演讲嘉宾-Alain Pénicaud

Alain Pénicaud
法国国家科学院Paul Pascal研究所石墨烯实验室主任
Alain Pénicaud is a senior CNRS researcher working at CNRS and the University of Bordeaux. He has obtained his PhD form the University of Rennes in 1988. After spending two years at the University of Southern California, he has worked, first in Mexico (UNAM, then CINVESTAV) then in Bordeaux, using redox chemistry to crystallize soluble fullerenes or to dissolve novel carbon nanoforms. He has pioneered the use of reductive dissolution by showing in 2005 that true solutions of exfoliated carbon nanotubes could be obtained by dissolving alkali metal salts of nanotubes. He later applied that to graphite to obtain graphene solutions in 2007.
演讲题目:Additive Free, Single Layer Graphene in Water & Few Graphene Layers from Food Waste
主题会场闭幕式&大会报告
开始时间2017-09-26 16:30:00
结束时间2017-09-26 17:00:00
内容摘要

(i) Full exfoliation of graphite to form thermodynamically stable, negatively charged, graphene (graphenide) flakes in solution can be achieved by dissolution of graphite intercalation compounds (GICs)in low boiling point aprotic organic solvents under inert atmosphere. We now report that, under certain conditions, graphenide can be transferred to water as single layer graphene. The organic solvent can thenbe evaporated to remain with an aqueous graphene suspension of ca 400 m2/L concentration underambient atmosphere. The Raman spectra (2.33 eV laser) collected in situ on such dispersions show band sat 1343, 1586, 1620 and 2681 cm-1 corresponding to the D, G, D’ and 2D bands of graphene respectively.The 2D band at 2681 cm-1 is well fitted with a sharp lorentzian line (FWHM = 28 cm-1) which is a hallmark of single layer graphene. We have thus succeeded in preparing air stable, bulk suspensions of single layer graphene in water.
(ii) Food waste can be transformed into graphitic carbon and renewable hydrogen using an innovative low energy microwave plasma process at industrial scale. The obtained nanocarbon is obtained through energy efficient transformation of methane resulting from decomposition of food waste. After purification, well defined, high concentration aqueous dispersions of nanocarbons are obtained and characterized. They contain calibrated multilayer graphene particles. Conducting inks and films can be prepared from these dispersions.

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E-mail: meeting@c-gia.cn   meeting01@c-gia.cn

参展电话:13646399362(苏老师)

主讲申请:19991951101(王老师)

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凯发_Alain Pénicaud

凯发

演讲嘉宾-Alain Pénicaud

Alain Pénicaud
法国国家科学院Paul Pascal研究所石墨烯实验室主任
Alain Pénicaud is a senior CNRS researcher working at CNRS and the University of Bordeaux. He has obtained his PhD form the University of Rennes in 1988. After spending two years at the University of Southern California, he has worked, first in Mexico (UNAM, then CINVESTAV) then in Bordeaux, using redox chemistry to crystallize soluble fullerenes or to dissolve novel carbon nanoforms. He has pioneered the use of reductive dissolution by showing in 2005 that true solutions of exfoliated carbon nanotubes could be obtained by dissolving alkali metal salts of nanotubes. He later applied that to graphite to obtain graphene solutions in 2007.
演讲题目:Additive Free, Single Layer Graphene in Water & Few Graphene Layers from Food Waste
主题会场闭幕式&大会报告
开始时间2017-09-26 16:30:00
结束时间2017-09-26 17:00:00
内容摘要

(i) Full exfoliation of graphite to form thermodynamically stable, negatively charged, graphene (graphenide) flakes in solution can be achieved by dissolution of graphite intercalation compounds (GICs)in low boiling point aprotic organic solvents under inert atmosphere. We now report that, under certain conditions, graphenide can be transferred to water as single layer graphene. The organic solvent can thenbe evaporated to remain with an aqueous graphene suspension of ca 400 m2/L concentration underambient atmosphere. The Raman spectra (2.33 eV laser) collected in situ on such dispersions show band sat 1343, 1586, 1620 and 2681 cm-1 corresponding to the D, G, D’ and 2D bands of graphene respectively.The 2D band at 2681 cm-1 is well fitted with a sharp lorentzian line (FWHM = 28 cm-1) which is a hallmark of single layer graphene. We have thus succeeded in preparing air stable, bulk suspensions of single layer graphene in water.
(ii) Food waste can be transformed into graphitic carbon and renewable hydrogen using an innovative low energy microwave plasma process at industrial scale. The obtained nanocarbon is obtained through energy efficient transformation of methane resulting from decomposition of food waste. After purification, well defined, high concentration aqueous dispersions of nanocarbons are obtained and characterized. They contain calibrated multilayer graphene particles. Conducting inks and films can be prepared from these dispersions.

关于主办方

联系我们
400-110-3655   

E-mail: meeting@c-gia.cn   meeting01@c-gia.cn

参展电话:13646399362(苏老师)

主讲申请:19991951101(王老师)

官方微信订阅号
Copyright © 中国国际石墨烯创新大会 版权所有     运营机构:北京现代华清材料科技发展有限责任公司
grapchina.org 京ICP备10026874号-12   grapchina.cn 京ICP备10026874号-23
京公网安备 11010802023402号
分享到: