Font Size: a A A
Keyword [chiral recognition]
Result: 181 - 200 | Page: 10 of 10
181. Synthesis Of Molecular Tweezers Containing Two Isosteviol Fragments And Its Chiral Recognition Ability
182. Studies On The Recognition Of Chiral Acids By Electrochemical Sensors Based On Graphene-based Composites
183. Investigation Of Charge Transport Through Hydrogen Bond And Chiral Recognition Via Single-Molecule Electrical Measurement Technique
184. Preparation Of Single Chiral Gels Of Amino Acid Derivatives And Study On Chiral Recognition
185. Regulation And Application Of Single Chiral Assemblies Of Amion Acids Derivatives
186. Preparation And Recognition Study Of Anti-ofloxacin Enantioselective Fab Fragments
187. Enantiorecognition And Its Mechanism Of Surface Plasmon Resonance Chiral Sensor For Amino Acids Based On Functionalized Graphene-molecular Imprinted Polymers Composite
188. Crown Ether Used As Chiral Separation Material
189. Application Of The Graphene-based Composites In The Construction Of Electrochemical Chiral Sensors
190. Research On The Construction Of Impedance Sensor And Its Chiral Recognition Of Amino Acid
191. Study On Synthesis And Recognition Properties Of Helical Polymer Containing Chiral Oxazoline
192. Preparation And Application Of Optically Active Polyacetylene Nanofibers By Electrospinning
193. Preparation And Properties Of Optically Active Helical Substituted Polyacetylene/Silica Core-shell Microspheres
194. Study On Catalytic Asymmetric Synthesis And Recognition Of Atropisomeric Arylquinolines
195. Preparation And Enantioseperation Ability Of Cellulose-Based Organic-Inorganic Hybrid Materials
196. Nanomaterials Technology Expands The Study Of The Identification Of Chiral Pollutants In The Environment By Spectroscopy
197. Research On Chiral Recognition Performance Of Gold Nanorods And Gold Nanocubes
198. Multifarene [3, 3] Modified Graphene To Construct A Supramolecular Sensor And Its Molecular Recognition Performance
199. Gas phase chiral recognition, characterization of porous polymer monolith nanospray ionization, and the negative mode CRAFTI method using Fourier transform ion cyclotron resonance mass spectrometry
200. Chiral recognition and binding constant determination in monovalent and bivalent systems using electrospray ionization mass spectrometr
  <<First  <Prev  Next>  Last>>  Jump to