首届颗粒学网络大会圆满落幕 参会逾千人(附专家报告视频回放合集)
p style=" text-indent: 32px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px color: rgb(68, 68, 68) letter-spacing: 0px " 仪器信息网讯 /span /strong span style=" font-size: 16px color: rgb(68, 68, 68) letter-spacing: 0px " & nbsp 2020 span style=" font-size: 16px " 年 /span 4 span style=" font-size: 16px " 月 /span 10 span style=" font-size: 16px " 日,由仪器信息网与中国颗粒学会联合主办的首届 /span “颗粒研究应用与检测分析”主题网络大会 span style=" font-size: 16px " 圆满落幕。本次大会为期两天, /span 共吸引1518人报名参加,审核通过听众1496人,去重出席观众1075人,出席率达71.8%。 /span /span /p p style=" text-align:center" span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体, SimSun " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/9380c37a-173d-4f94-a72a-40cc8a853367.jpg" title=" 640_300.jpg" alt=" 640_300.jpg" / /span /p p style=" text-indent: 32px text-align: justify " span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体, SimSun " 大会由中国颗粒学会秘书长王体壮率先致辞,对各位嘉宾、听众的网络参会表示热烈欢迎。他介绍了中国颗粒学会的发展情况,并预告了2020年中国颗粒学会年会将于10月23-25日在厦门召开。疫情之下,千里学者一网牵,王体壮表示,希望广大颗粒学研究与应用的同仁能够通过本次网络大会充分互融交流,为中国科技事业的发展做出贡献。 /span span style=" font-size: 16px " span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-family: 宋体 text-align: justify text-indent: 28px " ( /span span style=" text-align: justify text-indent: 28px color: rgb(68, 68, 68) letter-spacing: 0px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112225.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline letter-spacing: 0px font-family: 宋体 text-align: justify text-indent: 28px color: rgb(0, 176, 240) " 点击观看致辞视频回放详情 /span /a /span span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-family: 宋体 text-align: justify text-indent: 28px " ) /span /span /p p style=" text-indent: 32px text-align: justify " script src=" https://p.bokecc.com/player?vid=EF42D1DC52238E969C33DC5901307461& siteid=D9180EE599D5BD46& autoStart=false& width=600& height=350& playerid=621F7722C6B7BD4E& playertype=1" type=" text/javascript" /script span style=" font-size: 16px " span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-family: 宋体 text-align: justify text-indent: 28px " br/ /span /span /p p style=" text-indent: 32px text-align: justify " span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体, SimSun " span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体 " 随后大会进入专家报告环节, /span 4 span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体 " 个分会场, /span 22位报告专家就生物制药颗粒 span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体 " 、气溶胶、超微及纳米颗粒、颗粒检测与表征技术等领域的最新研究突破及应用进展进行了交流分享。 /span /span /p h1 label=" 标题居中" style=" font-size: 32px font-weight: bold border-bottom: 2px solid rgb(204, 204, 204) padding: 0px 4px 0px 0px text-align: center margin: 0px 0px 20px " span style=" font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 80) " strong span style=" letter-spacing: 0px font-size: 16px font-family: 宋体 " 生物制药颗粒会场:聚焦药物粉体技术开发与应用 /span /strong /span /h1 p style=" text-indent: 32px text-align: justify " span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体, SimSun " span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体 " 从原料药开始到获得最终产品,需要经过一系列粉体处理过程,粉体颗粒粒径分布、流动性以及晶型特质等都是决定药品质量特征最关键的物化属性。在大会的生物制药分会场, /span 6位专家相继带来了精彩分享: /span /p p style=" text-align:center" span style=" color: rgb(68, 68, 68) letter-spacing: 0px font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 121px " src=" https://img1.17img.cn/17img/images/202004/uepic/bee8d99d-da36-426f-b370-505b6f0af680.jpg" title=" 崔福德.jpg" alt=" 崔福德.jpg" width=" 100" height=" 121" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=2851" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 崔福德 /span ( span style=" font-size: 16px font-family: 宋体 " 沈阳药科大学教授 /span & nbsp ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=2851" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 药物粉体的流动性及其测定方法 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 固体制剂制备的混合工序、制粒工序、压片填充等关键步骤都受到粉体流动性的影响。常用的测定项包括休止角、压缩度和豪森比、流出速度、剪切池等。报告中,崔福德结合国内外药典规定,对不同药物性质与生产工艺所适宜的粉体流动性不同测定方法进行了详细介绍。( /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112226.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体, SimSun " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 127px " src=" https://img1.17img.cn/17img/images/202004/uepic/adaf4dfa-b6ab-4765-8989-d611cd1d7d3c.jpg" title=" 李雪冰.jpg" alt=" 李雪冰.jpg" width=" 100" height=" 127" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6141" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 李雪冰 /span ( span style=" font-size: 16px font-family: 宋体 " 丹东百特仪器有限公司技术总监 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6141" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 颗粒表征在制剂过程中的应用和相关解决方案 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 报告结合国内外药典及相关要求,重点介绍了口服制剂、注射制剂、吸入制剂三类药物制剂的颗粒表征方法和应用方案。李雪冰表示,对于口服制剂的粒度检测主要用激光衍射法;对脂质体 /span / span style=" font-size: 16px font-family: 宋体 " 脂肪乳 /span span style=" font-size: 16px font-family: Calibri " / /span span style=" font-size: 16px font-family: 宋体 " 纳米制剂等特殊注射制剂的颗粒检测主要用光阻法、吸入制剂微细粒子粒度检测,则主要用空气动力学特性测定法。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112227.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/89c68a9b-5cc1-48d1-b1c3-e7f7e5f95075.jpg" title=" 傅晓伟.jpg" alt=" 傅晓伟.jpg" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6159" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 傅晓伟 /span ( span style=" font-size: 16px font-family: 宋体 " 珠海欧美克仪器有限公司首席研究员 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6159" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 粒度测试在制药行业应用中的几个关键问题 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 激光粒度仪在药物开发、仿制药一致性评价和质控中都发挥着重要的作用,傅晓伟表示,药物粒度控制不能只看 /span D10, D50 span style=" font-size: 16px font-family: 宋体 " 或 /span span style=" font-size: 16px font-family: Calibri " D90 /span span style=" font-size: 16px font-family: 宋体 " ,更需要精确控制粒度分布 /span span style=" font-size: 16px font-family: Calibri " PSD /span span style=" font-size: 16px font-family: 宋体 " 。报告中他分享了药物标准样品、宽分布实际样品、三元混合样品、相近样品以及样品中的少量组分等的粒度检测方法与应用方案。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112228.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 121px " src=" https://img1.17img.cn/17img/images/202004/uepic/b67e619f-e8da-4b3d-a0c8-37dfce4d89f6.jpg" title=" 曹相林.jpg" alt=" 曹相林.jpg" width=" 100" height=" 121" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=2849" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 曹相林 /span ( span style=" font-size: 16px font-family: 宋体 " 北京海晶生物医药科技有限公司 /span CEO) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=2849" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 上市许可持有人政策解读及晶型药物研发经验分享 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 药品上市许可持有人( MAH)是指取得药品注册证书的企业戒者药品研制机构等。最新的《中华人民共和国药品管理法》、《药品生产监督管理办法》都对 span style=" font-size: 16px font-family: Calibri " MAH /span 的权责有明确规定。报告中曹相林对这一政策带来的机遇和挑战进行了解读,并分享了晶型研究与检测在药物研发过程中的典型应用。( a href=" https://www.instrument.com.cn/webinar/video_112229.html" target=" _self" style=" color: rgb(0, 176, 240) text-decoration: underline " span style=" font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/d7c5564a-8902-4e86-9fe8-dd0db001578c.jpg" title=" 秦和义.jpg" alt=" 秦和义.jpg" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6221" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 秦和义 /span ( span style=" font-size: 16px font-family: 宋体 " 珠海真理光学仪器有限公司商务总经理 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6221" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 药物粒度分析的方法开发与验证 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent:28px text-align:justify text-justify:inter-ideograph" span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 药物粒度检测仪器性能和测试方法都需要确认和验证,以保证测试结果的一致性和重现性。在相关仪器验证过程中到底有多少个 /span Qualification span style=" font-size: 16px font-family: 宋体 " ?秦和义详细讲解了认证 /span IQ span style=" font-size: 16px font-family: 宋体 " 、操作认证 /span OQ span style=" font-size: 16px font-family: 宋体 " 、性能认证 /span PQ span style=" font-size: 16px font-family: 宋体 " 、制造认证 /span span style=" font-size: 16px font-family: Calibri " CQ /span span style=" font-size: 16px font-family: 宋体 " 、 指标认证 /span span style=" font-size: 16px font-family: Calibri " SQ /span span style=" font-size: 16px font-family: 宋体 " 等药物粒度检测仪器验证的内容,并分享了 /span span style=" font-size: 16px font-family: Calibri " FDA /span span style=" font-size: 16px font-family: 宋体 " 审计所需的 /span span style=" font-size: 16px font-family: Calibri " IQ /span span style=" font-size: 16px font-family: 宋体 " 、 /span span style=" font-size: 16px font-family: Calibri " OQ /span span style=" font-size: 16px font-family: 宋体 " 、 /span span style=" font-size: 16px font-family: Calibri " PQ /span span style=" font-size: 16px font-family: 宋体 " 文件内容。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112230.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 128px " src=" https://img1.17img.cn/17img/images/202004/uepic/f802258d-4760-4f8b-8b2f-cc53f074954a.jpg" title=" 李文龙.jpg" alt=" 李文龙.jpg" width=" 100" height=" 128" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=3351" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 李文龙 /span ( span style=" font-size: 16px font-family: 宋体 " 天津中医药大学副研究员 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=3351" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 粉体技术在制药领域的应用及相关思考 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-family: 宋体 font-size: 16px " 粉体学是药剂学的基础理论,对制剂的处方设计、制剂的制备、质量控制、包装等都有重要指导意义。李文龙老师在报告中详细介绍了粉体粒径及粒度分布、粒形、比表面积、孔隙率与密度、流动性与充填性、吸湿性与润湿性 /span span style=" font-family:宋体, SimSun" span style=" font-size: 14px " 六 /span /span span style=" font-family: 宋体 font-size: 16px " 大基本性质。并就相关的制备、混料、至粒、检测表征、过程分析等技术进行了分享。( /span span style=" font-family: 宋体 font-size: 16px text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112231.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-family: 宋体 font-size: 16px color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-family: 宋体 font-size: 16px " ) /span /p h1 label=" 标题居中" style=" font-size: 32px font-weight: bold border-bottom: 2px solid rgb(204, 204, 204) padding: 0px 4px 0px 0px text-align: center margin: 0px 0px 20px " span style=" font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 80) " strong span style=" font-family: 宋体 letter-spacing: 0px font-size: 16px " span style=" font-size: 16px font-family: 宋体 " 气溶胶会场:传播与作用机理剖析 /span span style=" font-size: 16px font-family: 宋体 " 核心分析检测技术概览 /span /span /strong /span /h1 p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体 " 在新冠病毒带来的热度之前,气溶胶早就是环境和健康研究中的重要议题,气溶胶究竟是什么?如何传播?对人体的健康有怎样的影响?又有哪些检测手段可以帮助我们更好地研究气溶胶呢? /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体 " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/2f984027-fbdd-497d-9c18-485a945e9543.jpg" title=" 张连众.jpg" alt=" 张连众.jpg" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6130" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 张连众 /span ( span style=" font-size: 16px font-family: 宋体 " 南开大学教授 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6130" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 气溶胶在空气中传播的性质和在人体呼吸系统的沉淀 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 张连众报告中重点介绍了国家自然科学基金 /span “呼吸系统中气溶胶粒子动力行为的理论研究”项目 span style=" font-size: 16px font-family: 宋体 " 。粒子形状因子影响粒子在人体上呼吸道内的沉降,非球形粒子的形状因子越小,沉降率越高,理想球形粒子沉降率最低。另外,肺叶支气管堵塞时会影响流场分布,从而影响气溶胶微米粒子在人体上呼吸道内的沉降。而微米粒子在人体上呼吸道内的沉降机制主要以拖拽作用下的惯性撞击为主。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112233.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体 " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/077dae74-c09b-48c1-a596-300280159c86.jpg" title=" 华瑞.jpg" alt=" 华瑞.jpg" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6142" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 华瑞 /span (PerkinElmer span style=" font-size: 16px font-family: 宋体 " 产品专家 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6142" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 单颗粒和单细胞 /span ICP-MS span style=" font-size: 16px font-family: 宋体 " 技术在环境和生物分析中的应用 /span /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 报告重点介绍了SP-ICP-MS单颗粒单细胞技术的原理与测试方法,该技术能够测定颗粒尺寸分布、颗粒个数,颗粒内部元素的浓度、颗粒外部溶解出来的元素浓度等。而且,还能够区分含有不同元素的特定粒子。该技术除了在气溶胶检测外,在地表水中银纳米粒子、卵巢癌顺铂吸收行为等环境和生物场景中都有广泛应用。( /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112232.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体, SimSun " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 134px " src=" https://img1.17img.cn/17img/images/202004/uepic/233827dc-0cef-43b5-89a7-394d96b1164d.jpg" title=" 李卫军.jpg" alt=" 李卫军.jpg" width=" 100" height=" 134" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6129" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 李卫军 /span ( span style=" font-size: 16px font-family: 宋体 " 浙江大学教授 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6129" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 电镜单颗粒方法在灰霾形成机制方面的应用与发现 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent:28px text-align:justify text-justify:inter-ideograph" span style=" font-size: 16px font-family: 宋体, SimSun " 李卫军老师使用电镜的微观手段发现北方冬季灰霾含有大量的一次碳质气溶胶(tar ball),而一次 span style=" font-size: 16px font-family: Calibri " tar ball /span 能够为二次颗粒物的非均相化学反应提供重要表 span style=" font-size: 16px font-family: Calibri " / /span 界面。报告中李老师对这项电镜研究手段进行了详细讲解,并给出我国灰霾中圆形吸光性 span style=" font-size: 16px font-family: Calibri " tar ball /span 颗粒主要来源于北方的散煤燃烧且需气候模式评估的结论。( /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112234.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体, SimSun " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/59dc7e09-0ec0-44f3-a362-a0d754b02dfb.jpg" title=" 耿红 (2).jpg" alt=" 耿红 (2).jpg" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6128" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 耿红 /span ( span style=" font-size: 16px font-family: 宋体 " 山西大学教授 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6128" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 电子探针微区技术在黑碳气溶胶形貌与化学分析中的应用 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent:28px text-align:justify text-justify:inter-ideograph" span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 耿老师的报告主要介绍了一种测量大气环境中黑碳气溶胶单颗粒形貌和成分的方法 /span ——低原子序数颗粒物定量电子探针微区分析技术( span style=" font-size: 16px font-family: Calibri " EPMA /span span style=" font-size: 16px font-family: 宋体 " )。该技术运用扫描电镜观察颗粒物尺寸及形貌特征;使用带超薄窗口的能谱仪 /span (EDX) span style=" font-size: 16px font-family: 宋体 " 测量每个颗粒的 /span span style=" font-size: 16px font-family: Calibri " X- /span span style=" font-size: 16px font-family: 宋体 " 射线能谱。并以此为基础进行采样研究与分析,发现我国北方灰霾污染特征和燃料结构发生了重大改变。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112235.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体 " img style=" max-width: 100% max-height: 100% width: 100px height: 145px " src=" https://img1.17img.cn/17img/images/202004/uepic/67694f90-a0e3-4042-8fbd-6b57defca8c6.jpg" title=" 黄渤.jpg" alt=" 黄渤.jpg" width=" 100" height=" 145" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6300" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 黄渤 /span ( span style=" font-size: 16px font-family: 宋体 " 广州禾信仪器股份有限公司应用开发部主管 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6300" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 单颗粒气溶胶质谱在颗粒物检测与分析中的应用进展 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 报告主要介绍了在线单颗粒气溶胶质谱检测与分析方法( /span SPAMS span style=" font-size: 16px font-family: 宋体 " ),该技术可实现气溶胶样品直接进样,无需前处理,实时在线分析,秒极分辨率可获取测得每个气溶胶颗粒物的粒径大小和化学组成。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112236.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p h1 label=" 标题居中" style=" font-size: 32px font-weight: bold border-bottom: 2px solid rgb(204, 204, 204) padding: 0px 4px 0px 0px text-align: center margin: 0px 0px 20px " span style=" font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 80) " strong span style=" font-size: 16px font-family: 宋体 " 超微及纳米颗粒会场:微细气泡与低维碳材料最新研究分析成果 /span /strong /span /h1 p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 微细气泡、石墨烯、锂硫电池,都是前沿科技应用的聚焦点,它们有一个共同的基础——超微及纳米颗粒,在本会场 span style=" font-size: 16px font-family: Calibri " 5 /span 位专家从上述维度带听众走进微纳颗粒应用与检测的神奇世界。 /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 123px " src=" https://img1.17img.cn/17img/images/202004/uepic/12a94102-8ec0-46e6-8adf-834ad29e8f24.jpg" title=" 李兆军 (2).jpg" alt=" 李兆军 (2).jpg" width=" 100" height=" 123" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6115" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 李兆军 /span ( span style=" font-size: 16px font-family: 宋体 " 中国科学院过程工程研究所研究员 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6115" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 微细气泡技术及其应用发展概况 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-align:justify text-justify:inter-ideograph" span style=" font-size: 14px font-family: 宋体, SimSun " & nbsp & nbsp & nbsp & nbsp span style=" font-size: 16px font-family: 宋体 " 十几年来,微细气泡技术及其应用在我国发展非常快,特别在农业、水产养殖、黑臭水体治理等方面,取得了经济效益和社会效益双丰收。报告中李兆军从微细气泡发生原理、方法、测量、标准化等维度详细讲解了微细气泡最新应用发展及标准化情况,并介绍了当前国内外研究微细气泡的研究团队与学会组织概况。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112237.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体 " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/1fcde16a-6a37-43fc-8956-05f26af92b78.jpg" title=" 肖婷.png" alt=" 肖婷.png" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6157" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 肖婷 /span (HORIBA span style=" font-size: 16px font-family: 宋体 " 科学仪器事业部应用工程师 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6157" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 纳米颗粒追踪粒径分析技术的特点及应用 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 报告解析了动态光散射技术(DLS)、常规纳米颗粒追踪粒径分析技术( span style=" font-size: 16px font-family: Calibri " NTA /span )和多光源纳米颗粒追踪粒径分析技术( span style=" font-size: 16px font-family: Calibri " M-NTA /span )检测粒径的不同原理、特性和应用场景。 span style=" font-size: 16px font-family: Calibri " m-NTA /span 是一种具有统计意义的逐个粒子检测方法,能实现纳米颗粒可视化,实时跟踪运动轨迹,精确测量宽分布样品 span style=" font-size: 16px font-family: Calibri " PSD /span 、颗粒浓度、样品中各组份粒度及其分布、样品中各组份颗粒数量与比例等。( /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112238.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体, SimSun " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 119px " src=" https://img1.17img.cn/17img/images/202004/uepic/a5cd15b2-b923-4fe0-b7f4-8473887910d3.jpg" title=" 孙立涛.jpg" alt=" 孙立涛.jpg" width=" 100" height=" 119" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=1709" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 孙立涛 /span ( span style=" font-size: 16px font-family: 宋体 " 东南大学教授 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=1709" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 防霾口罩用石墨烯材料的颗粒表征及应用研究 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 基于对石墨烯原子尺度的精准表征与调控,石墨烯三维多孔结构可作为超高效可循环利用吸附材料,本报告重点介绍了孙立涛研究团队在此基础上进一步发展出的用于防霾口罩的石墨烯基柔性过滤网,由此生产的石墨烯基 /span KN95 span style=" font-size: 16px font-family: 宋体 " 口罩,不久前刚刚驰援疫区。报告还对相关原材料的颗粒表征方法进行了介绍。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112239.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体 " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/2410dbe6-7ee4-494c-949a-d723f22d8886.jpg" title=" 李亚威.jpg" alt=" 李亚威.jpg" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6210" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 李亚威 /span ( span style=" font-size: 16px font-family: 宋体 " 大昌华嘉科学仪器部 /span span style=" font-size: 16px font-family: Calibri " ) /span /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6210" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 超微气泡的检测与应用 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-align:justify text-justify:inter-ideograph" span style=" font-size: 16px font-family: 宋体, SimSun " & nbsp & nbsp & nbsp 根据超微气泡不同的发生方式,超微气泡的检测表征主要有粒径分布、数量浓度、zeta电位、形态观察等,其中微米级气泡主要用动态图像分析技术检测粒度分布、数量计数、颗粒形状等;纳米气泡主要用纳米颗粒追踪分析技术检测粒度分布、数量浓度、 span style=" font-size: 16px font-family: Calibri " Zeta /span 电位等。报告详细介绍了以上两种检测技术的应用场景,并介绍了超微气泡在环保、工业清洗、农业、皮肤清洁等领域的应用。( a href=" https://www.instrument.com.cn/webinar/video_112240.html" target=" _self" style=" color: rgb(0, 176, 240) text-decoration: underline " span style=" font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 133px " src=" https://img1.17img.cn/17img/images/202004/uepic/a0451f33-3ac7-41ff-9a23-b6f126bbb465.jpg" title=" 李峰.jpg" alt=" 李峰.jpg" width=" 100" height=" 133" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6126" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 李峰 /span ( span style=" font-size: 16px font-family: 宋体 " 中国科学院金属研究所研究员 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6126" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 碳基材料及其锂硫电池应用 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 硫电池具有能量密度高、材料价格低廉等优点,但锂硫电池的正极材料硫存在一系列问题,而使其实用化进程受到了限制。碳硫复合电极是其中的解决方案之一,李峰老师的报告重点介绍了碳纳米管、石墨烯等低维碳材料在锂硫电池的正极基体、间隔层以及集流体应用中基础科学问题及应用方法,并给出了今后可能的发展方向。( /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112241.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体, SimSun " ) /span /p h1 label=" 标题居中" style=" font-size: 32px font-weight: bold border-bottom: 2px solid rgb(204, 204, 204) padding: 0px 4px 0px 0px text-align: center margin: 0px 0px 20px " span style=" font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 80) " strong span style=" font-size: 16px font-family: 宋体 " 颗粒检测与表征会场:前沿颗粒检测与表征技术万花筒 /span /strong /span /h1 p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 激光测粒技术是当前各行业进行粒度表征的最常用仪器之一,并且正结合其他尖端技术延展至粒形分析、工业在线、微纳米颗粒性能研究等领域。另一方面拉曼光谱仪也一直是二维材料颗粒表征的重要方法,本会场分享了相关表征仪器最新最尖端的技术研究进展和最前沿应用。 /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 126px " src=" https://img1.17img.cn/17img/images/202004/uepic/085b9f3f-b2d3-4941-9b7a-475f131cd4a3.jpg" title=" 沈建琪.jpg" alt=" 沈建琪.jpg" width=" 100" height=" 126" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6127" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 沈建琪 /span ( span style=" font-size: 16px font-family: 宋体 " 上海理工大学教授 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6127" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 激光测粒技术的优势与缺点 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 光散射法是常用的颗粒粒径测试方法,主要分为静态光散射法和动态光散射法,前者包括衍射法、消光法、角散射法、干涉成像法等,后者包括光子相关光谱法和图像动态光散射法等。报告中,沈建琪详解析了不同光散射颗粒测试技术的原理、应用和注意事项,并分享了相关仪器的发展历程和未来迭代发展的方向。( /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112242.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体, SimSun " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width: 100% max-height: 100% width: 100px height: 119px " src=" https://img1.17img.cn/17img/images/202004/uepic/4c826da7-b30f-408d-b35d-c06635f2b4ea.jpg" title=" 孙正亮.png" alt=" 孙正亮.png" width=" 100" height=" 119" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6158" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 孙正亮 /span ( span style=" font-size: 16px font-family: 宋体 " 马尔文帕纳科产品专家 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6158" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 自动成像技术 /span —颗粒大小和形状的表征 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent:28px text-align:justify text-justify:inter-ideograph" span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 自动成像技术结合了显微成像和粒形粒径分析技术,通过拍照的方式,采集颗粒的 /span 2D span style=" font-size: 16px font-family: 宋体 " 形貌,采用等效面积圆的方式来描述颗粒的的尺寸,同时可以测量圆度,凸度,延伸度等粒形信息。报告介绍了马尔文帕纳科自动成像技术的分析过程与注意事项,并介绍了该技术在锂电、原研药、仿制药等工艺中的前沿应用。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112243.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体 " img style=" max-width: 100% max-height: 100% width: 100px height: 116px " src=" https://img1.17img.cn/17img/images/202004/uepic/3e725c12-cb13-4db3-a70d-7662f760daad.jpg" title=" 蔡小舒.jpg" alt=" 蔡小舒.jpg" width=" 100" height=" 116" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=3730" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 蔡小舒 /span ( span style=" font-size: 16px font-family: 宋体 " 上海理工大学教授 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=3730" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 颗粒在线测量技术的前沿应用分析 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent:28px text-align:justify text-justify:inter-ideograph" span style=" font-size: 16px font-family: 宋体, SimSun " 由于测量环境恶劣、测量对象变化多、抗干扰性需求高等原因,颗粒的在线测量难度很大。常见的颗粒在线测量方法有光学法、超声法、电学法、射线法等,蔡小舒对这些检测方法及相关应用实例进行了讲解,表示图像法与其它方法相融合是颗粒在线测量技术的发展方向之一。( /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112244.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体, SimSun " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/6498a45b-e04b-41b9-9fc5-c8ec6a446f8b.jpg" title=" 张强.jpg" alt=" 张强.jpg" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6139" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 张强 /span ( span style=" font-size: 16px font-family: 宋体 " 贝克曼库尔特产品专家 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6139" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 高分辨粒度表征技术及其研发、质控应用研究 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent:28px text-align:justify text-justify:inter-ideograph" span style=" font-size: 14px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体 " 报告分析了粒径表征误差主要来源,并通过实际应用案例,介绍了贝克曼库尔特高分辨粒度表征技术和相关仪器。 /span span style=" font-size: 16px font-family: 宋体 " 重点介绍了贝克曼库尔特的库尔特(电阻法)技术和 /span PIDS span style=" font-size: 16px font-family: 宋体 " 偏振光强度差散射技术,电阻法在异常微量大粒子的检测和体积变化监测等方面有独到优势,而 /span span style=" font-size: 16px font-family: Calibri " PIDS /span span style=" font-size: 16px font-family: 宋体 " 技术可通过水平和垂直偏振光的强度差来实现亚微米颗粒高分辨率准确测量。( /span /span span style=" font-size: 14px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112245.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体 " img style=" max-width: 100% max-height: 100% width: 100px height: 126px " src=" https://img1.17img.cn/17img/images/202004/uepic/6ec60043-602c-4bf6-a78f-6f3d8303d791.jpg" title=" 刘周.jpg" alt=" 刘周.jpg" width=" 100" height=" 126" border=" 0" vspace=" 0" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6140" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 刘舟 /span ( span style=" font-size: 16px font-family: 宋体 " 岛津企业管理(中国)有限公司产品专家 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=6140" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 微纳米颗粒表征与成像分析应用新技术 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 报告结合颗粒折射率、溶解或团聚、浓度等因素对光散射法粒度计算中的影响介绍了岛津全套粒度仪产品线在不同应用领域的解决方案。重点介绍了岛津独创的诱导光栅法单纳米粒子分析技术。原理如下:在电极两端施加电压,纳米粒子在介电泳作用下排列形成衍射光栅,停止施加电压后纳米粒子会开始扩散,大粒子扩散速度快,小粒子扩散速度慢,通过测量衍射光强度随时间的变化可以测量纳米粒子的粒径大小及分布。( /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112246.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体, SimSun " ) /span /p p style=" text-align:center" span style=" font-size: 16px font-family: 宋体, SimSun " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/86fc91d5-8d00-46e0-9eb2-153cff32e388.jpg" title=" 谭平恒.jpg" alt=" 谭平恒.jpg" / /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=3745" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 谭平恒 /span ( span style=" font-size: 16px font-family: 宋体 " 中国科学院半导体研究所研究员 /span ) /span /strong /span /a /p p style=" text-align: center " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 报告题目:《 /span /strong /span a href=" https://www.instrument.com.cn/webinar/meetings/News/expert?id=3745" style=" text-decoration: underline font-size: 16px font-family: 宋体, SimSun " span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 二维纳米材料的拉曼光谱研究 /span /strong /span /a span style=" font-size: 16px font-family: 宋体, SimSun " strong span style=" font-size: 16px font-family: 宋体 " 》 /span /strong /span /p p style=" text-indent: 32px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " span style=" font-family: 宋体 font-size: 16px " span style=" font-size: 16px font-family: 宋体 " 拉曼散射作为一种光谱研究技术已经在固体材料的研究中得到广泛的应用。这种技术不仅可以被用来研究材料的晶体微观结构和晶格振动性质 /span ,还可以被用来研究材料的能带结构、电子态密度和电声子相互作用等。 span style=" font-size: 16px font-family: 宋体 " 谭平恒在报告中主要将介绍了拉曼散射技术最新进展以及团队利用显微拉曼光谱在二维纳米材料方面所取得研究成果。 /span /span span style=" font-size: 16px font-family: 宋体 " ( /span /span span style=" font-size: 16px font-family: 宋体, SimSun text-decoration: underline " a href=" https://www.instrument.com.cn/webinar/video_112247.html" target=" _self" style=" color: rgb(0, 176, 240) " span style=" text-decoration: underline font-size: 16px font-family: 宋体 color: rgb(0, 176, 240) " 点击观看报告视频回放详情 /span /a /span span style=" font-size: 16px font-family: 宋体 " ) /span /p p style=" text-indent: 32px text-align: justify " span style=" font-size: 16px font-family: 宋体 " /span /p p style=" text-align:center" img src=" https://img1.17img.cn/17img/images/202004/uepic/316ec011-2c9d-4f5e-a9a1-33f1fc2630d6.jpg" title=" 首届颗粒学网络大会圆满落幕 参会逾千人(附专家报告视频回放合集).png" width=" 300" height=" 152" border=" 0" vspace=" 0" alt=" 首届颗粒学网络大会圆满落幕 参会逾千人(附专家报告视频回放合集).png" style=" width: 300px height: 152px " / /p p style=" text-align:center" img style=" width: 300px height: 163px " src=" https://img1.17img.cn/17img/images/202004/uepic/858e8a4e-2d47-4b59-8e84-2b19a61e82cb.jpg" title=" 首届颗粒学网络大会圆满落幕 参会逾千人(附专家报告视频回放合集)1.jpg" width=" 300" height=" 163" border=" 0" vspace=" 0" alt=" 首届颗粒学网络大会圆满落幕 参会逾千人(附专家报告视频回放合集)1.jpg" / /p p style=" text-indent: 32px text-align: center " strong 大会部分网友问题截图 /strong /p p style=" text-indent: 28px text-align: justify " span style=" font-size: 16px font-family: 宋体, SimSun " 两天的大会,让听众们饱饮颗粒学应用研究和相关检测表征技术的前沿知识和最新应用,期间学术专家与听众们交流研讨的学术气氛十分热烈,问答环节累计提问并解答问题超过200条,会议得到专家、听众的一致好评,取得了圆满的成功。 span style=" font-size: 16px font-family: Calibri " 2021 /span 年,让我们下届颗粒研究应用与检测分析主题网络大会再相约! /span /p p style=" text-indent: 28px text-align: center " span style=" color: rgb(0, 176, 240) font-size: 16px font-family: 宋体, SimSun " strong span style=" font-family: 宋体 font-size: 14px " span style=" font-size: 16px font-family: 宋体 " 附 /span : /span /strong /span span style=" border: 1px solid rgb(0, 0, 0) color: rgb(0, 176, 240) text-decoration: underline " strong span style=" text-decoration: underline color: rgb(0, 176, 240) border: 1px solid rgb(0, 0, 0) font-size: 16px font-family: 宋体 " a href=" https://www.instrument.com.cn/webinar/Video/Video/Collection/10513" target=" _self" 专家报告视频回放合集 /a /span /strong /span /p p style=" text-align: center " a href=" https://www.instrument.com.cn/webinar/Video/Video/Collection/10513" target=" _self" span style=" text-decoration: none " strong span style=" text-decoration: none color: rgb(0, 176, 240) font-family: 宋体 font-size: 14px " img style=" max-width:100% max-height:100% " src=" https://img1.17img.cn/17img/images/202004/uepic/d3fa0184-18a6-4ab3-9de0-15b56799b175.jpg" title=" 640_300.jpg" alt=" 640_300.jpg" / /span /strong /span /a /p