Improved Low-Temperature Aqueous Synthesis of ZnO Nanorods and Their Use in SERS Detection of 4-ABT and RDX

The growth-controlled synthesis of zinc oxide nanorods (ZnO NR) in the aqueous phase has been investigated. The rods were grown on ZnO films previously deposited onto Si(100) and indium tin oxide (ITO) substrates by RF magnetron sputtering. The formation of the rods took place in the presence of hexamethylenetetramine (HMT) as habit-control reagent. The grains in the base ZnO film acted as seeds that promoted the longitudinal growth of the oxide. As-synthesized base films and rods were characterized by X-ray diffraction, scanning electron microscopy (SEM), field emission SEM, optical absorption and photoluminescence spectroscopy techniques. Subsequently, a wet chemistry procedure was performed to achieve ZnO NR growth. This methodology was conducive to the formation of rods of a relatively narrow distribution of diameters (60 - 70 nm) with lengths in the 1 - 3 μm range. Photoluminescence spectra were characterized by a dominant near-band-edge (NBE) peak followed by a green luminescence (GL) broad band, indicative of higher oxygen vacancy concentration in the ZnO NR grown on ZnO/ITO in comparison with those grown on ZnO/Si(100). A UV process was used for coating the ZnO NR with gold (Au). Au coating on ZnO NR was used to evaluate the detection capability by SERS of different analytes such as: 4-aminobenzenethiol (4-ABT) and 1,3,5-trinitroperhydro-1,3,5- triazine (RDX) at low levels. A strong SERS Raman spectrum was observed for 4-ABT. A limit of detection (LOD) of 1 × 10-8M for 4-ABT was achieved corresponding to a minimum of 5.4 × 105molecules detected under the experimental conditions at excitation wavelength of 785 nm with a sensitivity of the ZnO NR in the range of 1.1 × 10-16g under the laser spot.

应用同位素示踪技术研究ABT4号生根粉对水稻的增产机理

应用放射性核素３２Ｐ、１４Ｃ示踪技术，以水稻为研究对象采用不同浓度ＡＢＴ４号生根粉溶液浸种和喷施秧苗，测定秧苗根系吸收功能和叶片光合速率的动态变化，阐明ＡＢＴ４号生根粉的增产作用机理。研究结果表明，经ＡＢＴ４号５～２０ｍｇ·ｋｇ－１浓度浸种及栽前３ｄ秧苗叶面喷施处理，其根系吸收３２Ｐ的量比对照分别增加９９．５％和１１５．１％；孕穗、抽穗和灌浆期功能叶片的光合作用速率分别比对照提高８３％、４８％和５１％。从而进一步阐明了ＡＢＴ４号生根粉促进水稻新根生长、秧苗移栽后迅速活棵返青、调节地上地下部生长关系、增加物质积累、形成合理的产量结构，为在水稻栽培业中大面积推广应用ＡＢＴ４号生根粉提供了科学依据和合理的使用技术。

ABT4号生根粉在早稻抛秧上的应用效果

研究了ABT4号生根粉在早稻抛秧上的应用效果。结果表明:ABT4号生根粉(10mg/L)浸种对早稻有促进秧苗素质、提高有效穗、每穗实粒数和增强抗逆性的作用。

ABT4号增产灵对棉花的生理效应

ＡＢＴ４号增产灵具有提高棉花根系活力，明显调节生理功能的作用。例如增加伤流量，促进对矿物元素的吸收，增加叶绿素含量，增强光合强度，提高脲酶的活性，促进氮素代谢，加快物质转化，维持植株稳健生长，是提高棉花经济产量的生理基础。

杂交稻制种应用ABT4号增产灵试验初报

用ＡＢＴ４号增产灵５种浓度，对杂交稻制种母本，于秧苗一叶一心期喷施，结果显示：喷施的秧苗白根多，对促进分蘖和增加总根长有明显的效果；移栽后早生快发，大田的亩最高苗数和有效穗数增加，使制种产量提高。施用浓度以１５ｐｐｍ为佳。

不同浓度生根粉溶液浸种对水稻生长发育和产量性状的影响

[目的]为了研究ABT生根粉在水稻上的应用效果。[方法]用浓度为51、0 mg/L的ABT 4号生根粉溶液对水稻进行浸种处理,研究了其对水稻秧苗素质、分蘖动态和产量性状的影响。[结果]不同浓度的ABT 4号生根粉浸种后,水稻幼苗根数增加,根系增长,茎基增粗,秧苗的鲜重和干重增加;单株分蘖数多,穗数多,千粒重高,产量明显高于对照。[结论]在水稻上应用ABT 4号生根粉,方法简单,操作方便,具有十分显著的增产效果,是水稻高产稳产的有效措施,在北方水稻生产上具有较好的应用前景。

ABT四号增产灵在水稻栽培上应用研究

本文探讨了ABT四号增产灵在春插秧稻、春旱种稻、麦茬插秧稻上,以不同方法处理后,对根系,地上部生长的影响,及其对产量的效应。结果表明:ABT四号增产灵不仅能明显地促进水稻根系的生长发育,而且也能促进地上部分的健壮生长,从而获得较高的产量,提高了生产效益。ABT四号增产灵的应用开辟了水稻高产、高效益的又一新途径。

PMBP缩2-氨基苯并噻唑席夫碱/离子液体双水相体系萃取废水中重金属离子的研究

合成了新型萃取剂1-苯基-3-甲基-4-苯甲酰基-吡唑啉酮-5缩2-氨基苯并噻唑席夫碱(PMBP-2-ABT),并以其为萃取剂,建立了一种用PMBP-2-ABT/离子液体双水相体系萃取重金属离子的新方法。考察了影响萃取效果的各种因素,如金属离子种类、pH值、萃取剂浓度等。结果表明:该萃取体系对重金属离子的萃取能力由强到弱的顺序为:Cu2+、Pb2+、Co2+、Ni2+、Zn2+;离子液体双水相体系中PMBP-2-ABT是萃取重金属离子的良好萃取剂。

ABT生根粉对苎麻产量及经济性状的影响

４号ＡＢＴ生根粉是一种新型、高效、广谱的增产剂。在苎麻生长期喷施一定浓度的ＡＢＴ生根粉溶液，可有效地促进苎麻生长和纤维的形成，增产效果明显。并能显著改善原麻纤维品质。