1 thod in biochemistry, structural biology and pharmaceutical chemistry.

2 scoring its potential usage in synthetic and pharmaceutical chemistry.

3 to contribute to advancements in organic and pharmaceutical chemistry.

4 actical approach for generating pyrazoles in pharmaceutical chemistry.

5 and widely used intermediates in organic and pharmaceutical chemistry.

6  which find broad application in organic and pharmaceutical chemistry.

7 ith the most oft-encountered nucleophiles in pharmaceutical chemistry, amines.

8 ds from organocatalysis and self-assembly to pharmaceutical chemistry and molecular biology.

9 portant in fields such as organic chemistry, pharmaceutical chemistry, and biochemistry, serving for

10 tant structural motifs in organic chemistry, pharmaceutical chemistry, and materials science.

11                Developments in techniques of pharmaceutical chemistry are poised to revolutionize the

12 of new propellants and explosives as well as pharmaceutical chemistry as bioisosteres, bacterial stai

13 ul targeted therapies have been derived from pharmaceutical chemistry - designing chemical compounds

14 f reactions but recently its significance in pharmaceutical chemistry has been discovered.

15 e recent rise in popularity of azetidines in pharmaceutical chemistry has inspired the development of

16  compounds, which are valuable motifs in the pharmaceutical chemistry, is highly atom- and step-econo

17   With increasing use of the SF(5) moiety in pharmaceutical chemistry, this general method of functio