High selective synthesis of CaCO3 superstructures via ultra-homoporous interfacial crystallizer

Precise regulation of biomimetic mineralization for highly ordered superstructures is one of the perpetual concerns in biomaterial synthesis and crystal engineering. Herein, we propose a ultra-homoporous interfacial crystallizer (UHIC) as a novel interfacial microdevice, which has realized high sele...

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Autores principales: Mengyuan Wu, Xiaobin Jiang, Yingshuang Meng, Yuchao Niu, Zhijie Yuan, Wu Xiao, Xiangcun Li, Xuehua Ruan, Xiaoming Yan, Gaohong He
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Lenguaje:EN
Publicado: Elsevier 2021
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Acceso en línea:https://doaj.org/article/27f573d2f1e745eca017b7afd8e143be
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spelling oai:doaj.org-article:27f573d2f1e745eca017b7afd8e143be2021-11-18T04:53:15ZHigh selective synthesis of CaCO3 superstructures via ultra-homoporous interfacial crystallizer2666-821110.1016/j.ceja.2021.100179https://doaj.org/article/27f573d2f1e745eca017b7afd8e143be2021-11-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2666821121000946https://doaj.org/toc/2666-8211Precise regulation of biomimetic mineralization for highly ordered superstructures is one of the perpetual concerns in biomaterial synthesis and crystal engineering. Herein, we propose a ultra-homoporous interfacial crystallizer (UHIC) as a novel interfacial microdevice, which has realized high selective synthesis of CaCO3 superstructures during Gas–Liquid reactive crystallization process. This UHIC with ultra-uniform mass transfer porous channel and interfacial superhydrophilicity render the droplet ultra-homo nucleation site and coordinatively regulate the interfacial nucleation energy. The highly precise microchannel in UHIC can control the CO2 gas flow rate and sufficient interfacial Gas–Liquid diffusion of the CaCO3 pre-nucleation cluster (PNC). By coordinating the PNC diffusion, self-organization and nucleus growth, the proportion of synthesized CaCO3 crystals with spherical and polyhedral structures both increased to higher than 96.77 %, and the crystal size distribution was very uniform (minimum C.V. =11.7%). Fundamental theory of CaCO3 synthesis with UHIC as a desire interfacial reactive were then outlined, which can shed light on the high-selective synthesis of the microscale biomaterials.Mengyuan WuXiaobin JiangYingshuang MengYuchao NiuZhijie YuanWu XiaoXiangcun LiXuehua RuanXiaoming YanGaohong HeElsevierarticleBiomimetic mineralizationBiomaterials synthesisCaCO3 superstructureMicroscale diffusionInterfacial nucleationUltra-homoporous channelChemical engineeringTP155-156ENChemical Engineering Journal Advances, Vol 8, Iss , Pp 100179- (2021)
institution DOAJ
collection DOAJ
language EN
topic Biomimetic mineralization
Biomaterials synthesis
CaCO3 superstructure
Microscale diffusion
Interfacial nucleation
Ultra-homoporous channel
Chemical engineering
TP155-156
spellingShingle Biomimetic mineralization
Biomaterials synthesis
CaCO3 superstructure
Microscale diffusion
Interfacial nucleation
Ultra-homoporous channel
Chemical engineering
TP155-156
Mengyuan Wu
Xiaobin Jiang
Yingshuang Meng
Yuchao Niu
Zhijie Yuan
Wu Xiao
Xiangcun Li
Xuehua Ruan
Xiaoming Yan
Gaohong He
High selective synthesis of CaCO3 superstructures via ultra-homoporous interfacial crystallizer
description Precise regulation of biomimetic mineralization for highly ordered superstructures is one of the perpetual concerns in biomaterial synthesis and crystal engineering. Herein, we propose a ultra-homoporous interfacial crystallizer (UHIC) as a novel interfacial microdevice, which has realized high selective synthesis of CaCO3 superstructures during Gas–Liquid reactive crystallization process. This UHIC with ultra-uniform mass transfer porous channel and interfacial superhydrophilicity render the droplet ultra-homo nucleation site and coordinatively regulate the interfacial nucleation energy. The highly precise microchannel in UHIC can control the CO2 gas flow rate and sufficient interfacial Gas–Liquid diffusion of the CaCO3 pre-nucleation cluster (PNC). By coordinating the PNC diffusion, self-organization and nucleus growth, the proportion of synthesized CaCO3 crystals with spherical and polyhedral structures both increased to higher than 96.77 %, and the crystal size distribution was very uniform (minimum C.V. =11.7%). Fundamental theory of CaCO3 synthesis with UHIC as a desire interfacial reactive were then outlined, which can shed light on the high-selective synthesis of the microscale biomaterials.
format article
author Mengyuan Wu
Xiaobin Jiang
Yingshuang Meng
Yuchao Niu
Zhijie Yuan
Wu Xiao
Xiangcun Li
Xuehua Ruan
Xiaoming Yan
Gaohong He
author_facet Mengyuan Wu
Xiaobin Jiang
Yingshuang Meng
Yuchao Niu
Zhijie Yuan
Wu Xiao
Xiangcun Li
Xuehua Ruan
Xiaoming Yan
Gaohong He
author_sort Mengyuan Wu
title High selective synthesis of CaCO3 superstructures via ultra-homoporous interfacial crystallizer
title_short High selective synthesis of CaCO3 superstructures via ultra-homoporous interfacial crystallizer
title_full High selective synthesis of CaCO3 superstructures via ultra-homoporous interfacial crystallizer
title_fullStr High selective synthesis of CaCO3 superstructures via ultra-homoporous interfacial crystallizer
title_full_unstemmed High selective synthesis of CaCO3 superstructures via ultra-homoporous interfacial crystallizer
title_sort high selective synthesis of caco3 superstructures via ultra-homoporous interfacial crystallizer
publisher Elsevier
publishDate 2021
url https://doaj.org/article/27f573d2f1e745eca017b7afd8e143be
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AT xiaobinjiang highselectivesynthesisofcaco3superstructuresviaultrahomoporousinterfacialcrystallizer
AT yingshuangmeng highselectivesynthesisofcaco3superstructuresviaultrahomoporousinterfacialcrystallizer
AT yuchaoniu highselectivesynthesisofcaco3superstructuresviaultrahomoporousinterfacialcrystallizer
AT zhijieyuan highselectivesynthesisofcaco3superstructuresviaultrahomoporousinterfacialcrystallizer
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AT xiaomingyan highselectivesynthesisofcaco3superstructuresviaultrahomoporousinterfacialcrystallizer
AT gaohonghe highselectivesynthesisofcaco3superstructuresviaultrahomoporousinterfacialcrystallizer
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