Not exact matches
Dr Gavin Stewart, a Lecturer
in Evidence
Synthesis and the meta - analysis expert in the Newcastle team, added: «The much larger evidence base available in this synthesis allowed us to use more appropriate statistical methods to draw more definitive conclusions regarding the differences between organic and conventional cro
Synthesis and the meta - analysis expert
in the Newcastle team, added: «The much larger evidence base available
in this
synthesis allowed us to use more appropriate statistical methods to draw more definitive conclusions regarding the differences between organic and conventional cro
synthesis allowed us to
use more appropriate statistical methods to draw more definitive conclusions regarding the differences between
organic and conventional crops»
In contrast to the high - temperature, gas - phase synthesis used for conventional nanotubes, kinetic chemical control such as is employed in organic chemistry is used for the synthesis of the nanothread
In contrast to the high - temperature, gas - phase
synthesis used for conventional nanotubes, kinetic chemical control such as is employed
in organic chemistry is used for the synthesis of the nanothread
in organic chemistry is
used for the
synthesis of the nanothreads.
Chemists at The University of Texas at Arlington have devised a safer, more environmentally friendly, less expensive and more efficient water - based system for the
synthesis of
organic compounds typically
used in pharmaceuticals, agrochemicals, cosmetics, plastics, textiles and household chemicals.
Chemists often
use nucleophilic additions
in organic synthesis to turn molecules with double bonds into more functionalised compounds.
In the study, the research team presented the design and
synthesis of 3D cage - like
organic network (3D - CON) structure
using a rigid shape persistent building block derived from triptycene - based hexamine (THA).
Our work outlines a basis for
using various miscibility tests and future simulation methods that will significantly reduce or eliminate trial - and - error approaches to material
synthesis and device fabrication of functional semiconducting blends and
organic blends
in general.
Bach showed how elegant
organic synthesis leads to complex natural products which are
used for medical applications and are not provided by nature
in sufficient quantities.