<Emphasis Type="Italic">Tetra</Emphasis>-armed conjugated microporous polymers for gas adsorption and photocatalytic hydrogen evolution

Two novel tetra-armed conjugated microporous polymers with different geometries have been designed and synthesized via Suzuki-Miyaura cross coupling polycondensation. Both polymers are stable in various organic solvents tested and are thermally stable. The pyrene-containing polymer of PrPy with the rigid pyrene unit shows a higher Brunauer-Emmet-Teller specific surface area of 1219 m² g^?1 than the tetraphenylethylene-containing polymer of PrTPE (770 m² g^?1), which leads to a high CO₂ uptake ability of 3.89 mmol g^?1 at 1.13 bar/273 K and a H₂ uptake ability of 1.69 wt% at 1.13 bar/77 K. The photocatalytic hydrogen production experiments revealed that PrPy also shows a better photocatalytic performance than PrTPE due to the higher conjugation degree and planar structure, the broader UV-visible (UV-Vis) absorption, the lower photoluminescence lifetime, and the higher specific surface area.     

TiO2-SiO2复合气凝胶：常压干燥制备及性能表征

以廉价的四氯化钛和工业水玻璃为原料,通过溶胶-凝胶法制得TiO2-SiO2复合湿凝胶,用三甲基氯硅烷(TMCS)/乙醇(EtOH)/正己烷(Hexane)混合溶液对湿凝胶进行改性,常压干燥制备了TiO2-SiO2复合气凝胶.利用扫描电子显微镜(SEM)、透射电子显微镜(TEM)、红外光谱(FTIR)、X射线衍射(XRD)及N2吸附/脱附法对复合气凝胶的形貌和性质进行了分析.结果表明,TiO2-SiO2复合气凝胶具有连续多孔结构,150℃干燥后复合气凝胶的比表面积为1 076 m2·g-1,孔体积为4.96 cm3·g-1;经550 ℃热处理后,复合气凝胶仍然具有高的孔隙率,比表面积为856 m2·g-1,孔体积为3.46 cm3·g-1.吸附和光催化降解罗丹明B的结果表明,复合气凝胶同时具有较好的吸附和光催化性能,其吸附/光催化协同作用活性优于纯SiO2气凝胶和锐钛矿TiO2粉末;且重复利用四次降解率仍然可达到89%.     

Facile synthesis of microporous carbonaceous materials derived from a covalent triazine polymer for CO_2 capture

Highly porous nitrogen-doped carbon materials were synthesized by the carbonization of a low-cost porous covalent triazine polymer, PCTP-3, which had been synthesized by the AlCl_3 catalyzed FriedelCrafts reaction of readily available monomers. The nature of the bond and structure of the resulting materials were confirmed using various spectroscopic methods, and the effects of KOH activation on the textural properties of the porous carbon materials were also examined. The KOH-activated porous carbon(aPCTP-3c) materials possessed a high surface area of 2271 m~2 g~(-1) and large micro/total pore volumes of 0.87/0.95 cm~3 g~(-1), respectively, with narrower micropore size distributions than the porous carbon prepared without activation(PCTP-3c). The aPCTP-3c exhibited the best CO_2 uptakes of 284.5 and 162.3 mg g~(-1) and CH_4 uptakes of 39.6 and 25.9 mg g~(-1) at 273 and 298 K/1 bar, respectively, which are comparable to the performance of some benchmark carbon materials under the same conditions. The prepared materials exhibited high CO_2/N_2 selectivity and could be regenerated easily.     

Synthesis and Gas Adsorption Properties of Tetra‐Armed Microporous Organic Polymer Networks Based on Triphenylamine

Two novel tetra‐armed microporous organic polymers have been designed and synthesized via a nickel‐catalyzed Yamamoto‐type Ullmann cross‐coupling reaction or Suzuki cross‐coupling polycondensation. These polymers are stable in various solvents, including concentrated hydrochloric acid, and are thermally stable. The homocoupled polymer YPTPA shows much higher Brunauer–Emmet–Teller‐specific surface area up to 1557 m² g⁻¹ than the copolymer SPTPA (544 m² g⁻¹), and a high CO₂ uptake ability of 3.03 mmol g⁻¹ (1.13 bar/273 K) with a CO₂/N₂ sorption selectivity of 17.3:1. Both polymers show high isosteric heats of CO₂ adsorption (22.7–26.5 kJ mol⁻¹) because the incorporation of nitrogen atoms into the skeleton of microporous organic polymers enhances the interaction between the pore wall and the CO₂ molecules. The values are higher than those of the porous aromatic frameworks, which contain neither additional polar functional groups nor nitrogen atoms, and are rather close to those of previously reported microporous organic polymers containing the nitrogen atoms on the pore wall. These data show that these materials would be potential candidates for applications in post‐combustion CO₂ capture and sequestration technology.

     

Fluorinated Porous Poly(spirobifluorene) Via Direct C‒H Arylation: Characterization,Porosity, and Gas Uptake

Considering intrinsic properties of conjugated polyfluorenes and special functions of porous polymers, synthesis of fluorinated porous poly(spirobifluorene) via direct C?H arylation polycondensation is explored. Owing to the contorted structure and cross-linking nature, the obtained polymer FPSBF shows permanent porosities with Brunauer–Emmett–Teller specific surface area up to 700 m² g^?1 and exhibits a narrow pore size distribution with the dominant pore size at about 0.63 nm, which is more suitable for adsorption of small gas molecules. Based on the measured gas physisorption isotherms with pressure up to 1.13 bar, the obtained polymer shows good uptaking capacities for hydrogen (1.30 wt% at 1.0 bar and 77 K) and methane (4.80 wt% 1.0 bar and 273 K). Moreover, FPSBF has significant adsorption selectivity for CH₄ against N₂ and the estimated ideal adsorption selectivity ratio is up to 30/1 at 1.0 bar and 273 K, which makes the material possess potential application in gas separation.     

有序介孔碳的微波快速合成和表面修饰及其负载性能

以低聚合度酚醛树脂为碳源、三嵌段共聚物F127(Mw=12600,PEO106PPO70PEO106)为模板导向剂,以微波辐照替代传统的烘箱热聚合,在常见功率下(400～800W)快速(15～60min)聚合,并高温碳化获得介孔碳。XRD、TEM、低温N2吸脱附等测试表明所得样品具有高度有序的介孔结构,比表面积和孔容分别可达614m2·g-1和0.47cm3·g-1。合成的介孔碳经NaBH4和胶体钯溶液两步修饰处理,表面被活化并沉积了Pd颗粒,导电性和亲水性均得到改善,载Pt的量和分散性明显提高,Pt/C催化剂的电化学活性面积由4m2·g-1增加到29m2·g-1。     

CeZrYLaO对Fe基整体式稀薄甲烷催化燃烧性能的影响

采用共沉淀法制备了高性能低铈储氧材料Ce_0.35Zr_0.55Y_0.07La_0.03O_1.95(OSM,储氧材料)和胶溶法制备了耐高温、高比表面的La-Al₂O₃并以它们为载体,制备了一系列整体式铁基催化剂。考察了该系列催化剂对甲烷稀薄燃烧的催化性能,并用低温N₂吸附-脱附,储氧能力(oxygen storage capacity,OSC),XRD,XPS和H₂-TPR等测试手段对载体和催化剂进行了表征。活性测试结果表明所制得的整体式催化剂Fe/OSM+La-Al₂O₃可在50 000 h^-1的高空速条件下使含量为1%的甲烷在474 ℃起燃,565 ℃完全转化;低温氮吸附-脱附测试结果表明,所制得的Ce_0.35Zr_0.55Y_0.07La_0.03O_1.95经1 050 ℃焙烧5 h后的BET比表面积达33 m²·g^-1,孔容为0.14 mL·g^-1;La-Al₂O₃经1 050 ℃焙烧5 h后的BET比表面积达125 m²·g^-1,孔容为0.46 mL·g^-1,是优良的催化剂载体;OSC测试结果表明,加入储氧材料(oxygen storage material(OSM))能增加催化剂的储氧性能,有利于催化活性的提高;XRD测试结果表明,OSM以均一固溶体存在;XPS测试结果表明,Fe₂O₃与OSM载体之间的相互作用最强;H₂-TPR测试结果表明,加入OSM能增加催化剂的还原性能,从而提高了催化活性。     

汉麻杆基活性炭表面织构与储氢性能的研究

以天然汉麻杆为原料,采用KOH化学活化的方法改变活化时间制备出了高比表面积活性炭,并且对其表面进行硝酸氧化处理,研究活性炭表面化学状态对其吸附性能的影响。采用77 K低温氮气吸附和FTIR对样品进行了表征,并在77 K、100 kPa的条件下测定样品的氢气吸附等温线。结果表明,所有样品具有较高的比表面积(2 435.93～3 240.95 m²·g^-1)和总孔容(1.3～1.98 cm³·g^-1),且随活化时间的延长而增加,3.5 h达到最大值,之后由于骨架坍塌有所减小。所有样品的孔径分布较为一致呈多峰型分布,主要以小于2 nm的微孔为主,同时含有少量的中孔和大孔。活化3.5 h样品的吸氢量最大,达到3.28wt%。研究发现,吸氢量受比表面积和孔容等参数影响较大,77 K下不仅小于2 nm的微孔对活性炭吸氢行为贡献较大,中孔也有十分重要的影响。样品经硝酸氧化处理后,BET比表面积和总孔容均在一定程度上减小,而氢气吸附量也有所降低。     

Porous crystal derived from a tricarboxylate linker with two distinct binding motifs

The use of a reduced symmetry organic linker for the preparation of porous coordination polymers is demonstrated. The solvothermal reaction of the unsymmetrically substituted biaryl compound biphenyl-3,4',5-tricarboxylic acid with Cu(II) ions produces a [3,4,6]-connected coordination polymer exhibiting very high porosity and surface area (SLangmuir = 3100 m2/g). A striking feature of the structure is its incorporation, in a single material, of both the ubiquitous dinuclear Cu(II) paddlewheel motif and the rarely observed trinuclear Cu(II) cluster. Saturation H2 uptake, measured at 77 K, shows an excess gravimetric uptake of 5.7 wt % at 45 bar with a steep rise at low pressures.     

A mesoporous metal-organic framework constructed from a nanosized C3-symmetric linker and [Cu24(isophthalate)24] cuboctahedra

The mesoporous framework [Cu(3)(L)(H(2)O)(3)]·(DMF)(35)·(H(2)O)(35) (NOTT-119) shows on desolvation a BET surface area of 4118(200) m(2) g(-1), a pore volume of 2.35 cm(3) g(-1), a total H(2) uptake of 101 mg g(-1) at 60 bar, 77 K and a total CH(4) uptake of 327 mg g(-1) at 80 bar, 298 K.     

Sb掺杂SnO_2(ATO)纳米晶的水热合成和导电性能

以Sn和SbI_3为主要原料，在120-170 ℃温和水热条件下合成了具有导电能力 的Sb掺杂SnO_2(ATO)透明导电纳米粉体，运用FT-IR， XRD， BET， TEM等手段对 粉体的形成过程进行了分析表征。实验结果表明，所合成的纳米ATO粉体均为四方 锡石结构，无其他杂相存在，晶粒大小在4-7nm之间，粉体呈单分散状态。比表面 积在137-184m~2·g~(-1)之间，随水热温度的升高，晶粒长大，比表面积下降，粉 体导电性能提高。该方法对于其他透明导电氧化物纳米粉体的合成具有借鉴意义。     

聚1,5-二氨基蒽醌二次锂电池正极材料研究

采用化学氧化方法合成了聚1,5-二氨基蒽醌(PDAAQ)并用于二次锂电池.借助红外光谱确定其分子结构,实验测得材料的平均粒径为7.9μm,比表面积为8.9 m2.g-1,具有0.8 S.cm-1的电导率,符合作为电极材料使用的基本要求;电化学测试表明,作为二次锂电池正极材料使用时,聚合物重复单元中除了醌基团与Li+所发生的电化学氧化还原反应外,聚苯胺导电骨架也对PDAAQ的能量密度和循环性产生贡献.充放电曲线则进一步确定了聚苯胺骨架与醌基团协同作用的存在,实验表明,在Li(CF3SO2)2N/PC+DGDM电解液中,基于活性材料PDAAQ的首次放电容量达到221 mAh.g-1,经过40次充放电循环,容量保持率为80%,因此聚1,5-二氨基蒽醌具有较大应用潜力.     

Microporous polycarbazole with high specific surface area for gas storage and separation

Microporous polycarbazole via straightforward carbazole-based oxidative coupling polymerization is reported. The synthesis route exhibits cost-effective advantages, which are essential for scale-up preparation. The Brunauer-Emmett-Teller specific surface area for obtained polymer is up to 2220 m(2) g(-1). Gas (H(2) and CO(2)) adsorption isotherms show that its hydrogen storage can reach to 2.80 wt % (1.0 bar and 77 K) and the uptake capacity for carbon dioxide is up to 21.2 wt % (1.0 bar and 273 K), which show a promising potential for clean energy application and environmental field. Furthermore, the high selectivity toward CO(2) over N(2) and CH(4) makes the obtained polymer possess potential application in gas separation.     

A ferrocene‐containing porous organic polymer linked by tetrahedral silicon‐centered units for gas sorption

A novel ferrocene‐containing porous organic polymer (FPOP) has been prepared by Sonogashira‐Hagihara coupling reaction of 1,1′‐dibromoferrocene and tetrakis(4‐ethynylphenyl)silane. Compared with other polymers, the resulting polymer possesses excellent thermal stability with the decomposition temperature of 415°C and high porosity with Brunauer–Emmett–Teller (BET) surface area of 542 m² g^?1 as measured by nitrogen adsorption‐desoprtion isotherm at 77 K. For applications, it shows moderate carbon dioxide uptakes of up to 1.42 mmol g^?1 (6.26 wt%) at 273 K/1.0 bar and 0.82 mmol g^?1 (3.62 wt%) at 298 K/1.0 bar, and hydrogen capacity of up to 0.45 mmol g^?1 (0.91 wt%) at 77 K/1.0 bar, indicating that FPOP might be utilized as a promising candidate for storing carbon dioxide and hydrogen. Although FPOP possesses lower porosity than many porous polymers, the gas capacities are higher or comparable to them, thereby revealing that the incorporation of ferrocene units into the network is an effective strategy to enhance the affinity between the framework and gas.     

Hydrogen adsorption in microporous organic framework polymer

A microporous organic framework polymer (OFP) based on a polyimide framework exhibits a high surface area (1159 m(2) g(-1)) and shows a reversible H(2) storage capacity of 3.94 wt% at 10 bar and 77 K, the highest yet reported for an organic polymer.     

无机聚合物正极材料聚三硫代磷氮烯的制备与表征

合成了无机化合物聚三硫代磷氮烯[NPS3]n,借助红外光谱与元素分析测试确定了聚合物的重复单元结构;并通过比表面积分析、粒度测试和扫描电子显微镜观察了无机聚合物材料的微观形貌;热重分析测试表明材料在300℃以下能够稳定使用;循环伏安实验发现,作为锂二次电池正极材料使用,聚三硫代磷氮烯的电化学还原反应在2.25 V(versus Li/Li+)发生,其可逆的电化学氧化反应在2.51 V(versus Li/Li+)进行;充放电测试显示这种无机材料具有745.2 mAh.g-1的首次放电容量,与理论值(759.0 mAh.g-1)十分接近,经过60次充放电循环后放电容量保持在708.8 mAh.g-1,容量保持率95.1%,循环性能优秀.     

硅含量对Al2O3-SiO2气凝胶结构和性能的影响

研究了硅含量对Al2O3-SiO2气凝胶结构和性能的影响.结果表明,随着硅含量的增加,Al2O3-SiO2溶胶的凝胶时间逐渐延长,气凝胶密度逐渐增大.其结构逐渐由多晶勃姆石向无定形SiO2过渡.Al2O3-SiO2气凝胶同时含有Al-O、Si-O以及Al-O-Si结构,600 ℃煅烧后的物相为无定形γ-Al2O3和SiO2,1 200 ℃煅烧后为莫来石相.当硅含量为6.1wt%～13.1wt%时,适量的硅抑制了Al2O3-SiO2气凝胶的相变,其1 000℃的比表面积(339～445 m2·g-1)高于纯Al2O3气凝胶(157 m2·g-1).SEM分析表明,硅元素的加入改变了Al2O3气凝胶的结构形貌,随着硅含量的增大,Al2O3-SiO2气凝胶逐渐由针叶状或长条状向球状颗粒转变.     

硅胶负载氯掺杂二氧化钛光催化剂的水热制备与光催化活性评价

利用水热法, 以硅胶为载体, 以Ti(SO4)2为钛源, NaCl为氯源制备了具有良好性能的硅胶负载氯掺杂二氧化钛(CTS)光催化剂, 考察了氯投加量、焙烧温度及钛硅比对光催化活性的影响. 结果表明, 氯投加量为15% (nCl/nTi)、钛硅物质的量比为3:1、焙烧温度为750 ℃时制备的CTS具有最佳的光催化活性, 其比表面积为60.8 m2·g-1. CTS中的硅胶除了作为载体, 还起到了促进锐钛矿二氧化钛的生成并抑制其向金红石相转变的作用; 氯掺杂二氧化钛(CT)经硅胶负载后, 其表面孔结构发生了变化, 并且热稳定性增加. 苯酚降解实验表明, 与CT相比, CTS以0.7740 g·g-1的二氧化钛含量具有更高的光催化活性.     

Hypercrosslinking Polymers Fabricated from Divinyl Benzene via Friedel-Crafts Addition Polymerization

Microporous organic polymers with high surface area are widely used in many applications.Among them,hypercrosslinked polymers have been extensively concerned because of their simple processes and low-cost reagents.However,due to most state-of-the-art strategies for HCPs based on condensation reactions,the release of small molecules such as hydrochloric acid and methanol involved in such strategies brings about new hazards to environment.Herein,we propose a method of fabrication of hypercrosslinked polymers via self-addition polymerization of divinyl benzene and its crosslinking with polar aromatic molecules.The hypercrosslinked polyDVB-based products are demonstrated by FriedelCrafts addition reaction of double bonds on DVB that can connect adjacent phenyl rings of aromatic molecules to form the crosslinked networks.The HCPDVB-CB obtained in 1-chlorobutane as solvent has a high micropore content and displays high surface area up to 931 m²/g.Following this finding,DVB is used as a novel external crosslinker for knitting polar aromatic molecules.When L-phenylalanine and bisphenol A are used as the aromatic units,the obtained HCP(Phe-DVB)and HCP(BPA-DVB)could reach surface area of 612 and 471 m²/g,and have hydrogen uptake of0.62 wt%and 0.58 wt%at 77 K and 1.13 bar by comparison with HCPDVB-CB having hydrogen uptake of 0.30 wt%,respectively.     

Ferrocene-based hypercrosslinked polymers derived from phenolic polycondensation with unexpected H2 adsorption capacity

Metal-doped porous organic polymers often display unique properties for applications in gas uptake owing to the incorporation of the metal elements in the polymer networks. In this study, a series of novel ferrocene-based hypercrosslinked polymers were prepared by phenolic polycondensation (Fc-PR-HCPs). To generate the hypercrosslinked polymers, 1,1′-ferrocenedicarboxaldehyde (Fc(CHO)₂) and bisphenol A (BPA) were used as the building blocks. The maximum value of BET and micropore surface area is determined to be 1111.4 and 487.4 m²/g for Fc-PR-HCP3. A significant H₂ adsorption capacity of 3.11 wt% was achieved for Fc-PR-HCP3 at 77 K/1.0 bar, which was noted to be higher than the porous organic polymers with even higher BET surface area value. The high micropore surface area value and the adsorption sites (aromatic rings and metal ion-active sites) provided by two building blocks were used to explain the significant H₂ adsorption capacity successfully. Overall, the findings from this study indicate that Fc-PR-HCPs highlighted prospective applications in the field of H₂ capture.