CN108114531A - 一种多孔纳米光纤异质结构光催化滤网的制备方法 - Google Patents
一种多孔纳米光纤异质结构光催化滤网的制备方法 Download PDFInfo
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- CN108114531A CN108114531A CN201711315595.XA CN201711315595A CN108114531A CN 108114531 A CN108114531 A CN 108114531A CN 201711315595 A CN201711315595 A CN 201711315595A CN 108114531 A CN108114531 A CN 108114531A
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Abstract
本发明提出一种多孔纳米光纤异质结构光催化滤网的制备方法。该方法包括:光谱可调的贵金属纳米结构与光催化材料的异质结构复合光催化剂的制备;大面积、多层多孔纳米光纤滤网结构的制备,同时利用多孔光纤中金属纳米颗粒的散射增强效应实现太阳光在光纤中反复传导,最终与表面的复合光催化剂相互作用,提高光催化效率。本发明实现了一种可见至红外波段的宽光谱响应且可调的异质结构复合光催化剂的制备,同时结合纳米光纤的高吸附性、高透光性以及金属纳米颗粒独特的光学特性,创造性地提出了一种高太阳光利用率、高效催化降解能力的空气净化滤网,解决了传统空气净化滤网光催化效率低、寿命短及高成本等难题。
Description
技术领域
本发明涉及纳米材料领域、光催化和薄膜器件领域,特别涉及一种基于热电子机理的多孔纳米光纤异质结构光催化滤网及制备方法。
背景技术
在空气污染日益严重的今天,利用半导体金属氧化物的光催化性能进行空气净化普遍被人们认为具有极大的发展前景。传统光催化材料,如二氧化钛、氧化锌等材料因其高化学稳定性、环境友好及工艺简单成本低等优势受到人们广泛关注,但其光生电子空穴的再复合带来的极低的光催化量子效率(通常为1%左右),禁带宽度较大只能响应紫外波段的光(仅占太阳光谱的4%),无法利用可见乃至红外波段的太阳光以及与传统滤网结构兼容性差等众多缺陷使得光催化空气净化的使用场景受到局限。因此寻求一种新机理、多功能的复合光催化空气净化滤网结构是当前研究人员的热点研究方向。
为了实现有效的光生电子空穴对的分离以及可拓展到可见乃至红外光波段的宽太阳光谱响应,利用等离激元金属纳米结构进行半导体金属氧化物的表面改性是有效手段之一。当金属纳米结构尺寸减小到纳米尺度时,就会展现出独特的光学特性——表面等离激元效应。表面等离激元是指当入射光照射到金属表面时,自由电子在光场的驱动下产生的表面波谐振。这种局域化的光子-电子谐振,可通过表面等离激元结构的形貌、尺寸和材料特性进行调谐,在光谱上则体现出可见至红外波段峰值可调的吸收峰。金属等离激元在非辐射跃迁中产生高能电子,即人们所说的“热电子”,该种高能电子因其具有足够的能量,从而可以克服等离激元金属纳米结构与半导体纳米材料之间的势垒(即“肖特基势垒”),快速注入到半导体纳米材料中,最终参与到光化学反应中。该种基于表面等离激元效应诱导的热电子传输机制将有效的实现光生电子空穴对的分离,大大提高催化材料的光催化量子效率。
传统的光催化滤网的材料通常是由过滤棉棉基材料、铝镍基材料过滤网以及无纺布过滤网等构成。该类材料对光催化材料吸附能力、空气透过性以及成本体积上存在诸多问题。因此寻求一种可大面积制备、高透光性、高空气透过性以及高效吸附能力的滤网结构是亟待解决的问题。静电纺丝技术的提出,则有效的解决了该类问题,静电纺丝是一种特殊的纤维制造工艺,通常是将聚合物溶液或熔体在强电场中进行喷射纺丝。在电场作用下,针头处的液滴会由球形变为圆锥形,即泰勒锥,并从圆锥尖端延展得到纤维细丝。将聚合物纺丝溶液通过静电纺丝技术可以生产出纳米级直径的聚合物细丝。该种聚合物细丝具有类似“光纤”的传导特性,可通过构建金属颗粒散射中心的方式实现垂直入射的光变为沿着“光纤”传导的光。同时通过调整相关纺丝参数,可实现对该“光纤”表面的功能化改性,实现高比表面积、高吸附性及高透光性的滤网,从而满足不同实际的应用需求。
针对传统空气净化系统中光催化材料与滤网构成的净化系统中光催化材料催化效率低、不能充分利用太阳光、滤网吸附有机污染物能力低、净化系统寿命短及成本高等问题,本发明提出的一种基于热电子机理的多孔纳米光纤异质结构光催化滤网及制备方法,将有效的解决以上的问题,有望替代传统空气净化器中的滤网净化系统,实现新一代的高效、廉价及高寿命的空气净化器。
发明内容
技术问题:本发明的目的是解决传统空气净化器中光催化材料催化效率低、不能充分利用太阳光、滤网吸附有机污染物能力低、净化系统寿命短及成本高等问题,提出一种基于热电子机理的多孔纳米光纤异质结构光催化滤网的制备方法,该种滤网结构可实现太阳光波段的宽谱线响应、高催化能力及太阳光的多级充分利用,实现广谱、高效的空气净化。
技术方案:为解决上述技术问题,本发明提出了一种基于热电子机理的多孔纳米光纤异质结构光催化滤网及制备方法,包括以下步骤:
步骤一:可见至红外波段光谱可调的等离激元金属纳米结构与半导体纳米结构构成的光催化异质结构的制备:
将可见至红外波段光谱可调的等离激元金属纳米结构溶液以300-10000rpm/min的离心速度离心1-5次,去除其表面的封盖剂,并配制成浓度为0.1-20mol/L的初始溶液a。将半导体纳米结构溶液以1000-20000rpm/min的离心速度离心1-5次,去除其表面封盖剂,重新分散在去离子水中,并配置成浓度为0.1-10mol/L的初始溶液b;将表面配体分子溶解在去离子水中,配置成浓度为0.2-20mol/L的初始溶液c;将初始溶液b和初始溶液c混合,充分搅拌,使得表面配体分子完全吸附在光催化材料表面,以1000-10000rpm/min的离心速度离心1-5次,去除过量的表面配体分子,重新分散在去离子水中,得到混合溶液d;
将初始溶液a和混合溶液d混合,充分搅拌,确保混合溶液d与初始溶液a中的光谱可调的等离激元金属纳米结构充分吸附,最终形成随机结合的光谱可调的等离激元金属纳米结构与半导体纳米结构构成的异质结构溶液e。
步骤二:静电纺丝溶液的配置
取步骤一中的溶液e、高分子有机聚合物、双亲性高分子有机聚合物溶解于一元或多元有机溶剂中,室温下搅拌至高分子有机聚合物质量分数为6%-20%的无色透明溶液f,加入摩尔浓度为0.0001-1mol/L的大尺寸金属纳米颗粒溶液,持续搅拌至无色透明的溶液,得到静电纺丝溶液g。
步骤三:多孔、大面积滤网制备
取静电纺丝溶液g装入玻璃注射器中,排除其中的气泡,并加载在静电纺丝设备的推注卡槽上,裁剪铝箔包覆在接收滚筒上。开启静电纺丝设备电源,设置基本参数,其中接收滚筒转速为10-1000rpm/min,注射器针头距滚筒5-20cm,正高压设置为5-30kv,负高压设置为1-3kv,推注速度设置为0.1-3ml/h。纺丝时间为0.01-24小时,纺丝结束后关闭电源,取下铝箔,放入真空干燥箱中真空干燥,得到复合聚合物纤维结构。为得到多孔的聚合物纤维结构,将负载有纤维的铝箔浸泡在去离子水中0.1-48小时,利用双亲性高分子有机聚合物两相相容特性、高分子有机聚合物不溶于水的特性,在去离子水中溶解双亲性高分子有机聚合物,取出铝箔,空气中加热干燥,最终得到直径为100-10μm、长度为10-10000μm、孔隙率为1-99%的空气净化滤网结构。
其中,所述的等离激元金属纳米结构,供选材料为金、银或铂,或为以上材料构成的多元合金材料,形状为三角板状、立方体状或棒状在可见至红外波段光谱可调的纳米结构,尺寸为10纳米到2000纳米。
所述的表面配体分子,供选材料为双巯基-聚乙二醇、聚乙二醇或3-氨丙基三乙氧基硅烷具有与等离激元金属纳米结构表面亲和性高的表面配体分子。
所述的半导体纳米结构,供选材料为二氧化钛TiO2、氧化锌ZnO、硫化镉CdS或三氧化二铁Fe2O3纳米级氧化物或硫化物半导体纳米结构,或为金、银或钯等离激元金属纳米结构与纳米级氧化物或硫化物半导体材料构成的异质结构,或为将以上结构复合构成的多元复合异质结构。其中纳米级氧化物硫化物半导体材料的形状为球状、棒状、三角板状或立方体状,尺寸为10纳米到100纳米,金属材料的形状为球状、棒状、三角板状或立方体状,尺寸为5纳米到1000纳米。
所述的高分子有机聚合物,供选材料为聚苯乙烯PS、聚酰亚胺PI或聚丙烯腈PAN。
所述的双亲性高分子有机聚合物,供选材料为聚乙烯吡咯烷酮PVP、十六烷基三甲基溴化铵CTAB或十二烷基硫酸钠SDS既能溶于水相又能溶于油相的两相高分子材料
所述的多元有机溶剂,供选材料为环戊酮、二甲基甲酰胺、乙醇、乙二醇或甲苯一元有机溶剂,或为所述溶剂构成的高低沸点搭配的多元溶剂的混合物。
所述的大尺寸金属纳米颗粒溶液,供选材料为金、银或铂,形状为球状、棒状、三角板状或立方体状具有显著的光散射增强特性的等离激元金属纳米结构,或为所述形状的混合物,尺寸为50纳米到10000纳米。
本发明的原理如下:当太阳光或其他人造光源的光垂直入射到多孔纳米光纤异质结构光催化滤网表面时,一部分光被镶嵌在多孔纳米光纤表面的等离激元金属纳米结构与半导体纳米结构构成的异质结构吸收,基于金属纳米结构的表面等离激元共振效应,金属纳米结构表面产生高能电子(即“热电子”),该热电子具有足够高的能量因此能越过等离激元金属纳米结构与半导体纳米结构之间的肖特基势垒,快速注入到光催化材料的导带中,留下空穴在金属表面。光催化材料导带中的电子参与氧气的还原反应,金属表面留下的空穴参与有机污染物的氧化反应,从而实现空气污染物的一次催化降解。与此同时,包裹在多孔纳米光纤内部的大尺寸金属颗粒及未接触外部空气的异质结构作为散射中心,提高另一部分未被吸收的可见光的波矢,与多孔纳米光纤中模式光实现波矢匹配,使得该部分垂直入射的可见光变为可在多孔纳米光纤中多次传导的传导光。该传导光再次被镶嵌在多孔纳米光纤表面的等离激元金属纳米结构与半导体纳米结构构成的异质结构吸收,在实现光的多级、充分利用的同时实现二次催化降解。
有益效果:本发明与现有技术相比具有以下的优点:
1、目前,市面上所用的光催化净化材料主要为纳米TiO2,该种材料由于其自身带隙限制(仅能靠紫外波段的光激发),光生电子空穴对再复合几率高(光催化效率低)及光催化活性位点少等问题,大大限制了其进一步的应用。基于此,我们提出一种可见至红外波段光谱可调的等离激元金属纳米结构与半导体纳米结构构成的异质结构来实现空气中的有机污染物的高效催化降解。基于金属纳米结构的等离激元效应,通过适当调节金属纳米材料的尺寸,可实现可见光乃至红外波段的宽波段激发,同时基于等离激元效应诱导的热电子机制,该种具有较高能量的热电子能够克服肖特基势垒,快速注入到临近的半导体纳米结构中,大大降低了电子空穴对的再复合概率,有效的提高了光催化材料的量子效率。此外,该种结构具有的高比表面积、多反应活性位点也极大地提高了光催化材料的催化能力。
2、为了实现污染空气的吸附、过滤、净化等过程,传统的空气净化滤网往往采用多层滤膜结构实现,每层滤膜仅仅体现单一的功能。这大大提高了滤网结构的体积和成本。基于此,我们提出了一种可将催化材料镶嵌在纳米光纤表面的多孔纳米光纤滤网结构。利用两亲性聚合物材料的两相相容特性以及多元有机溶剂挥发速度不同的特点,在去离子水中溶解掉两亲性聚合物材料,使得更多的催化材料暴露在空气中且镶嵌在多孔纳米光纤表面,在原本光滑的光纤表面实现了多孔结构的同时,也有效的将催化材料与空气充分接触。该种多孔光纤滤网结构不仅有力的固定了催化材料且保证其与空气充分接触,同时多孔结构极大地增加了光催化比表面积。最后再结合该种光纤材料高透光、强吸附、低成本、体积小等卓越特性,我们仅仅利用单层滤网结构就能实现多功能的空气净化,完成空气污染物的高效降解。
3、针对传统的滤网对入射光利用率低、光能不能重复利用等问题,我们提出一种掺入大尺寸金属纳米颗粒的多孔纳米光纤。包裹于多孔纳米光纤中的金属颗粒作为散射中心,使垂直射向多孔纳米光纤中光的波矢增大,从而与多孔光纤中模式光的波矢匹配,实现光在多孔光纤中的反复传导。因此,原先未被利用的入射光反复在镶嵌于多孔纳米光纤表面的金属与光催化材料形成的异质结构上传导,激发催化反应。这实现了光的多级、充分利用,显著提高光的利用率。
附图说明
图1滤网整体结构示意图,
图2滤网局部基本结构示意图与太阳光传播路径图,
图3为二氧化钛纳米棒a、银三角板b、及银纳米球c构成的异质结构示意图。
图中有:太阳光1、等离激元金属纳米结构与半导体纳米结构构成的异质结构2、硫化镉纳米球21、金纳米立方体22、表面配体分子23、银纳米球24、二氧化钛纳米棒25、银三角板26、氧化锌纳米星27、银纳米棒壳28、金纳米棒核29、大尺寸金属纳米颗粒3、球形金属纳米颗粒31、椭球形金属纳米颗粒32、星形金属纳米颗粒33、多孔聚合物光纤4。
具体实施方式
下面通过具体实施例进一步说明本发明:
具体实施例1:
步骤一:可见至红外波段光谱可调的等离激元金属纳米结构与半导体纳米结构构成的光催化异质结构的制备
将可见至红外波段光谱可调的金纳米立方体以4500rpm、15min离心3次,沉淀溶于去离子水中,配制成浓度为0.1mol/L的初始溶液a。将硫化镉纳米球溶液以10000rpm、20min离心5次,沉淀溶于去离子水中,配置成浓度为3mol/L的初始溶液b;将聚乙二醇分子溶解在去离子水中,配置成浓度为6mol/L的初始溶液c;取初始溶液b和初始溶液c各20ml混合,充分搅拌,然后以5000rpm、15min离心3次,沉淀溶于去离子水中,得到浓度为3mol/L的混合溶液d;
取初始溶液a和混合溶液d各10ml混合,充分搅拌,最终形成金纳米立方体与硫化镉纳米球构成的异质结构溶液e(如图3a所示)。
步骤二:静电纺丝溶液的配置
取2ml溶液e、2g聚酰亚胺、0.3g十六烷基三甲基溴化铵CTAB溶解于10ml环戊酮中,室温下搅拌至聚酰亚胺质量分数为13%的无色透明溶液f,加入体积为1ml、浓度为0.1mol/L、尺寸为60nm的金纳米三角板溶液,持续搅拌至无色透明,得到静电纺丝溶液g。
步骤三:多孔、大面积滤网制备
取5ml静电纺丝溶液g装入容积为10ml的玻璃注射器中,将注射器加载在静电纺丝设备的推注卡槽上,裁剪铝箔包覆在接收滚筒上。开启静电纺丝设备电源,设置基本参数,其中接收滚筒转速为100rpm/min,注射器针头距滚筒20cm,正高压设置为25kv,负高压设置为1.5kv,推注速度设置为0.5ml/h。保持以上参数纺丝2h,纺丝结束后关闭电源,取下铝箔,放入真空干燥箱中60℃真空干燥1h。为得到多孔的聚合物纤维结构,将负载有纤维的铝箔浸泡在去离子水中1h,使得聚合物纤维中的十六烷基三甲基溴化铵CTAB溶解,得到多孔聚合物纤维结构。取出铝箔,空气中80度干燥1h,得到最终的空气净化滤网结构。
具体实施例2:
步骤一:可见至红外波段光谱可调的等离激元金属纳米结构与半导体纳米结构构成的光催化异质结构的制备
将可见至红外波段光谱可调的银三角板溶液以6000rpm、25min离心2次,沉淀溶于去离子水中,配制成浓度为0.5mol/L的初始溶液a。将二氧化钛纳米棒与银纳米球构成的异质结构溶液以8000rpm、10min离心3次,沉淀溶于去离子水中,配置成浓度为1mol/L的初始溶液b;将双巯基-聚乙二醇分子溶解在去离子水中,配置成浓度为1mol/L的初始溶液c;取初始溶液b和初始溶液c各20ml混合,充分搅拌,然后以6000rpm、15min离心3次,沉淀溶于去离子水中,得到浓度为1mol/L的混合溶液d;
取初始溶液a和混合溶液d各10ml混合,充分搅拌,最终形成银三角板、二氧化钛纳米棒及银纳米球构成的异质结构溶液e(如图3b所示)。
步骤二:静电纺丝溶液的配置
取1ml溶液e、3g聚苯乙烯、1g聚乙烯吡咯烷酮PVP溶解于30ml的环戊酮与二甲基甲酰胺的二元混合溶剂(体积比为1:1)中,室温下搅拌至聚苯乙烯质量分数为7%的无色透明溶液f,加入体积为0.5ml、浓度为0.01mol/L、尺寸为100nm的银纳米球、溶液,持续搅拌至无色透明,得到静电纺丝溶液g。
步骤三:多孔、大面积滤网制备
取5ml静电纺丝溶液g装入容积为10ml的玻璃注射器中,将注射器加载在静电纺丝设备的推注卡槽上,裁剪铝箔包覆在接收滚筒上。开启静电纺丝设备电源,设置基本参数,其中接收滚筒转速为400rpm/min,注射器针头距滚筒15cm,正高压设置为15kv,负高压设置为2kv,推注速度设置为1ml/h。保持以上参数纺丝1h,纺丝结束后关闭电源,取下铝箔,放入真空干燥箱中60℃真空干燥1h。为得到多孔的聚合物纤维结构,将负载有纤维的铝箔浸泡在去离子水中1h,使得聚合物纤维中的聚乙烯吡咯烷酮PVP溶解,得到多孔聚合物纤维结构。取出铝箔,空气中80度干燥1h,得到最终的空气净化滤网结构。
具体实施例3:
步骤一:可见至红外波段光谱可调的等离激元金属纳米结构与半导体纳米结构构成的光催化异质结构的制备
将可见至红外波段光谱可调的金银合金纳米棒溶液以8000rpm、15min离心3次,沉淀溶于去离子水中,配制成浓度为2mol/L的初始溶液a。将氧化锌纳米星溶液以10000rpm、5min离心2次,沉淀溶于去离子水中,配置成浓度为5mol/L的初始溶液b;将3-氨丙基三乙氧基硅溶解在去离子水中,配置成浓度为8mol/L的初始溶液c;取初始溶液b和初始溶液c各20ml混合,充分搅拌,然后以3000rpm、10min离心3次,沉淀溶于去离子水中,得到浓度为5mol/L的混合溶液d;
取初始溶液a和混合溶液d各10ml混合,充分搅拌,最终形成金银合金纳米棒与氧化锌纳米星构成的异质结构溶液e(如图3c所示)。
步骤二:静电纺丝溶液的配置
取3ml溶液e、5g聚丙烯腈、1.5g十二烷基硫酸钠SDS溶解于45ml的乙二醇、甲苯与二甲基甲酰胺的三元混合溶剂(体积比为1:1:1)中,室温下搅拌至聚丙烯腈质量分数为10%的无色透明溶液f,加入体积为4ml、浓度为0.05mol/L、尺寸为1000nm的银纳米线溶液,持续搅拌至无色透明,得到静电纺丝溶液g。
步骤三:多孔、大面积滤网制备
取8ml静电纺丝溶液g装入容积为10ml的玻璃注射器中,将注射器加载在静电纺丝设备的推注卡槽上,裁剪铝箔包覆在接收滚筒上。开启静电纺丝设备电源,设置基本参数,其中接收滚筒转速为800rpm/min,注射器针头距滚筒5cm,正高压设置为10kv,负高压设置为3kv,推注速度设置为2ml/h。保持以上参数纺丝0.5h,纺丝结束后关闭电源,取下铝箔,放入真空干燥箱中60℃真空干燥1h。为得到多孔的聚合物纤维结构,将负载有纤维的铝箔浸泡在去离子水中1h,使得聚合物纤维中的十二烷基硫酸钠SDS溶解,得到多孔聚合物纤维结构。取出铝箔,空气中80度干燥1h,得到最终的空气净化滤网结构。
Claims (9)
1.一种多孔纳米光纤异质结构光催化滤网的制备方法,包括以下步骤:
步骤一:可见至红外波段光谱可调的等离激元金属纳米结构与半导体纳米结构构成的光催化异质结构的制备,
1-1)将可见至红外波段光谱可调的等离激元金属纳米结构溶液以300-10000rpm/min的离心速度离心1-5次,去除其表面的封盖剂,并配制成浓度为0.1-20mol/L的初始溶液a;
1-2)将半导体纳米结构溶液以1000-20000rpm/min的离心速度离心1-5次,去除其表面封盖剂,重新分散在去离子水中,并配置成浓度为0.1-10mol/L的初始溶液b;
1-3)将表面配体分子溶解在去离子水中,配置成浓度为0.2-20mol/L的初始溶液c;
1-4)将初始溶液b和初始溶液c混合,充分搅拌,使得表面配体分子完全吸附在光催化材料表面,以1000-10000rpm/min的离心速度离心1-5次,去除过量的表面配体分子,重新分散在去离子水中,得到混合溶液d;
1-5)将初始溶液a和混合溶液d混合,充分搅拌,确保混合溶液d与初始溶液a中的光谱可调的等离激元金属纳米结构充分吸附,最终形成随机结合的光谱可调的等离激元金属纳米结构-半导体纳米结构构成的异质结构溶液e;
步骤二:静电纺丝溶液的配置
取步骤一中的溶液e、高分子有机聚合物、双亲性高分子有机聚合物溶解于一元或多元有机溶剂中,室温下搅拌至高分子有机聚合物质量分数为6%-20%的无色透明溶液f,加入摩尔浓度为0.0001-1mol/L的大尺寸金属纳米颗粒溶液,持续搅拌至无色透明的溶液,得到静电纺丝溶液g;
步骤三:多孔、大面积滤网制备
取静电纺丝溶液g装入玻璃注射器中,排除其中的气泡,并加载在静电纺丝设备的推注卡槽上,裁剪铝箔包覆在接收滚筒上;开启静电纺丝设备电源,设置基本参数,其中接收滚筒转速为10-1000rpm/min,注射器针头距滚筒5-20cm,正高压设置为5-30kv,负高压设置为1-3kv,推注速度设置为0.1-3ml/h。纺丝时间为0.01-24小时,纺丝结束后关闭电源,取下铝箔,放入真空干燥箱中真空干燥,得到复合聚合物纤维结构;
将负载有纤维的铝箔浸泡在去离子水中0.1-48小时,利用双亲性高分子有机聚合物两相相容特性、高分子有机聚合物不溶于水的特性,在去离子水中溶解双亲性高分子有机聚合物,取出铝箔,空气中加热干燥,最终得到直径为100-10μm、长度为10-10000μm、孔隙率为1-99%的空气净化滤网结构。
2.如权利要求1所述的一种多孔纳米光纤异质结构光催化滤网的制备方法,其特征在于,所述等离激元金属纳米结构,供选材料为金、银或铂,或为以上材料构成的多元合金材料,形状为三角板状、立方体状或棒状在可见至红外波段光谱可调的纳米结构,尺寸为10纳米到2000纳米。
3.如权利要求1所述的一种多孔纳米光纤异质结构光催化滤网的制备方法,其特征在于,所述表面配体分子,供选材料为双巯基-聚乙二醇、聚乙二醇或3-氨丙基三乙氧基硅烷具有与等离激元金属纳米结构高表面亲和性的表面配体分子。
4.如权利要求1所述的一种多孔纳米光纤异质结构光催化滤网的制备方法,其特征在于,所述半导体纳米结构,供选材料为二氧化钛TiO2、氧化锌ZnO、硫化镉CdS或三氧化二铁Fe2O3纳米级氧化物或硫化物半导体纳米结构,或为金、银或钯等离激元金属纳米结构与纳米级氧化物或硫化物半导体材料构成的异质结构,或为将以上结构复合构成的多元复合异质结构。
5.如权利要求1所述的一种多孔纳米光纤异质结构光催化滤网的制备方法,其特征在于,所述纳米级氧化物硫化物半导体材料的形状为球状、棒状、三角板状或立方体状,尺寸为10纳米到100纳米,金属材料的形状为球状、棒状、三角板状或立方体状,尺寸为5纳米到1000纳米。
6.如权利要求1所述的一种多孔纳米光纤异质结构光催化滤网的制备方法,其特征在于,所述高分子有机聚合物,供选材料为聚苯乙烯PS、聚酰亚胺PI或聚丙烯腈PAN。
7.如权利要求1所述的一种多孔纳米光纤异质结构光催化滤网的制备方法,其特征在于,所述双亲性高分子有机聚合物,供选材料为聚乙烯吡咯烷酮PVP、十六烷基三甲基溴化铵CTAB或十二烷基硫酸钠SDS既能溶于水相又能溶于油相的两相高分子材料。
8.如权利要求1所述的一种多孔纳米光纤异质结构光催化滤网的制备方法,其特征在于,所述多元有机溶剂,供选材料为环戊酮、二甲基甲酰胺、乙醇、乙二醇或甲苯一元有机溶剂,或为所述溶剂构成的高低沸点搭配的多元溶剂的混合物。
9.如权利要求1所述的一种多孔纳米光纤异质结构光催化滤网的制备方法,其特征在于,所述大尺寸金属纳米颗粒溶液,供选材料为金、银或铂,形状为球状、棒状、三角板状或立方体状具有显著的光散射增强特性的等离激元金属纳米结构,或为所述形状的混合物,尺寸为50纳米到10000纳米。
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