A Bi-Enzymatic Cascade Pathway towards Optically Pure FAHFAs**

Recently discovered endogenous mammalian lipids, fatty acid esters of hydroxy fatty acids (FAHFAs), have been proved to have anti-inflammatory and anti-diabetic effects. Due to their extremely low abundancies in vivo, forging a feasible scenario for FAHFA synthesis is critical for their use in uncovering biological mechanisms or in clinical trials. Here, we showcase a fully enzymatic approach, a novel in vitro bi-enzymatic cascade system, enabling an effective conversion of nature-abundant fatty acids into FAHFAs. Two hydratases from Lactobacillus acidophilus were used for converting unsaturated fatty acids to various enantiomeric hydroxy fatty acids, followed by esterification with another fatty acid catalyzed by Candida antarctica lipase A (CALA). Various FAHFAs were synthesized in a semi-preparative scale using this bi-enzymatic approach in a one-pot two-step operation mode. In all, we demonstrate that the hydratase-CALA system offers a promising route for the synthesis of optically pure structure-diverse FAHFAs.     

Evaluation of a sulfidogenic system fed with microalgal biomass of Chlorella pyrenoidosa as an electron donor: Sulfate reduction kinetics

In this study, a sulfidogenic reactor fed with microalgal biomass of Chlorella pyrenoidosa as an electron donor was operated in a continuous mode. This study evaluated the influence of various initial sulfate concentration from 1.0 to 2.5 g/L on anaerobic sulfate reduction kinetics by a sulfidogenic enrichment culture predominantly Desulfovibrio sp. VSV2. It was observed that volumetric sulfate reduction rate (VSRR) was consistently increasing with an increase in volumetric sulfate loading rate (VSLR) across the retention time of 7–10 days. For a retention time of 7 days, the maximum VSRR was noted as 0.0050 g/(L.h) with a corresponding VSLR of 0.0089 g/(L.h). When retention time was maintained for 10 days, a maximum sulfate reduction of 65% and a maximum bacterial concentration of 1.632 g/L were achieved for an initial sulfate concentration of 1.5 g/L. It was concluded that VSLR facilitated through both dilution rate and initial sulfate concentration had a significant influence over sulfate reduction kinetics. The results of the study suggested that the microalgal-fed sulfidogenic system could be effectively employed for reduction of sulfate from sulfate-rich wastewater.     

Laser-assisted preparation of monolithic acidic catalysts for biomass conversion

5-(Hydroxymethyl)furfural (5-HMF) is a vital platform molecule from which a variety of high-value-added fine chemicals and polymerizable monomers can be prepared. The use of solid acids to catalyze the conversion of biomass into 5-HMF is environmentally friendly and economical. However, exploiting the high yield of 5-HMF in a highly concentrated reactant system is challenging. Herein, we present a laser-assisted method for preparing highly acidic monolithic acidic catalysts. A monolithic acidic catalyst based on metal Zr sheets was synthesized and used to catalytically convert 30 wt% fructose into 5-HMF (conversion rate: 96%; yield: 95%). The catalyst was immediately separated from the reaction solution by direct removal at the end of the reaction. Catalytic efficiency was largely unaffected after 10 cycles of use, and the same catalytic efficiency was observed after laser-regeneration, highlighting the potential industrial applicability of the developed catalyst.     

山西野生木本油脂植物资源现状分析

为掌握山西省野生木本油脂植物资源现状,采用实地踏查、试验分析和资料收集相结合的方法,对山西省内主要山地、自然保护区不同野生木本油脂植物资源的种类、分布及含油率进行全面调查统计,并用索氏提取法测定33种木本油脂植物的含油率。结果表明:山西省野生木本油脂植物共43科84属168种。目前开发利用较多的种类有翅果油树、中国沙棘、文冠果等,具有较大开发潜力的有榛属、朴属、山胡椒属、盐肤木属、卫矛属、南蛇藤属、梾木属、槭属、栾树属、野茉莉属、连翘属等。对山西省野生油脂植物的种类组成、取用部位、用途以及利用现状进行了分析,并提出保护与利用建议。     

生物质电厂废弃物草木灰成分分析及成形

生物质热电厂焚烧废弃物的主要成分是草木灰，其产生量大、密度小。大量草木灰不经处理会造成环境污染问题。本文首先分析草木灰的化学成分，确定草木灰的肥料特征，通过添加NH₄H₂PO₄使草木灰的pH达到国家复合肥的相关标准。选用聚天冬氨酸（30%水溶液）作为复合肥的黏结剂，应用于草木灰复合肥的成形造粒，以增加其抗压强度和肥效。研究不同烘干时间、烘干温度、聚天冬氨酸添加量对草木灰复合肥抗压强度的影响规律，通过分析植物的形态及生理指标，进而研究草木灰复合肥的肥效。结果表明：最佳烘干条件为10h、140℃，聚天冬氨酸对草木灰的抗压强度有明显的增强作用，并且草木灰与聚天冬氨酸的复配比为6g∶1mL时肥效最好。此方法解决了元素循环中断、草木灰环境污染，在运输过程中草木灰复合肥易碎，纯草木灰肥效低等问题。     

煤化工烟道气毒性成分对Chlorella pyrenoidosa生长和细胞成分的影响

探究煤化工烟道气中毒性成分对微藻的影响是利用微藻固定煤化工烟道气CO₂实现减排的关键。本文利用不同浓度的NaHS、Na₂SO₃和NH₃·H₂O培养Chlorella pyrenoidosa（C. pyrenoidosa），以探究煤化工烟道气主要毒性成分H₂S、SO₂和NH₃气体水溶物的毒性。实验结果表明：NaHS、Na₂SO₃和NH₃·H₂O浓度分别低于1mmol/(L·d)、40mmol/(L·d)和7mmol/(L·d)时对C. pyrenoidosa生长无抑制作用，而且Na₂SO₃[＜40mmol/(L·d)]会显著促进 C. pyrenoidosa的生长；NaHS 添加4mmol/(L·d)时会在生长初期抑制C. pyrenoidosa的生长，NH₃·H₂O添加35mmol/(L·d)则会直接造成藻细胞的破碎死亡。与对照组相比，NaHS和Na₂SO₃浓度分别低于1mmol/(L·d)、10mmol/(L·d)时对C. pyrenoidosa的细胞成分无影响；NaHS添加4mmol/(L·d)使藻蛋白含量提高7.13%；Na₂SO₃添加40mmol/(L·d)使藻蛋白降低13.45%，总糖含量提高42.90%；NH₃·H₂O的添加会使藻蛋白含量降低，总糖含量提高。微藻生物质整体蛋白质含量较高，可作为蛋白饲料来源。研究结果表明，C. pyrenoidosa对煤化工烟道气中的主要毒性气体有较好的耐受性，利用煤化工烟道气培养微藻具有可行性。     

二氧化碳联合核桃壳提取液促进单针藻Monoraphidium sp. QLZ-3的生长和油脂积累

以单针藻Monoraphidium sp. QLZ-3为对象，研究了CO₂对微藻在核桃壳提取液（walnut shell extracts，WSE）中生长及油脂积累的影响。结果显示，在12%的CO₂条件下，微藻在WSE中的生物量产率及油脂产率达到196.85mg/(L·d)和97.52mg/(L·d)，分别是对照组的1.33倍和1.57倍。WSE培养下，外源CO₂上调了微藻中核酮糖1,5-二磷酸羧化酶基因（ribulose 1,5-bisphosphate carboxylase/oxygenase，rbcL）的表达量，从而促进了CO₂的固定。此外，12% 的CO₂提高了微藻对WSE中多酚的利用，同时上调了乙酰辅酶A羧化酶（acetyl coenzyme A carboxylase，ACCase）和苹果酸酶（malic enzyme，ME）活性，下调了磷酸烯醇式丙酮酸羧化酶（phosphoenolpyruvate carboxylase，PEPC）活性。研究表明，CO₂可以提高WSE中微藻的生物量产率和油脂产率，降低培养成本，为核桃壳的资源化利用及微藻的工业化生产提供了新的理论基础。     

Flame Retardancy and Mechanical Properties of Bio‐Based Furan Epoxy Resins with High Crosslink Density

This work outlines an interesting approach to bioepoxy resins from sustainable 2,5‐bis((oxiran‐2‐ylmethoxy)methyl)furan (BOF). The 3,3′‐diamino diphenyl‐sulfone (33DDS) and 4,4′‐diamino diphenyl‐sulfone (44DDS) are employed as hardeners. For comparison, petro‐based networks from diglycidyl ether of bisphenol A (DGEBA) are developed as well. The systematic analyses suggest that the BOF/DDS networks show higher crosslink densities and mechanical properties than DGEBA/DDS thermosets. Remarkably, an attractive multilayer tubular microstructure is fabricated in the BOF/44DDS thermosets, and it greatly enhances the mechanical performance. Apart from that, BOF/DDS composites exhibit excellent flame retardancy. Especially, for BOF/44DDS, the self‐extinguishment happens in 7 s. The fire retardant mechanism confirms that a low heat release rate and heat release capacity as well as a compact char layer occur in the pyrolysis of BOF/DDS. Thus, the BOF/DDS exhibits superior performance over its DGEBA counterparts and meets a wide variety of requirements in engineering.