
现任空军总医院呼吸科主任,解放军军医进修学院/解放军总医院硕士研究生导师。
中国医师协会呼吸医师分会委员,北京医师协会呼吸医师专家委员会副主任委员,解放军呼吸专业委员会委员,中华医学会呼吸病分会重症监护与呼吸生理学组成员。
《中国实用内科杂志》、《中国呼吸与危重监护杂志》、《世界急危重病杂志》、《内科理论与实践杂志》、《临床肺科杂志》编委,《国际呼吸杂志》、《中国医疗杂志》常务编委,《中华医学杂志》、《中华结核和呼吸杂志》、《武警医学》杂志特约审稿人和定稿专家。
发表各类学术论文60余篇,获国家科技进步二等奖1项,军队科技进步二等奖1项,军队医疗成果二等奖两项,主编机械通气专著2部,参与编写大型呼吸系统疾病专著5部。
主编《无创正压通气治疗技术指南》光盘1套。
承担国家级Ⅰ类继续医学教育项目两项,分别为“机械通气技术临床应用新进展”、“免疫功能低下和器官移植后肺部并发症诊断与治疗新进展”。
承担军队Ⅰ类继续医学教育项目1项。
专业特长:呼吸危重病救治和机械通气技术临床应用,呼吸疑难/少见病的诊断和治疗,重症肺部感染的诊断与治疗,骨髓移植及肾移植后肺部并发症的处理等。
急性间质性肺炎(acute interstitial pneumonia ,A IP )又称为Hamman 2Rich 综合征,主要临床病理特征表现为特发性间质性肺炎导致急进性呼吸衰竭,既往无基础肺疾病和迅速发展的呼吸衰竭是A IP 区别于其他慢性间质性肺炎的重要特征。
A IP 的病因和发病机制尚不明确,临床、影像和病理表现均无特征性,早期诊断困难,治疗预后很差,有必要对该病进行深入了解。
1 历史背景和术语[1]A IP 的概念由Katzenstein 等在1986年首次提出,其临床病理改变与Hamman 2Rich 综合征基本相同,因此多数学者认为A IP 与Hamman 2Rich 综合征是同一疾病的不同名称。
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Bo Zhang Associate Professor of ChemistryDepartment of Chemistry University of Washington Box 351700Seattle, WA 98195-1700 zhang@209 Bagley Hall206.543.1767Fax 206.685.8665 /zhangb/index.html /chem/people/faculty/zhang.htmlE DUCATIONPh.D., Chemistry, University of Utah (Advisor: Henry S. White) 2002–2006 Thesis: The Development and Analytical Application of Glass Nanopore ElectrodesM.S., Chemistry, Peking University (Advisor: Shengmin Cai) 1999–2002 Thesis: Electrochemical Properties of Au-Nanoparticle ArraysB.S., Chemistry, Shandong University (Advisor: Houyi Ma) 1995–1999 Thesis: Current Oscillation during Electrochemical Oxidation of Iron ElectrodeP ROFESSIONAL E XPERIENCEAssociate Professor with tenure2014–present Assistant Professor2008–2014 Department of Chemistry, University of WashingtonPostdoctoral Research Associate2006–2008 Department of Chemistry, Pennsylvania State University (Advisor: Andrew G. Ewing)R ESEARCH I NTERESTSFluorescence-Enabled Electrochemical Microscopy (FEEM); Single-Nanoparticle Electrocatalysis; Neuronal Communication; Electrode/Solution InterfaceH ONORS AND A WARDS2014 Selected as one of the Top 40 under 40 by Analytical Scientist2013 Young Investigator Award, Society for Electroanalytical Chemistry2012 Sloan Research Fellowship, Alfred P. Sloan Foundation2011 Junior Faculty Development Award, University of Washington2010 Royalty Research Award, University of Washington2007 Travel Award, Gordon Research Conference on Electrochemistry2006 Travel Award, Gordon Research Conference on Electrochemistry2006 Graduate Travel Award, University of Utah2005 Graduate Research Fellowship, ACS Division of Analytical Chemistry2005 Chinese Government Award for Outstanding Students Abroad2001 Wusi Fellowship, Peking University1998 Student Scholarship, Shandong University1997 Award for Excellent Student, Shandong University1997 Award for Excellent Student Leader, Shandong UniversityP UBLICATIONS(*corresponding author; ‡undergraduate coworkers)40. Oja, S. M.; Zhang, B.* “Imaging Transient Formation of Diffusion Layers withFluorescence-Enabled Electrochemical Microscopy.” Anal. Chem.revision submitted.39. Oja, S. M.; Guerrette, J. P.; David, M. R.; ‡ Zhang, B.* “Electrochemical Oxidation ofDihydroresorufin as a New Indicator Reaction for Fluorescence-Enabled Electrochemical Microscopy.” Anal. Chem. 2014, 86, 6040–6048.38. Percival, S. J.; Zhang, B.* “Study of the Formation and Quick Growth of Thick OxideFilms Using Platinum Nanoelectrodes as a Model Electrocatalyst.” Langmuir 2014, 30, 11235–11242.37. Guo, Z. H.; Percival, S. J.; Zhang, B.* “Chemically-Resolved Transient CollisionEvents of Single Electrocatalytic Nanoparticles” J. Am. Chem. Soc. 2014,136, 8879–8882.36. Percival, S. J.; Vartanian, N.;‡ Zhang, B.* “Laser-pulled Ultralong Metal Nanowires.”RSC Advances2014, 4, 10491–10498.35. Cox, J. T.; Gunderson, C.; and Zhang, B.* “The effects of Outer Sphere RedoxSpecies to the Kinetics of Carbon-Fiber Microelectrodes.” Electroanalysis2013, 25, 2151–2158.34. Percival, S. J.; Zhang, B.* “Electrocatalytic Activity of Single Pt Nanowir eElectrode.” J. Phys. Chem.2013, 117, 13928–13935.33. Park, J. H.; Thorgaard, S. N.; Zhang, B.; Bard, A. J.* “Single Particle Detection byArea Amplification–Single Wall Carbon Nanotube Attachment to a Nanoelectrode.” J.Am. Chem. Soc.2013, 135,5258–5261.32. Park, J. H.; Zhou, H.; Percival, S. J.; Zhang, B.; Fan, F-R. F.; Bard, A. J.* “OpenCircuit (Mixed) Potential Changes Upon Contact Between Different Inert Electrodes–Size and Kinetic Effects.” Anal. Chem. 2013, 85, 964–970.31. Guerrette, J. G.; Percival, S. J.; Zhang, B.* “Fluorescence Coupling forElectrochemical Heterogeneity.” J. Am. Chem. Soc.2013, 135, 855–861.30. Oja, S. M.; Percival, S. J.; Zhang, B.* “Nanoscale Electrochemistry.” Anal. Chem.2013, 85, 473–486. (Invited Review)29. Percival, S. J.; Zhang, B.* “Electrocatalysts under the Microscope.” Nature Nanotech.2012, 7, 615–616. (News & Views)28. Cox, J. T.; Zhang, B.* “Nanoelectrodes, Recent Advances and New Directions.” Annu.Rev. Anal. Chem.2012, 5, 253–272.(Invited)27. Cox, J. T.; Guerrette, J. P.; Zhang, B.* “Steady-State Voltammetry of aMicroelectrode in a Closed Bipolar Cell.” Anal. Chem.2012, 84, 8797–8804.26. Guerrette, J. G.; Oja, S. M.;‡Zhang, B.* “Coupled Electrochemical Reactions atBipolar Microelectrodes and Nan oelectrodes.” Anal. Chem.2012, 84, 1609–1616.25. Guerrette, J. G.; Percival, S. J.; Zhang, B.* “Voltammetric Behavior of GoldNanotrench Electrodes.” Langmuir2011, 27, 12218–12225.24. Lan, W. J.; Holden, D. A.; Zhang, B.; White, H. S.* “Nanoparticle Tr ansport inConical-Shaped Nanopores.” Anal. Chem.2011, 83,3840–3847.23. Kwon, S. J.; Zhou, H. J.; Fan, F. F.-R.; Vorobyev, V.; Zhang, B.; and Bard, A. J.*“Stochastic electrochemistry with electrocatalytic nanoparticles at inert ultramicroelectrodes–the ory and experiments.” Phys. Chem. Chem. Phys.2011, 13, 5394–5402.22. Adams, K. L.; Jena, B. K.; Percival, S. J.; Zhang, B.* “Highly-Sensitive Detection ofExocytotic Dopamine Release using a Gold-Nanoparticle-Network Microelectrode.”Anal. Chem.2011, 83,920–927.21. Zhang, B.; Heien, M. L. A. V.; Santillo, M. F.; Mellander, L.; Ewing, A. G.*“Temporal Resolution in Electrochemical Imaging on Single PC12 Cells Using Amperometry and Voltammetry at Microelectrode Arrays.” Anal. Chem. 2011, 83, 571–577.20. Guerrette, J. P.; Zhang, B.* “Scan-Rate Dependent Current Rectification of Cone-Shape Silica Nanopores in Quartz Nanopipettes.” J. Am. Chem. Soc.2010, 132, 17088–17091.19. Jena, B. K.; Percival, S. J.; Zhang, B.* “Au Nanoelectrode by ElectrochemicalDep osition in a Nanopore.” Anal. Chem.2010, 82,6737–6743.18. Nelson, T.; Zhang, B.; and Prezhdo, O. V.* “Detection of Nucleic Acids withGraphene Nanopores: Ab Initio Characterization of a Novel Sequencing Device.”Nano Lett.2010, 10,3237–3242.17. Li, Y.; Cox, J. T.; and Zhang, B.* “Electrochemical Response and Electrocatalysis atsingle Au Nanoparticles.” J. Am. Chem. Soc. 2010, 132, 3047–3052.16. Adams, K. L.; Engelbrektsson, J.; Voinova, M.; Zhang, B.; Eves, D. J.; Karlsson, R.;Heien, M.; Cans, A. S.; Ewing, A. G.* “Steady-State Electrochemical Determination of Lipidic Nanotube Diameter Utilizing an Artificial Cell Model.” Anal. Chem.2010, 82, 1020–1026.15. Zhang, B.*; Wood, M.; Lee, H. “A Silica Nanochannel and Its Applications in Sensingand Mole cular Transport.” Anal. Chem.2009, 81, 5541–5548.14. Li, Y.; Bergman, D.°; and Zhang, B.* “The Preparation and Electrochemical Responseof 1-3 nm Pt Electrodes.” Anal. Chem.2009, 81, 5496–5502.Prior to the University of Washington13. Zhang, B.; Adams, K. L.; Luber, S.; Heien, M., Ewing, A. G. “Spatially andTemporally Resolved Single-Cell Exocytosis with Individually-Addressable Carbon Microelectrode-Arrays.” Anal. Chem.2008, 80, 1394–1400. (Accelerated Article) 12. Zhang, B.; Galusha, G.; Shiozawa, P. G.°; Wang, G.; Bergren, A. J.; Johns, R. M.;White, R. J.; Ervin E. N.; Cauley, C. C.; White, H. S. “A Bench-Top Method for Fabricating Glass-Sealed Nanodisk Electrodes, Glass Nanopore Electrodes, and Glass Nanopore Membranes of Controlled Size.” Anal. Chem.2007, 79, 4778–4787.(Accelerated Article)11. White, R. J.; Zhang, B.; Daniel, S.; Tang, J.; Ervin, E. N.; Cremer, P. S.; White, H. S.“Ionic Conductivity of the Aqueous Layer Separating a Lipid Bilayer Membrane and a Glass Support.” Langmuir2006, 22, 10777–10783.10. Wang, G. L.; Zhang, B.; Wayment, J. R.; Harris, J. M.; White, H. S. “Electrostatic-Gated Transport in Chemically Modified Glass Nanopore Electrodes.” J. Am. Chem.Soc.2006, 128, 7679–7686.9. Zhang, B.; Zhang, Y.; White, H. S. “Steady-State Voltammetric Response of theNanopore Electrode.” Anal. Chem.2006, 78, 477–483.8. Zhang, Y.; Zhang, B.; White, H. S. “Electrochemistry of Nanopore Electrodes in LowIonic Strength Solutions.” J. Phys. Chem. B. 2006,110, 1768–1774.7. Watkins, J. J.; Zhang, B.; White, H. S. “Electrochemistry at Nanometer-ScaledElectrodes.” J. Chem. Edu.2005, 82, 712–719.6. Zhang, B.; Zhang, Y.; White, H. S. “The Nanopore Electrode.”Anal. Chem. 2004, 76,6229–6238.5. Wang. W. L.; Zhai, J.; Jiang, L.; Bai, F. L.; Ren, Y. J.; Zhang, B.; Cai, S. M. “NovelPhotoactive Self-Assembled Rigid Monolayer of a Perylene Derivative: Fabrication and Characterization.” Colloids Surf., A 2005, 257-258, 489–495. (Special Issue)4. Wang. W. L.; Zhai, J.; Jiang, L.; Bai, F. L.; Ren, Y. J.; Zhang, B.; Cai, S. M.“Perylene Derivative Based Self-Assembled Monolayer on ITO Electrode Surfaces.”International Journal of Nonlinear Sciences and Numerical Simulation2002, 229–232. (Special Issue)3. Yan, J.; Li, J. J.; Zhang, B.; Cai, S. M. “Direct Electrochemistry of Cytochrome C-551from Pseudomonas Aeruginosa at ITO Electrodes.” Acta Physico-Chimica Sinica 2001, 17, 1126–1128.2. Zhang, B.; Zhang, Z. J.; Wang, B.; Yan, J.; Li, J. J.; Cai, S. M. “Preparation of GoldNanoelectrode Array on Silicon Substrate and Its Electrochemical Properties-Probe into Biosensors Based on Electroluminescence of Porous Silicon.” Acta Chimica Sinica2001, 59, 1932–1936.1. Zhao, S. Y.; Zhang, B.; Ma, H. Y.; Chen, S. H. “A Study of Designed CurrentOscillations of Fe in H2SO4Solution.” Acta Chimica Sinica2000,58, 1670–1673. Book Chapters1. Bo Zhang, Gangli Wang, and Henry S. White, “Glass Nanopore Electrodes,” in Handbook ofElectrochemistry, C.G. Zoski, Ed.;Elsevier, Amsterdam, 2007, Chapter 6, Section 6.3.11, pp 254–260.Patents4. “Fluorescence-Enabled Electrochemical Detection and Imaging.” Bo Zhang, Joshua P.Guerrette, Stephen J. Percival. UW Patent Discloser, submitted on March 21, 2013.3. “DNA Sequencing with a Graphene Nanopore.” Bo Zhang, Stephen P ercival, Marissa Wood.UW Patent Discloser, submitted on November 24, 2009.2. “A Silica Nanopore Sensor.” Bo Zhang. UW Patent Discloser, submitted on May 15, 2009. 1. “Nanopore Electrode and Nanopore Membrane, Methods of Preparation and SurfaceModificati on, and Use Thereof.” Henry S. White, Bo Zhang, Ryan J. White, Eric N. Ervin, and Gangli Wang. U.S. Patent: 7,849,581.P RESENTATIONSInvited Seminars at Universities and Other Research Institutions29. Department of Chemistry, Shanghai Jiaotong University, Shanghai, China July 201528. Department of Chemistry, Busan university, Busan, Korea Aug 201527. Department of Chemistry, Seoul National University, Seoul, Korea Aug 201526. Department of Chemistry and Biochemistry, University of Arizona, Tucson, AZ Feb., 2015 25. Department of Chemistry, Oregon State University, Nov., 201424. Department of Chemistry, Tsinghua University, Beijing, China, Oct. 25, 2013.23. Department of Chemistry, Peking University, Beijing, China, Oct. 25, 2013.22. Department of Chemistry, University of Illinois at Urbana–Champaign, Sep. 13, 2013.21. Department of Chemistry & Biochemistry, University of Maryland at Baltimore County,Baltimore, MD, Sep. 10, 2013.20. Department of Chemistry, Georgia State University, Atlanta, GA, Mar. 15, 2013.19. Department of Chemistry, University of Pittsburgh, Pittsburgh, PA, Jan. 24, 2013.18. Department of Chemistry, University of North Carolina, Chapel Hill, Nov. 12, 2012.17. Department of Chemistry & Biochemistry, University of Texas, Austin, Nov. 8, 2012.16. Department of Chemistry, Texas A&M University, College Station, TX, Nov. 6, 2012.15. Department of Chemistry, Vanderbilt University, Nashville, TN, Sep. 17, 2012.14. Department of Chemistry, Beijing Normal University, Beijing, China, Sep. 2, 2012.13. Dept. of Chemistry & Biochemistry, University of Notre Dame, South Bend, IN, Aug. 30, 2012.12. Department of Chemistry, Indiana University, Bloomington, IN, Aug. 28, 2012.11. Department of Chemistry & Biochemistry, University of Maryland, Baltimore County,Baltimore, MD, Mar. 27, 2012. (Cancelled and Rescheduled due to flight cancellation)10. Department of Chemistry, University of Utah, Salt Lake City, UT, Feb. 28, 2011.9. Center for Electrochemistry, University of Texas at Austin, Austin, TX, Feb. 19, 2011.8. Department of Physics, University of Washington, Seattle, Dec. 2, 2009.7. Department of Chemistry, University of Idaho, Moscow, ID, Dec. 1, 2009.6. Center for Nanotechnology, University of Washington, Seattle, Feb. 17, 2009.5. Department of Chemistry, University of Washington, Seattle, Jan. 7, 2008.4. Department of Chemistry, University of Massachusetts, Amherst, Dec. 2007.3. Department of Chemistry, Iowa State University, Ames, IA, Dec. 2007.2. Department of Chemistry & Biochemistry, Texas Tech University, Lubbock, TX, Dec.6, 2007.1. Department of Chemistry, University of Kansas, Lawrence, KS, Nov. 2007.Invited Presentations at Conferences and Other Scientific Meetings19. IUPAC Symposium on “Electroanalysis and Nanobio sensor” Busan, Korea Aug 201518. Pittcon, New Orleans, LA, March 10, 2015.17. Pittcon, Chicago, IL, March 15, 2014.16. Keynote address, Beijing Conference and Exhibition on Instrumental Analysis (BCEIA)Meeting, Beijing, China, October 24, 2013.15. Charles N. Reilley and Young Investigator Award Symposium, Pittcon, Philadelphia, PA,March 18, 2013.14. Pittcon, Orlando, FL, March 15, 2012.13. Pittcon, Orlando, FL, March 12, 2012.12. ACS Southwest Regional Meeting, Austin, TX, November 10, 2011.11. BCEIA Meeting, Beijing, China, October 12, 2011.10. Catalysis Science Program Meeting, Department of Energy, Washington, DC, Oct. 2, 2011.9. 7th Potter’s Lodge Meeting on Electrochemistry, Blue Mountain Lake, NY, September 7, 2011.8. Pittcon, Atlanta, GA, March 13, 2011.7. NIH NHGRI Meeting, Chapel Hill, NC, March 10, 2010.6. Pittcon, New Orleans, LA, March 2, 2010.5. Pittcon, New Orleans, LA, March 1, 2010.4. Pittcon, New Orleans, LA, February 28, 2010.3. 6th Potter’s Lodge Meeting on Electrochemist ry, Blue Mountain Lake, NY, September 9, 2009.2. Pittcon, Chicago, IL, March 10, 2009.1. 12th International Conference on in vivo methods, Vancouver, BC, August 12, 2008. Other Presentations and Posters at Conferences7.Joshua Guerrette, Department of Chemistry, University of Hawaii, Feb. 20, 2013. (invitedpresentation)6. Poster at Pittcon by graduate student Joshua Guerrette, Orlando, FL, March 12, 2012.5. Poster at Pittcon by graduate student Jonathan Cox, Pittcon, Atlanta, GA, March 13, 2011.4. Attendee, Pittcon, Chicago, IL, February 2007.3. Poster at Gordon Research Conference on Electrochemistry, Ventura, CA, Jan. 2007.2. Poster at Gordon Research Conference on Electrochemistry, Buellton, CA, Feb. 2006.1. Poster at the Joint Regional Meeting of the Northwest and Rocky Mountain Sectionsof the American Chemical Society, Logan, UT, June 2004.R ESEARCH S UPPORTCurrentAir Force Office of Scientific Research (MURI) (Co-PI) 1/2014–1/2019 $1,000,000 Electrochemical Imaging and Mechanistic Studies on the Nanometer ScaleNational Science Foundation (PI) 8/2012–8/2015 $230,000 Fluorescence-Enabled Electrochemical DetectionNational Institutes of Health (PI) 4/2012–3/2017 $1,384,856 New Electroanalytical Methods for Single-Cell ExocytosisDefense Threat Reduction Agency (Co-PI) 8/2011–8/2016 $500,000 Fundamental Aspects of Single Molecule and Zeptomole ElectroanalysisPendingNational Science Foundation (PI) 8/2015–7/2018 $480,000 Fluorescence-Enabled Electrochemical MicroscopyPastAlfred P. Sloan Foundation (PI) 9/2012–9/2014 $50,000 Single-Particle ElectrocatalysisUniversity of Washington Royalty Research Fund (PI) 6/2010-05/2011 $30,000 Single-Nanoparticle ElectrochemistryP ROFESSIONAL A CTIVITIES AND S ERVICEProfessional ServiceFeatures Panel, Analytical Chemistry 2015-2018Board of Directors, Society of Electroanalytical Chemistry, 2013–2017Conference OrganizationDiscussion Leader, Gordon Research Conference on Electrochemistry, Ventura, CA, January 2014.“Electrochemical Imaging in Neurochemistry with Microelectrodes and Nanoelectrodes” Symposium, Pittcon, Orlando, FL, March 2012.“Electrochemistry at Nanoscale and Single Nanoparticles” Symposium, Pittcon, Atlanta, GA, March 2011.Professional Society MembershipAmerican Chemical SocietySociety of Electroanalytical ChemistryReviewer for Journals:ACS Nano, ACS Applied Materials & Interfaces, Analyst, Analytical Chemistry, Analytical Letters, Analytical Methods, Chemical Science, Electroanalysis, Journal of Electroanalytical Chemistry, Journal of the American Chemical Society, Langmuir, Nano Letters, Nature Nanotechnology, Scientific Reports, TalantaReviewer for Funding Agencies:NSF review panel (March 2013), NIH (March 2014)Department and University ServiceChemistry Graduate Applications and Recruiting Committee, 2008–present Chemistry Graduate Exam Committees, 2008–presentM ENTORINGCurrent Graduate StudentsChu Han 2013-presentYunshan,Fan 2013-presentChristopher Gunderson 2012–presentStephen M. Oja 2012–presentStephen J. Percival 2009–presentCurrent Postdoctoral Researchers and VisitorsDr. Rui Hao 9/2013–presentDr. Ming Zhou 1/2013–presentDr. Jin Lu 7/2014-presentDr. Gang Xue 8/2014-presentDr. Cairong Gong 8/2014-presentCurrent Undergraduate ResearchersPh.D. Dissertations SupervisedDr. Marissa Wood 2008–2014Current position: University of WashingtonDr. Joshua Guerrette 2009–2013Current position: Postdoctoral Associate, University of North CarolinaDr. Jonathan T. Cox 2008–2012Current position: Postdoctoral Associate, PNNLFormer Postdoctoral Research Associates and VisitorsDr. Zhihui Guo 10/2012–01/2014Current position: Associate Professor, Shaanxi Normal University ChinaDr. Joshua Guerrette 2013Current position: Postdoctoral Associate, University of North CarolinaDr. Kelly Adams 2010–2011Current position: Senior Research Scientist, Albany Molecular Research, Inc.Dr. Bikash Kumar Jena 2010–2011Current position: Scientist, Institute of Minerals and Materials Technology, India Dr. Yongxin Li 2008–2010Current position: Professor, Anhui Normal University, ChinaM.S. Students SupervisedErnest Tomlinson 2011–2012 Graduate Student (M.S. 2012) Jin Chen 2008–2010 Graduate Student (M.S. 2011) Former Undergraduate Researchers (*denotes Amgen Scholars)Matt J. Bates* 6/2014-8/2014 (Undergraduate, Oregon State Univ.) Noah Vartanian 2012-2014 (Seattle, WA)Michelle David*6/2013–8/2013 (Undergraduate, Washington State Univ.)David Galvan* 6/2012–8/2012 (Ph.D. student, UW Chemical Engineering) Laura Belluzzi 3/2012–3/2013 (Undergraduate, Univ. Washington)Ben Shipley 3/2012–3/2013Kelsey Musgrove 3/2011–9/2011 (M.D. student, Florida International University) Stephen Oja* 2011–2012 (Ph.D. student, UW Chemistry)Kayla N. Eychner 2/2010–3/2011Ye Long 12/2009–1/2011Chris Chou* 9/2009–9/2010 (M.D. student, Washington U. School of Medicine) Sean Chang 2009–2010David Bergman 9/2008–5/2009 (High school teacher in Seattle, WA)Jung An Hong 9/2008–12/2008Hyunae Lee 9/2008–6/2010 (Ph.D. student, University of Chicago)C LASSROOM T EACHINGCHEM 152: General Chemistry (Undergraduate)CHEM 426:Instrumental Analysis (Undergraduate)CHEM 520: Special Topics in Analytical Chemistry (Graduate)CHEM 592: Seminar in Analytical Chemistry (Graduate) (coordinator)。