万雄-中国科学院大学-UCAS 知识图谱

万雄-中国科学院大学-UCAS

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万雄-中国科学院大学-UCAS
[中文]
[English]
教育背景
工作经历
教授课程
专利与奖励
出版信息
合作情况
已带研究生
基本信息
万雄男博导中国科学院上海技术物理研究所电子邮件： wanxiong@mail.sitp.ac.cn通信地址：上海市玉田路500号中科院上海技术物理研究所二室邮政编码： 200083
个人信息与研究领域
中科院“****”择优资助入选者、国家二级研究员（教授）、博士生导师、Georgia Tech高级研究学者、国际空间科学研究所（ISSI）核心专家、省级百千万第一二层次人才、省级学科带头人、曾任大学物理国家实验示范中心主任. 承担国家及省部级项目十余项, 申请专利141项(已授权发明专利94项,实用新型授权27项,实现发明专利转让11项).发表论文122篇(其中SCI、EI收录论文95篇,含双录). 近年来在发射光谱层析、红外融合视觉、生物光子学、仿生光学等研究领域开展了深入的研究工作, 从事相关研究所取得的学术成绩包括参加国家重大科研项目“火星探测”“嫦娥3号”,主持完成及在研国家级科研项目10项、参与完成国家级科研项目1项(排名第2)、主持完成及在研省级科研项目9项。获省部级以上科研奖励5项,教学奖励5项.
教育背景
2013-10--2014-04 佐治亚理工学院高级研究学者2001-09--2005-01 南京航空航天大学研究生,博士2000-10--2003-07 南昌航空工业学院硕士1987-09--1991-07 上海交通大学本科, 学士
学历
博士研究生
学位
博士
工作经历
工作简历
2013-01~现在, 中国科学院上海技术物理研究所, 研究员2009-10~2011-10,中国科学院上海技术物理研究所, 博士后1996-05~2012-12,南昌航空大学, 讲师,副教授,教授/国家示范中心主任1991-07~1996-05,江西省科学院应用物理研究所, 研究实习员
社会兼职
2018-04-20-今,国际空间科学研究所, 核心专家2015-01-01-今,国际应用光谱学会, 会员
教授课程
CT原理与算法
专利与奖励
奖励信息
（1）&nbsp嫦娥三号着陆避障激光三维成像敏感器技术,&nbsp一等奖,&nbsp省级,&nbsp2014（2）&nbsp发射光谱层析技术研究,&nbsp三等奖,&nbsp部委级,&nbsp2009（3）&nbsp发射光谱层析理论及应用研究,&nbsp一等奖,&nbsp省级,&nbsp2009（4）&nbsp多光谱发射光谱计算机层析技术的研究,&nbsp三等奖,&nbsp省级,&nbsp2008
专利成果
[1] 万雄, 王泓鹏, 袁汝俊, 何强. 一种基于同轴时域分辨光声成像的检测方法.&nbspCN:&nbspCN109363636B,&nbsp2021-08-06.[2] 万雄, 王泓鹏, 袁汝俊, 何强. 一种基于同轴时域分辨光声成像的检测系统.&nbspCN:&nbspCN109363644B,&nbsp2021-04-13.[3] 万雄, 王泓鹏, 袁汝俊, 何强. 一种基于激光光声光谱的人体血管检测方法.&nbspCN:&nbspCN109363645B,&nbsp2021-04-13.[4] 万雄, 王泓鹏, 袁汝俊, 何强. 一种基于激光光声光谱的人体血管检测系统.&nbspCN:&nbspCN109497964B,&nbsp2021-04-09.[5] 万雄, 王泓鹏, 袁汝俊, 何强. 进境农林动植物危险因子的微区图谱合一检测系统.&nbspCN:&nbspCN109342339B,&nbsp2021-02-12.[6] 万雄, 王泓鹏, 袁汝俊, 何强. 一种空间站航天员尿液联合光谱检测系统.&nbspCN:&nbspCN109342390B,&nbsp2021-02-12.[7] 万雄, 王泓鹏, 袁汝俊, 何强. 空间站微重力环境下的航天员尿液中过渡金属检测系统.&nbspCN:&nbspCN109358035B,&nbsp2021-01-01.[8] 万雄, 王泓鹏, 袁汝俊, 何强. 基于液芯波导LIBS的航天员尿液中过渡金属的检测方法.&nbspCN:&nbspCN109342361B,&nbsp2021-01-01.[9] 万雄, 王泓鹏, 袁汝俊, 何强. 基于液芯波导拉曼光谱的航天员尿液检测方法.&nbspCN:&nbspCN109239052B,&nbsp2020-10-16.[10] 万雄, 王泓鹏, 袁汝俊, 何强. 一种基于液芯波导拉曼光谱的航天员尿液检测系统.&nbspCN:&nbspCN109239053B,&nbsp2020-08-07.[11] 万雄, 王泓鹏, 袁汝俊, 何强. 基于液芯波导联合光谱的航天员尿液检测方法.&nbspCN:&nbspCN109358034B,&nbsp2020-08-07.[12] 万雄, 袁汝俊, 王泓鹏, 何强. 基于代数重建关联向量求解的LIBS定量分析方法.&nbspCN:&nbspCN108444980B,&nbsp2020-08-07.[13] 万雄, 何强. 行星开放环境下光质谱联用的高效离子输运方法.&nbspCN:&nbspCN107957409B,&nbsp2020-04-07.[14] 万雄, 张铭, 张华明, 张志敏. 一种用于含水透明组织的透射光谱成像仪.&nbspCN:&nbspCN107727610B,&nbsp2020-04-07.[15] 万雄, 张铭. 行星开放环境下光质联用的物质检测方法.&nbspCN:&nbspCN107941896B,&nbsp2020-04-07.[16] 万雄, 袁汝俊. 一种深空探测微区自适应拉曼荧光成像联用方法.&nbspCN:&nbspCN107907512B,&nbsp2020-04-07.[17] 万雄, 王泓鹏, 袁汝俊, 李晨红. 一种主被动双模光谱仪.&nbspCN:&nbspCN110887816A,&nbsp2020-03-17.[18] 万雄, 王泓鹏, 袁汝俊, 李晨红. 一种主被动双模光谱探测方法.&nbspCN:&nbspCN110887817A,&nbsp2020-03-17.[19] 万雄, 王泓鹏, 袁汝俊, 李晨红. 一种LIBS主被动双模光谱探测系统.&nbspCN:&nbspCN110873708A,&nbsp2020-03-10.[20] 万雄, 王泓鹏, 袁汝俊, 李晨红. 一种LIBS主被动双模光谱探测方法.&nbspCN:&nbspCN110873709A,&nbsp2020-03-10.[21] 万雄, 张铭, 何强. 一种恒低温等距螺旋多点紫外光谱冻存血清分析方法.&nbspCN:&nbspCN107907523B,&nbsp2020-02-14.[22] 万雄, 王泓鹏, 张华明, 张志敏. 一种基于时域分辨超连续综合光谱的冻存全血分析方法.&nbspCN:&nbspCN107643254B,&nbsp2020-02-14.[23] 万雄, 张华明. 一种基于时域分辨紫外拉曼荧光谱的冻存血清分析方法.&nbspCN:&nbspCN107727636B,&nbsp2020-02-14.[24] 万雄, 袁汝俊, 张华明, 张志敏. 一种适用于生物资源检测的综合光谱成像仪.&nbspCN:&nbspCN107727607B,&nbsp2020-02-14.[25] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 一种标准反射式超连续谱成像方法.&nbspCN:&nbspCN107884359B,&nbsp2020-02-14.[26] 万雄, 张铭, 张华明, 张志敏. 一种用于含水透明组织的透射光谱成像方法.&nbspCN:&nbspCN107727598B,&nbsp2020-02-14.[27] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 一种恒定低温超连续综合光谱的冻存全血分析方法.&nbspCN:&nbspCN107907501B,&nbsp2020-02-14.[28] 万雄, 张华明. 一种基于时域分辨紫外拉曼荧光谱的冻存血清分析仪.&nbspCN:&nbspCN107741412B,&nbsp2020-01-10.[29] 万雄, 张铭, 何强. 一种等距螺旋多点紫外光谱的冻存血清分析仪.&nbspCN:&nbspCN107741411B,&nbsp2020-01-10.[30] 万雄, 王泓鹏, 袁汝俊. 一种重要生物资源的微区像谱分析方法.&nbspCN:&nbspCN110672551A,&nbsp2020-01-10.[31] 万雄, 王泓鹏, 袁汝俊. 一种基于共焦拉曼免疫时域分辨荧光的动物血液检测方法.&nbspCN:&nbspCN110672831A,&nbsp2020-01-10.[32] 万雄, 王泓鹏, 袁汝俊. 一种共焦拉曼免疫时域分辨荧光珍稀动物血液检测仪.&nbspCN:&nbspCN110672830A,&nbsp2020-01-10.[33] 万雄, 王泓鹏, 袁汝俊. 一种微流控激光免疫时域光谱珍稀动物血液检测仪.&nbspCN:&nbspCN110672828A,&nbsp2020-01-10.[34] 万雄, 王泓鹏, 袁汝俊. 一种微区重要生物资源像谱分析仪.&nbspCN:&nbspCN110672550A,&nbsp2020-01-10.[35] 万雄, 王泓鹏, 袁汝俊. 一种微流控激光免疫时域光谱检测方法.&nbspCN:&nbspCN110672829A,&nbsp2020-01-10.[36] 万雄, 王泓鹏, 张华明, 张志敏. 一种基于时域分辨超连续综合光谱的冻存全血分析仪.&nbspCN:&nbspCN107643253B,&nbsp2020-01-10.[37] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 一种适合深空微区分析的自适应激光光谱及成像方法.&nbspCN:&nbspCN107884339B,&nbsp2020-01-10.[38] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 一种恒定低温超连续综合光谱的冻存全血分析仪.&nbspCN:&nbspCN107688002B,&nbsp2020-01-10.[39] 万雄, 袁汝俊, 张华明, 张志敏. 一种适用于生物资源检测的综合光谱成像方法.&nbspCN:&nbspCN107727606B,&nbsp2019-11-26.[40] 万雄, 王泓鹏, 袁汝俊, 张铭. 用于空间碎片的自适应激光消旋方法.&nbspCN:&nbspCN107310755B,&nbsp2019-09-27.[41] 万雄, 刘鹏希, 章婷婷. 一种平坦光谱输出的超连续谱激光器.&nbspCN:&nbspCN105790073B,&nbsp2019-07-23.[42] 万雄, 王建宇, 王泓鹏, 袁汝俊, 张铭. 用于大宗及贵重货品进出口检测的联合光谱检测方法.&nbspCN:&nbspCN106841171B,&nbsp2019-05-24.[43] 万雄, 王泓鹏, 袁汝俊. 一种红外融合视觉探测系统.&nbspCN:&nbspCN106525244B,&nbsp2019-04-02.[44] 万雄, 刘鹏希, 章婷婷. 一种飞秒级超平坦超连续谱激光获取方法.&nbspCN:&nbspCN105811227B,&nbsp2019-04-02.[45] 万雄. 基于双路机敏量子点复眼系统的飞行目标检测方法.&nbspCN:&nbspCN106546994B,&nbsp2019-03-01.[46] 万雄, 王泓鹏, 袁汝俊, 何强. 一种进境农林动植物危险因子检测方法.&nbspCN:&nbspCN109358374A,&nbsp2019-02-19.[47] 万雄, 刘鹏希, 章婷婷. 一种平坦光谱输出的中红外超连续谱激光器.&nbsp中国:&nbspCN105762649B,&nbsp2018.10.19.[48] 万雄, 刘鹏希, 章婷婷, 陈学岗, 张志敏, 张华明. 一种基于超连续漫综合激光光谱的密封血液鉴别仪器.&nbsp中国:&nbspCN105842174B,&nbsp2018.10.19.[49] 万雄, 袁汝俊, 舒嵘, 王泓鹏, 何强. 基于光学层析同时迭代重建的LIBS分析方法.&nbsp中国:&nbspCN108414475A,&nbsp2018.08.17.[50] 万雄, 刘鹏希, 章婷婷, 陈学岗, 张志敏, 张华明. 基于红外拉曼紫外荧光超连续谱的血液鉴别仪.&nbsp中国:&nbspCN105628679B,&nbsp2018.06.29.[51] 万雄, 王泓鹏. 用于微区物质精细分析的行星车舱内探测系统.&nbsp中国:&nbspCN207528679U,&nbsp2018.06.22.[52] 万雄, 袁汝俊, 张华明, 张志敏. 适用于生物资源检测的综合光谱成像仪.&nbsp中国:&nbspCN207280946U,&nbsp2018.04.27.[53] 万雄, 张铭, 何强. 等距螺旋多点紫外光谱的冻存血清分析仪.&nbsp中国:&nbspCN207280954U,&nbsp2018.04.27.[54] 万雄, 刘鹏希, 章婷婷, 陈学岗, 张志敏, 张华明. 一种基于超连续漫综合激光光谱的密封血液鉴别方法.&nbsp中国:&nbspCN105842199B,&nbsp2018-10-19.[55] 万雄, 刘鹏希, 章婷婷, 陈学岗, 张志敏, 张华明. 基于紫外荧光超连续漫综合谱的血液鉴别仪.&nbsp中国:&nbspCN105842176B,&nbsp2018-10-19.[56] 万雄, 刘鹏希, 章婷婷, 陈学岗, 张志敏, 张华明. 基于紫外荧光超连续漫综合谱的血液鉴别方法.&nbsp中国:&nbspCN105842177B,&nbsp2018-10-19.[57] 万雄, 刘鹏希, 章婷婷, 陈学岗, 张志敏, 张华明. 基于红外拉曼紫外荧光超连续谱的血液鉴别方法.&nbsp中国:&nbspCN105842224B,&nbsp2018-10-19.[58] 万雄, 刘鹏希, 章婷婷, 陈学岗, 张志敏, 张华明. 基于红外拉曼超连续漫综合谱的血液鉴别仪.&nbsp中国:&nbspCN105866095B,&nbsp2018-10-19.[59] 万雄, 王泓鹏, 袁汝俊, 何强, 张铭. 基于MART乘性重建的LIBS定量求解方法.&nbsp中国:&nbspCN108444981A,&nbsp2018-08-24.[60] 万雄, 刘鹏希, 章婷婷. 一种平坦光谱输出的中红外超连续谱激光实现方法.&nbsp中国:&nbspCN105790053B,&nbsp2018-08-14.[61] 万雄, 袁汝俊. 深空探测微区自适应拉曼荧光成像联用系统.&nbsp中国:&nbspCN207675648U,&nbsp2018-07-31.[62] 万雄, 王泓鹏, 袁汝俊. 一种红外融合视觉探测方法.&nbsp中国:&nbspCN106405671B,&nbsp2018-06-29.[63] 万雄, 刘鹏希, 章婷婷, 陈学岗, 张志敏, 张华明. 基于红外拉曼超连续漫综合谱的血液鉴别方法.&nbsp中国:&nbspCN105628680B,&nbsp2018-06-29.[64] 万雄, 张铭. 行星开放环境下LIBS与MS的联用物质检测系统.&nbsp中国:&nbspCN207528630U,&nbsp2018-06-22.[65] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 标准反射式超连续谱成像仪器.&nbsp中国:&nbspCN207528344U,&nbsp2018-06-22.[66] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 深空微区自适应激光光谱及成像探测系统.&nbsp中国:&nbspCN207528634U,&nbsp2018-06-22.[67] 万雄, 张铭, 张华明, 张志敏. 用于含水透明组织的透射光谱成像仪.&nbsp中国:&nbspCN207300878U,&nbsp2018-05-01.[68] 万雄, 张华明. 基于时域分辨紫外拉曼荧光谱的冻存血清分析仪.&nbsp中国:&nbspCN207300888U,&nbsp2018-05-01.[69] 万雄, 何强. 行星开放环境下光质谱联用的粒子输运组件.&nbsp中国:&nbspCN207280953U,&nbsp2018-04-27.[70] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 恒定低温超连续综合光谱的冻存全血分析仪.&nbsp中国:&nbspCN207280940U,&nbsp2018-04-27.[71] 万雄, 王泓鹏, 张华明, 张志敏. 基于时域分辨超连续综合光谱的冻存全血分析仪.&nbsp中国:&nbspCN207280941U,&nbsp2018-04-27.[72] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 一种标准反射式超连续谱成像仪器.&nbsp中国:&nbspCN107941334A,&nbsp2018-04-20.[73] 万雄, 王泓鹏. 基于行星车舱复合探测系统的微区物质分析方法.&nbsp中国:&nbspCN107941761A,&nbsp2018-04-20.[74] 万雄, 袁汝俊. 一种深空探测微区自适应拉曼荧光成像联用系统.&nbsp中国:&nbspCN107907526A,&nbsp2018-04-13.[75] 万雄, 何强. 一种行星开放环境下光质谱联用的粒子输运组件.&nbsp中国:&nbspCN107727615A,&nbsp2018-02-23.[76] 万雄, 王泓鹏, 袁汝俊, 张铭, 何强. 一种深空微区自适应激光光谱及成像探测系统.&nbsp中国:&nbspCN107727635A,&nbsp2018-02-23.[77] 万雄, 王泓鹏. 一种用于微区物质精细分析的行星车舱内探测系统.&nbsp中国:&nbspCN107727725A,&nbsp2018-02-23.[78] 舒嵘, 万雄, 徐卫明, 阎志欣, 章婷婷, 刘鹏希. 双重复用激光光谱火星矿物成分分析系统及方法.&nbsp中国:&nbspCN105372225B,&nbsp2018-02-16.[79] 舒嵘, 万雄, 徐卫明, 阎志欣, 章婷婷, 刘鹏希. 基于主被动结合光谱技术的火星物质成分测试系统及方法.&nbsp中国:&nbspCN105548133B,&nbsp2018-02-16.[80] 万雄, 王泓鹏, 袁汝俊, 张铭. 用于空间碎片的自适应激光消旋系统.&nbsp中国:&nbspCN207000845U,&nbsp2018-02-13.[81] 万雄, 万嘉杰, 章炜毅, 王建宇, 殷海玮, 王泓鹏. 双波长激光拉曼光谱仪.&nbsp中国:&nbspCN207007716U,&nbsp2018-02-13.[82] 万雄, 张铭. 一种行星开放环境下LIBS与MS的联用物质检测系统.&nbsp中国:&nbspCN107631999A,&nbsp2018-01-26.[83] 万雄. 基于球形多路双异质结量子点的人工复眼激光器系统.&nbsp中国:&nbspCN206412632U,&nbsp2017.08.15.[84] 万雄, 章婷婷, 刘鹏希, 王泓鹏. 基于多数据库支撑及多环节修正的LIBS火星物质分析方法.&nbsp中国:&nbspCN106525818A,&nbsp2017.03.22.[85] 万雄, 万嘉杰, 章炜毅, 王建宇, 殷海玮, 王泓鹏. 一种双波长激光拉曼光谱检测方法.&nbsp中国:&nbspCN107389652A,&nbsp2017-11-24.[86] 王泓鹏, 万雄, 袁汝俊. 一种适用于快速检测橄榄油的装置.&nbsp中国:&nbspCN206540826U,&nbsp2017-10-03.[87] 万雄, 王泓鹏, 袁汝俊, 张铭. 一种用于空间碎片的自适应激光消旋系统.&nbsp中国:&nbspCN107176311A,&nbsp2017-09-19.[88] 万雄, 万嘉杰, 王建宇, 殷海玮, 王泓鹏, 其他发明人请求不公开姓名. 一种双波长激光拉曼光谱仪.&nbsp中国:&nbspCN107167465A,&nbsp2017-09-15.[89] 万雄, 王建宇, 王泓鹏, 袁汝俊, 张铭. 用于大宗及贵重货品进出口检测的联合光谱检测仪.&nbsp中国:&nbspCN206411012U,&nbsp2017-08-15.[90] 万雄, 万嘉杰, 章炜毅, 王建宇, 殷海玮, 王泓鹏. 一种双波长激光拉曼光谱检测方法.&nbsp中国:&nbspCN106814058A,&nbsp2017-06-09.[91] 王泓鹏, 万雄, 袁汝俊. 一种适用于快速检测橄榄油的装置及方法.&nbsp中国:&nbspCN106770126A,&nbsp2017-05-31.[92] 王泓鹏, 万雄, 袁汝俊. 一种基于光谱曲线相关系数鉴别特级初榨橄榄油的方法.&nbsp中国:&nbspCN106706535A,&nbsp2017-05-24.[93] 万雄, 万嘉杰, 章炜毅, 王建宇, 殷海玮, 王泓鹏. 一种双波长激光拉曼光谱仪.&nbsp中国:&nbspCN106595855A,&nbsp2017-04-26.[94] 万雄, 王建宇, 王泓鹏, 袁汝俊, 张铭. 一种用于大宗及贵重货品进出口检测的联合光谱检测仪.&nbsp中国:&nbspCN106596512A,&nbsp2017-04-26.[95] 万雄. 基于仿生复眼的双路机敏量子点激光空间轨迹探测系统.&nbsp中国:&nbspCN106526606A,&nbsp2017-03-22.[96] 万雄. 一种基于球形多路双异质结量子点的人工复眼激光器系统.&nbsp中国:&nbspCN106356712A,&nbsp2017-01-25.[97] 万雄, 刘鹏希, 章婷婷, 舒嵘, 王建宇. 宽谱平坦的中红外超连续谱光源.&nbsp中国:&nbspCN205752961U,&nbsp2016-11-30.[98] 万雄, 刘鹏希, 章婷婷, 舒嵘, 王建宇. 一种宽谱平坦的中红外超连续谱光源.&nbsp中国:&nbspCN105762624A,&nbsp2016-07-13.[99] 舒嵘, 万雄, 徐卫明, 阎志欣, 章婷婷, 刘鹏希. 双重复用激光光谱火星矿物成分分析系统.&nbsp中国:&nbspCN205246540U,&nbsp2016-05-18.[100] 舒嵘, 万雄, 徐卫明, 阎志欣, 章婷婷, 刘鹏希. 基于主被动结合光谱技术的火星物质成分测试系统.&nbsp中国:&nbspCN205246541U,&nbsp2016-05-18.[101] 万雄, 况耀武, 章婷婷, 刘鹏希. 免定标的远程定量激光诱导击穿光谱分析方法.&nbsp中国:&nbspCN105203526A,&nbsp2015-12-30.[102] 万雄, 刘鹏希, 章婷婷, 况耀武. 基于小型紫外扫频激光的共振拉曼光谱探测系统.&nbsp中国:&nbspCN204679423U,&nbsp2015-09-30.[103] 万雄, 刘鹏希, 章婷婷, 况耀武. 一种用于火星物质成份探测的联合激光诱导光谱系统.&nbsp中国:&nbspCN204679420U,&nbsp2015-09-30.[104] 万雄, 章婷婷, 刘鹏希, 况耀武. 火星主次元素同步分析的定量激光诱导击穿光谱方法.&nbsp中国:&nbspCN104897626A,&nbsp2015-09-09.[105] 万雄, 刘鹏希, 章婷婷, 况耀武. 用于火星物质成份探测的联合激光诱导光谱系统.&nbsp中国:&nbspCN104897625A,&nbsp2015-09-09.[106] 万雄, 章婷婷, 刘鹏希. 基于融合熵优化求解的定量激光诱导击穿光谱检测方法.&nbsp中国:&nbspCN104865228A,&nbsp2015-08-26.[107] 万雄, 刘鹏希, 章婷婷, 况耀武. 基于小型紫外扫频激光的共振拉曼光谱探测系统及方法.&nbsp中国:&nbspCN104849257A,&nbsp2015-08-19.[108] 万雄, 王建, 刘鹏希, 章婷婷, 王建宇. 一种非接触式基于超连续衰荡光谱的全血分类系统.&nbsp中国:&nbspCN204165893U,&nbsp2015-02-18.[109] 万雄, 王建, 刘鹏希, 章婷婷, 王建宇. 一种基于流式超连续谱衰荡光谱的血细胞分类系统.&nbsp中国:&nbspCN204165876U,&nbsp2015-02-18.[110] 万雄, 王建, 刘鹏希, 章婷婷, 王建宇. 一种非接触式基于超连续衰荡光谱的全血分类系统及方法.&nbsp中国:&nbspCN104330362A,&nbsp2015-02-04.[111] 万雄, 王建, 刘鹏希, 章婷婷, 王建宇. 一种基于流式超连续谱衰荡光谱的血细胞分类系统及方法.&nbsp中国:&nbspCN104330348A,&nbsp2015-02-04.[112] 万雄, 章婷婷, 刘鹏希, 舒嵘, 王建宇. 一种结合预烧蚀和再加热的三脉冲LIBS探测系统.&nbsp中国:&nbspCN204086140U,&nbsp2015-01-07.[113] 万雄, 刘鹏希, 章婷婷, 王建宇, 舒嵘. 改进的高信噪比低检出限的LIBS物质成分探测系统.&nbsp中国:&nbspCN203965322U,&nbsp2014.11.26.[114] 万雄, 章婷婷, 刘鹏希, 舒嵘, 王建宇. 结合预烧蚀和再加热的三脉冲LIBS探测系统.&nbsp中国:&nbspCN104142316A,&nbsp2014.11.12.[115] 万雄, 刘鹏希, 章婷婷, 王建宇, 舒嵘. 改进的高信噪比低检出限的LIBS物质成分探测系统及方法.&nbsp中国:&nbspCN104034703A,&nbsp2014-09-10.[116] 万雄, 舒嵘, 王建宇, 亓洪兴. 基于远程变焦光路复用的LIBS测试系统.&nbsp中国:&nbspCN203385666U,&nbsp2014-01-08.[117] 万雄. 一种基于双脉冲散焦预烧蚀的激光诱导击穿光谱探测系统.&nbsp中国:&nbspCN203385665U,&nbsp2014-01-08.[118] 万雄. 基于波分复用及时域交叠的激光诱导击穿光谱系统.&nbsp中国:&nbspCN203324186U,&nbsp2013-12-04.[119] 万雄, 舒嵘, 王建宇, 亓洪兴. 基于远程变焦光路复用的LIBS测试系统及测试方法.&nbsp中国:&nbspCN103411932A,&nbsp2013-11-27.[120] 万雄, 舒嵘, 王建宇, 亓洪兴. 基于加权多谱线标定的远程LIBS元素定量分析方法.&nbsp中国:&nbspCN103411931A,&nbsp2013-11-27.[121] 万雄. 基于波分复用及时域交叠的激光诱导击穿光谱系统及方法.&nbsp中国:&nbspCN103335986A,&nbsp2013-10-02.[122] 万雄. 基于双脉冲散焦预烧蚀的激光诱导击穿光谱探测系统.&nbsp中国:&nbspCN103323435A,&nbsp2013-09-25.[123] 万雄, 舒嵘, 王建宇. 小型物联网激光诱导击穿光谱医学传感系统.&nbsp中国:&nbspCN202230022U,&nbsp2012-05-23.[124] 万雄, 舒嵘, 王建宇. 小型物联网激光诱导击穿光谱医学传感系统及方法.&nbsp中国:&nbspCN102353658A,&nbsp2012-02-15.[125] 万雄, 王建宇, 舒嵘. 星球表面几何特征及其物质成份的同步测试系统及方法.&nbsp中国:&nbspCN102353343A,&nbsp2012-02-15.[126] 万雄, 王建宇, 黄庚华, 舒嵘. 大气中大推力发动机羽流场对激光传输影响测试装置.&nbsp中国:&nbspCN201688915U,&nbsp2010-12-29.[127] 万雄, 舒嵘, 黄庚华, 王建宇. 真空羽流场对红外激光特性影响的测试装置.&nbsp中国:&nbspCN201637485U,&nbsp2010-11-17.[128] 万雄, 舒嵘, 黄庚华, 王建宇. 真空羽流场对红外激光特性影响的测试系统及方法.&nbsp中国:&nbspCN101886972A,&nbsp2010-11-17.[129] 万雄, 王建宇, 黄庚华, 舒嵘. 大气中发动机羽流场对激光传输影响测试系统及方法.&nbsp中国:&nbspCN101876586A,&nbsp2010-11-03.
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Spectral detection technology of vegetable oil: Spectral analysis of porphyrins and terpenoids. SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY[J]. 2021, 261: http://dx.doi.org/10.1016/j.saa.2021.119965.[6] Wang, Hongpeng, Xin, Yingjian, Ma, Huanzhen, Fang, Peipei, Li, Chenhong, Wan, Xiong, He, Zhiping, Jia, Jianjun, Ling, Zongcheng. Rapid detection of Chinese-specific peony seed oil by using confocal Raman spectroscopy and chemometrics. FOOD CHEMISTRY[J]. 2021, 362: http://dx.doi.org/10.1016/j.foodchem.2021.130041.[7] Wang Hongpeng, Fang Peipen, Ma Huanzhen, Wan Xiong, Jia Jianjun, He Zhiping, Ling Zongcheng. Research on Nondestructive and Noninvasive Detection Technology of Cells Based on Supercontinuum Spectrum. 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SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2019, 39(9):&nbsp2917-2921, [12] Wang Hongpeng, Wan Xiong. Study on Fluorescence Quenching and Absorption Spectra of Olive Oil. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2019, 39(8):&nbsp2421-2424, [13] Zhang, HuaMing, Li, YaDong, Chen, BaoJin, Feng, CuiDi, Wan, Xiong, Xiao, WenBo. Theoretical investigations of the electron paramagnetic resonance parameters for rutile TiO2:Cu2+ at low temperature. RADIATION EFFECTS AND DEFECTS IN SOLIDS[J]. 2019, 174(5-6):&nbsp559-566, [14] He Qiang, Wan Xiong, Wang Hongpeng, Yuan Rujun. Study on the Distribution of Ca Elements in Ammonite Stones Based on Micro LIBS. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2019, 39(9):&nbsp2917-2921, https://www.webofscience.com/wos/woscc/full-record/WOS:000487766700044.[15] Yuan Rujun, Wan Xiong, He Qiang, Wang Hongpeng. Research on Olivine Component Analysis Using LIBS Combined with Back-Propagation Algorithm. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2019, 39(12):&nbsp3861-3867, [16] 王泓鹏, 万雄. 橄榄油的聚集荧光猝灭及吸收光谱特性的研究. 光谱学与光谱分析[J]. 2019, 39(8):&nbsp2421-2424, [17] 张铭, 彭文, 赖珍荃, 王泓鹏, 袁汝俊, 何强, 万雄. 人全血的毛细管显微拉曼光谱分析. 光谱学与光谱分析[J]. 2019, 39(3):&nbsp797-801, http://lib.cqvip.com/Qikan/Article/Detail?id=7001379698.[18] 袁汝俊, 万雄, 何强, 王泓鹏. LIBS与反向传播算法结合的橄榄石成分分析. 光谱学与光谱分析[J]. 2019, 39(12):&nbsp3861-3867, http://lib.cqvip.com/Qikan/Article/Detail?id=7100428976.[19] Zhang Ming, Peng Wen, Lai Zhenquan, Wang Hongpeng, Yuan Rujun, He Qiang, Wan Xiong. Microscopic Raman Spectroscopy Analysis for Human Blood in Capillary. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2019, 39(3):&nbsp797-801, [20] 王泓鹏, 万雄. 基于植物油可见吸收光谱的相关系数鉴别特级初榨橄榄油. 光谱学与光谱分析[J]. 2018, 38(9):&nbsp2814-2819, http://lib.cqvip.com/Qikan/Article/Detail?id=7000791052.[21] Zhang, H M, Xiao, W B, Wan, Xiong. Theoretical studies of the EPR parameters and local structures for the two Cu2+ centers in Cd(HCOO)(2)center dot 2H(2)O. MAGNETIC RESONANCE IN CHEMISTRY[J]. 2018, 56(5):&nbsp305-310, https://www.webofscience.com/wos/woscc/full-record/WOS:000429571600001.[22] 王泓鹏, 万雄, 何志平. 基于红外反射光谱深空物质成分探测技术的研究. 光谱学与光谱分析. 2018, 59-60, http://lib.cqvip.com/Qikan/Article/Detail?id=71856578504849568349485148.[23] Wang Hongpeng, Wan Xiong. Distinguishing Extra Virgin Olive Oil Based on the Correlation Coefficient of Visible Absorption Spectrum of Vegetable Oil. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2018, 38(9):&nbsp2814-2819, https://www.webofscience.com/wos/woscc/full-record/WOS:000444933500025.[24] 舒嵘, 徐卫明, 付中梁, 万雄, 袁汝俊. 深空探测中的激光诱导击穿光谱探测仪. 深空探测学报. 2018, 5(5):&nbsp450-457, http://lib.cqvip.com/Qikan/Article/Detail?id=7001386099.[25] 万雄, 刘鹏希, 章婷婷. 生物医学领域中超连续激光光谱技术的研究进展. 光谱学与光谱分析[J]. 2017, 37(2):&nbsp338-345, http://lib.cqvip.com/Qikan/Article/Detail?id=671423870.[26] 章婷婷, 舒嵘, 刘鹏希, 万雄. 远程激光诱导击穿光谱技术分析岩石元素成分. 光谱学与光谱分析. 2017, 37(2):&nbsp594-598, http://lib.cqvip.com/Qikan/Article/Detail?id=671423921.[27] Wan Xiong, Liu Pengxi, Zhang Tingting. Research Progress of Supercontinuum Laser Spectroscopy in Biomedical Field. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2017, 37(2):&nbsp338-345, https://www.webofscience.com/wos/woscc/full-record/WOS:000393847200002.[28] 刘鹏希, 万雄, 章婷婷. 基于全血可见吸收光谱的物种鉴别. 光谱学与光谱分析[J]. 2017, 3510-3513, http://lib.cqvip.com/Qikan/Article/Detail?id=673643207.[29] Liu Pengxi, Wan Xiong, Zhang Tingting. Species Identify Based on Visible Absorb Spectrum of Whole Blood. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2017, 37(11):&nbsp3510-3513, https://www.webofscience.com/wos/woscc/full-record/WOS:000416393900035.[30] Zhang Tingting, Shu Rong, Liu Pengxi, Wan Xiong. Elemental Analysis of Rock with Remote Laser Induced Breakdown Spectroscopy. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2017, 37(2):&nbsp594-598, https://www.webofscience.com/wos/woscc/full-record/WOS:000393847200049.[31] Zhao, Shuqi, Zhang, Zhimin, Wan, Xiong, Zhang, Y, Wu, F, Xu, M, To, S. Three-dimensional profile reconstruction based on infrared Multi-view vision. 8TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGY: OPTICAL TEST, MEASUREMENT TECHNOLOGY, AND EQUIPMENTnull. 2016, 9684: http://dx.doi.org/10.1117/12.2240265.[32] Wan Xiong, Wang Jian, Liu Pengxi, Zhang TingTing. Identification of Animal Whole Blood Based on Near Infrared Transmission Spectroscopy. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2016, 36(1):&nbsp80-83, https://www.webofscience.com/wos/woscc/full-record/WOS:000368043800017.[33] Wan, X, Liu, P X, Zhang, T T. IDENTIFICATION OF HUMAN AND NON-HUMAN WHOLE BLOOD WITH LASER-INDUCED FLUORESCENCE SPECTROSCOPY. BASIC & CLINICAL PHARMACOLOGY & TOXICOLOGYnull. 2016, 119: 29-30, https://www.webofscience.com/wos/woscc/full-record/WOS:000385818700087.[34] Wan, X, Zhang, T T, Liu, P X. DETERMINATION OF CALCIUM CONTENT IN HUMAN BODY WITH LASER-INDUCED BREAKDOWN SPECTROSCOPY. BASIC & CLINICAL PHARMACOLOGY & TOXICOLOGYnull. 2016, 119: 3-3, https://www.webofscience.com/wos/woscc/full-record/WOS:000393681900003.[35] 万雄. 基于近红外透射光谱的动物全血鉴别. 光谱学与光谱分析. 2016, [36] Wan, Xiong, Wang, Peng. Analysis of heavy metals in organisms based on an optimized quantitative LIBS. OPTIK[J]. 2015, 126(19):&nbsp1930-1934, http://dx.doi.org/10.1016/j.ijleo.2015.05.039.[37] 万雄. 远程激光诱导击穿光谱技术进展. 光谱学与光谱分析. 2015, [38] Xiong Wan, Peng Wang. Analysis of heavy metals in organisms based on an optimized quantitative LIBS. Optik - International Journal for Light and Electron Optics. 2015, 126(19):&nbsp1930-1934, http://dx.doi.org/10.1016/j.ijleo.2015.05.039.[39] Wan, X, Liu, P X, Zhang, T T. NON-CONTACT IDENTIFICATION OF BLOOD SERUM WITH DIFFUSE COMBINED SPECTROSCOPY. BASIC & CLINICAL PHARMACOLOGY & TOXICOLOGYnull. 2015, 117: 21-22, https://www.webofscience.com/wos/woscc/full-record/WOS:000365769800076.[40] Zhang Tingting, Wan Xiong, Shu Rong, Liu Pengxi. The Progress in Remote Laser-Induced Breakdown Spectroscopy. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2015, 35(7):&nbsp2007-2011, https://www.webofscience.com/wos/woscc/full-record/WOS:000357761200048.[41] Zhang Tingting, Wan Xiong, Shu Rong, Liu Pengxi. The Progress in Remote Laser-Induced Breakdown Spectroscopy. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2015, 35(7):&nbsp2007-2011, https://www.webofscience.com/wos/woscc/full-record/WOS:000357761200048.[42] Zhang, HuaMing, Duan, JunHong, Xiao, WenBo, Wan, Xiong. Theoretical studies of the local structure of Cu2+ center in aluminium lead borate glasses by their EPR and optical spectra. JOURNAL OF NON-CRYSTALLINE SOLIDS[J]. 2015, 425: 173-175, http://dx.doi.org/10.1016/j.jnoncrysol.2015.05.043.[43] Wan, Xiong, Wang, Peng, Zhang, Huaming. Thermal computed tomography for biological tissue reconstruction based on radiation balance. BIO-MEDICAL MATERIALS AND ENGINEERING[J]. 2014, 24(1):&nbsp1157-1165, https://www.webofscience.com/wos/woscc/full-record/WOS:000327312600135.[44] Wan, Xiong, Wang, Peng, Zhang, Zhimin, Zhang, Huaming. Fused Entropy Algorithm in Optical Computed Tomography. ENTROPY[J]. 2014, 16(2):&nbsp943-952, https://doaj.org/article/460538c481fd453ab3a4d1af30243e82.[45] 王建宇. Detection and compensation of basis deviation in satellite-to-ground quantum communications. OPTICS EXPRESS[J]. 2014, 22(8):&nbsp9871-9886, [46] Zhang, HuaMing, Xiao, WenBo, Wan, Xiong. Theoretical studies of the local structures and electron paramagnetic resonance parameters for Cu2+ center in Zn(C3H3O4)(2)(H2O)(2) single crystal. RADIATION EFFECTS AND DEFECTS IN SOLIDS[J]. 2014, 169(7):&nbsp603-609, https://www.webofscience.com/wos/woscc/full-record/WOS:000340191500004.[47] 闫增伟. 基于激光诱导击穿光谱测量偏差的物理影响因素研究. 考试周刊. 2014, 125-126, http://lib.cqvip.com/Qikan/Article/Detail?id=661994225.[48] Wan, Xiong, Wang, Peng. Remote Quantitative Analysis of Minerals Based on Multispectral Line-Calibrated Laser-Induced Breakdown Spectroscopy (LIBS). APPLIED SPECTROSCOPY[J]. 2014, 68(10):&nbsp1132-1136, https://www.webofscience.com/wos/woscc/full-record/WOS:000342272000005.[49] Zhang, HuaMing, Xiao, WenBo, Wan, Xiong. Theoretical studies of the optical and EPR spectra for VO2+ in MgKPO4 center dot 6H(2)O single crystal. PHYSICA B-CONDENSED MATTER[J]. 2014, 449: 225-228, http://dx.doi.org/10.1016/j.physb.2014.05.036.[50] Hua-Ming Zhang, Wen-Bo Xiao, Xiong Wan. Theoretical studies of the optical and EPR spectra for VO2+ in MgKPO4·6H2O single crystal. Physica B: Physics of Condensed Matter. 2014, 449: 225-228, http://dx.doi.org/10.1016/j.physb.2014.05.036.[51] Zhang, HuaMing, Xiao, WenBo, Wan, Xiong. Theoretical studies of the EPR parameters and local structures for Cu2+ centres in a (CH3)(2)NH2Al(SO4)(2) center dot 6H(2)O crystal. EUROPEAN PHYSICAL JOURNAL D[J]. 2014, 68(10):&nbsphttps://www.webofscience.com/wos/woscc/full-record/WOS:000361128900001.[52] Xiong Wan. Three Dimensional Radiation Themometer Combining Near-Infrared Passband Themometry with Optical Fiber Bundle Tomography. Europhysics Letters. 2013, [53] Wan, Xiong, Zhang, Zhimin, Chen, Qi. Three-dimensional radiation thermometer combining near-infrared passband thermometry with optical fiber bundle tomography. EPL[J]. 2013, 103(5):&nbsphttps://www.webofscience.com/wos/woscc/full-record/WOS:000326092600005.[54] Wan, Xiong, Du, Tingting, Zhang, Zhimin, Zhang, Huaming, Wang, Peng, Culshaw, B, Zhang, X, Wang, A, Bao, X, Fan, X. Positioning approach based on Mach-Zehnder fiber sensors and a DSP processor. 2013 INTERNATIONAL CONFERENCE ON OPTICAL INSTRUMENTS AND TECHNOLOGY: OPTICAL SENSORS AND APPLICATIONSnull. 2013, 9044: [55] Wan Xiong, Wang Jianyu, Ye Jianhua, Wang Peng, Zhang Zhimin. Analysis of Distribution and Contents of Heavy Metal Pollution in Fish Body with Laser-Induced Breaddown Spectroscopy. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2013, 33(1):&nbsp206-209, https://www.webofscience.com/wos/woscc/full-record/WOS:000314140500046.[56] 王建宇. 激光诱导击穿光谱对污染鱼体内重金属元素分布与含量的分析. 光谱学与光谱分析. 2013, [57] Wan Xiong, Wang Peng, Wang Qi, Zhang Qing, Zhang Zhimin, Zhang Huaming. Study on Physical Deviation Factors on Laser Induced Breakdown Spectroscopy Measurement. SPECTROSCOPY AND SPECTRAL ANALYSIS[J]. 2013, 33(10):&nbsp2599-2602, https://www.webofscience.com/wos/woscc/full-record/WOS:000326199300002.[58] Wan, Xiong, Shu, Rong, Huang, Genghua. Effects of rocket engines on laser during lunar landing. PHYSICS LETTERS A[J]. 2013, 377(38):&nbsp2598-2603, https://www.webofscience.com/wos/woscc/full-record/WOS:000325190200028.[59] Zhang, HM, Wan, X. Investigation of EPR parameters and the local structure of the rhombic Cu2+ center in zinc fluoride. JOURNAL OF STRUCTURAL CHEMISTRY[J]. 2013, 54(1):&nbsp26-31, https://www.webofscience.com/wos/woscc/full-record/WOS:000316757800004.[60] Wan Xiong, Yao Donggang, IEEE. Laser-induced Breakdown Spectroscopy Sensor System for Internet of Things. PROCEEDINGS OF THE 2012 SECOND INTERNATIONAL CONFERENCE ON INSTRUMENTATION & MEASUREMENT, COMPUTER, COMMUNICATION AND CONTROL (IMCCC 2012)null. 2012, 728-730, http://dx.doi.org/10.1109/IMCCC.2012.176.[61] Xiong Wan. Introduction on Microscopic Imaging Technique Based on CARS. 2012, [62] Xiong Wan. Design of data acquisition system based on DSP and optical fiber bundle. 2012, [63] Xiong Wan. An approximate method for solving the absorption coefficient. IET Proc. ICISCE 2012. 2012, [64] Xiong Wan. Theoretical studies of spin Hamiltonian parameters for the tetragonally elongated Cu2+ centers in ARbB4O7 (A = Li, Na, K) glasses. Journal of Non-Crystalline Solids. 2012, [65] Wan, Xiong, Xiao, Wenhui, Zhang, Zhimin. Emission Spectral Tomography With Optical Fiber Bundle. JOURNAL OF LIGHTWAVE TECHNOLOGY[J]. 2012, 30(2):&nbsp242-246, https://www.webofscience.com/wos/woscc/full-record/WOS:000299531300003.[66] Jiang, Wenbo, Gao, Yiqing, Wan, Xiong, Xie, Weicheng, Wang, Jun, Dong, Xiucheng. Diagnostics of Three-Dimensional Temperature Distribution of Ar Arc Plasma by Spectrum Tomography Technique. IEEE TRANSACTIONS ON PLASMA SCIENCE[J]. 2011, 39(9):&nbsp1855-1860, https://www.webofscience.com/wos/woscc/full-record/WOS:000294867400016.[67] Wan, Xiong, Zhang, Zhimin, Leng, Biyan, Deng, Xiaoming. Three dimensional measurements of engine plumes with four-channel single spectral tomography. JOURNAL OF APPLIED PHYSICS[J]. 2010, 108(7):&nbsphttps://www.webofscience.com/wos/woscc/full-record/WOS:000283222200008.[68] Wan, Xiong, Yi, Jianglin, Zhang, Zhimin, Xiao, Wenhui, Liu, Lei. Lagrange interpolation reprojection-revising reconstruction with incomplete data in optical computed tomography. OPTICAL ENGINEERING[J]. 2010, 49(8):&nbsphttps://www.webofscience.com/wos/woscc/full-record/WOS:000281335100021.[69] Wan, Xiong, Yi, Jianglin. Emission Spectral Tomography Reconstruction Based on Maximum Entropy Interpolation. JOURNAL OF LIGHTWAVE TECHNOLOGY[J]. 2009, 27(5-8):&nbsp780-785, https://www.webofscience.com/wos/woscc/full-record/WOS:000265617700033.[70] Wan, Xiong, Xiong, Wenlin, Zhang, Zhimin, Chang, Fangfei. An online emission spectral tomography system with digital signal processor. OPTICS EXPRESS[J]. 2009, 17(7):&nbsp5279-5284, https://www.webofscience.com/wos/woscc/full-record/WOS:000264747500043.[71] []. The Embedded Display for Temperature Fields Reconstruction Based on Win CE. http://202.127.2.71:8080/handle/181331/10860.
发表著作
（1）大学物理, 科学出版社, 2015-01, 第 1 作者
合作情况
与美国佐治亚理工学院开展人工复眼合作研究。
已带研究生
目前指导在读博士研究生4名，已指导毕业硕士研究生21名。
2013 中国科学院大学，网络信息中心.