Adamkiewicz reaction
|
47
|
0
|
397
|
en.wikipedia
|
UCLA/Chem 153A Honors (Spring 2019)
|
Extraction (chemistry)
|
47
|
0
|
29.8K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2019)
|
Microfluidics
|
46
|
-19
|
95.9K
|
en.wikipedia
|
University of Washington/Meso and Microfluidics in Chemical Analysis (Spring)
|
Rebbeca Abergel
|
46
|
0
|
6
|
en.wikipedia
|
UCLA/CHEM 172 (Spring 2017)
|
Hydrothermal vent
|
46
|
0
|
46.8K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Anoxic waters
|
46
|
0
|
8.58K
|
en.wikipedia
|
Oregon State University/OEAS540 Biogeochemical Earth (Fall 2019)
|
Incompatible element
|
46
|
0
|
6.28K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2019)
|
Dissimilatory sulfate reduction
|
46
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0
|
2.92K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2019)
|
Photoisomerization
|
46
|
0
|
933
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter)
|
Electronic nose
|
46
|
0
|
6.15K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter)
|
Guy Bertrand (chemist)
|
46
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0
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121
|
en.wikipedia
|
Massachusetts Institute of Technology/Main Group Chemistry (Fall 2022)
|
RNA-targeting small molecule drugs
|
46
|
0
|
331
|
en.wikipedia
|
Duke University/Wiki Edit-a-thon for URG in Chemistry and Physics (none)
|
Molecular Point Group
|
45
|
0
|
42
|
en.wikipedia
|
UCLA/Advanced Inorganic Chemistry (Spring 2016)
|
Plasmid
|
45
|
0
|
51.2K
|
en.wikipedia
|
Hunter College/Chemistry 378 (Fall 2017)
|
Ruomengwan/sandbox
|
44
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0
|
2
|
en.wikipedia
|
MIT/Main Group Chemistry (Fall 2018)
|
"Chlorobactane"
|
44
|
0
|
108
|
en.wikipedia
|
Caltech/Organic Geochemistry 2019 (Spring)
|
Browning (food process)
|
43
|
0
|
2.64K
|
en.wikipedia
|
UCLA/Chem 153A Honors (Fall 2016)
|
Aluminum(I)
|
43
|
0
|
10
|
en.wikipedia
|
MIT/Main Group Chemistry (Fall 2018)
|
Microbial electrolysis cell
|
43
|
0
|
1.46K
|
en.wikipedia
|
UC Berkeley/Carbon Capture and Sequestration (Fall 2018)
|
Iron ore
|
43
|
0
|
79.9K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
David S. Ginger
|
43
|
0
|
6
|
en.wikipedia
|
University of Washington/Chem 165 (Spring 2019)
|
Heterolysis (biology)
|
43
|
0
|
72
|
en.wikipedia
|
Hunter College, CUNY/Biochemistry Lab 378 (Spring 2019)
|
1998 Sydney water crisis
|
43
|
0
|
1.87K
|
en.wikipedia
|
Villanova University/MSE 2301 Fall 2021 (Fall 2021)
|
Biological membrane
|
43
|
0
|
4.31K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter 2023)
|
Iminoboranes
|
42
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0
|
1
|
en.wikipedia
|
MIT/Main Group Chemistry (Fall 2017)
|
Jedidah Isler
|
42
|
0
|
1.55K
|
en.wikipedia
|
Saint Mary's College/WiSEWiki CHEM 342 (Spring 2020)
|
Cyanoacrylate
|
42
|
0
|
55.8K
|
en.wikipedia
|
University of Washington/Meso and Microfluidics in Chemical Analysis (Spring Quarter 2021)
|
Mantle plume
|
42
|
0
|
14.6K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Meta-Chloroperoxybenzoic acid
|
42
|
0
|
8.37K
|
en.wikipedia
|
University of Washington/Meso and Microfluidics in Chemical Analysis (Spring Quarter 2022)
|
Vardø witch trials (1621)
|
42
|
2
|
1.46K
|
en.wikipedia
|
The University of British Columbia/CHEM 300 (Fall 2023)
|
Helen B. Taussig
|
41
|
0
|
4.86K
|
en.wikipedia
|
University of Michigan/CHEM 455 505 Special Topics in Biochemistry - Nucleic Acids Biochemistry (Fall 2021)
|
Tetrahedrane
|
41
|
0
|
1.2K
|
en.wikipedia
|
Massachusetts Institute of Technology/Main Group Chemistry (Fall 2023)
|
Blue Band
|
40
|
0
|
1.12K
|
en.wikipedia
|
Penn State/Chemical Game Theory (Fall 2018)
|
Oceanic carbon cycle
|
40
|
0
|
7.06K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Fission track dating
|
40
|
0
|
4.12K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2019)
|
Melbourne, Florida
|
40
|
0
|
14.1K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Heck reaction
|
40
|
0
|
16.9K
|
en.wikipedia
|
University of Washington/Meso and Microfluidics in Chemical Analysis (Spring Quarter 2022)
|
Adsorption
|
40
|
0
|
19.8K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter 2023)
|
Nutella
|
39
|
0
|
213K
|
en.wikipedia
|
Rutgers University--New Brunswick/Food Physical Systems (Fall 2016)
|
Women in chemistry
|
39
|
0
|
760
|
en.wikipedia
|
UCLA/CHEM 3 - Material World (Fall 2018)
|
Photoredox catalysis
|
39
|
0
|
2.37K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter)
|
Electrochemical reaction mechanism
|
39
|
0
|
555
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter)
|
Covalent organic framework
|
39
|
0
|
2.23K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter 2023)
|
Metal–organic framework
|
39
|
0
|
12.9K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter 2023)
|
Photoresist
|
39
|
0
|
11.1K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter 2023)
|
Zeolitic imidazolate framework
|
39
|
0
|
3.36K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter 2023)
|
Nobel Prize in Physiology or Medicine
|
38
|
0
|
48.7K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Extreme weather
|
38
|
0
|
18.1K
|
en.wikipedia
|
University of Washington/Meso and Microfluidics in Chemical Analysis (Spring 2020)
|
Monocrystalline silicon
|
38
|
0
|
5.39K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter)
|
P-Anisic acid
|
38
|
0
|
557
|
en.wikipedia
|
University of Michigan/CHEM 455 505 Special Topics in Biochemistry - Nucleic Acids Biochemistry (Fall 2021)
|
Serving size
|
37
|
0
|
4.27K
|
en.wikipedia
|
Hunter College/Chemistry 378 (Spring 2018)
|
Organolanthanide chemistry
|
37
|
0
|
389
|
en.wikipedia
|
University of Washington/Meso and Microfluidics in Chemical Analysis (Spring Quarter 2021)
|
Cell cycle
|
37
|
0
|
52.5K
|
en.wikipedia
|
Caltech/Organic Geochemistry 2021 (Spring)
|
Melt inclusion
|
37
|
0
|
245
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Isotope geochemistry
|
36
|
0
|
1.26K
|
en.wikipedia
|
California Institute of Technology/Stable Isotope Biogeochemistry 2020 (Spring)
|
Plating
|
36
|
0
|
5.85K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter 2023)
|
Abraham Lincoln High School (San Francisco)
|
35
|
0
|
6.25K
|
en.wikipedia
|
UCLA/CHEM 3 - Material World (Fall 2018)
|
Hydroxyl radical
|
35
|
0
|
21K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Serpentinite
|
35
|
0
|
24.4K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Biogeochemical cycle
|
35
|
0
|
73.6K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Methanogen
|
35
|
0
|
26.5K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Organoantimony chemistry
|
35
|
0
|
179
|
en.wikipedia
|
Massachusetts Institute of Technology/Main Group Chemistry (fall)
|
Photosynthesis
|
34
|
0
|
336K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Carbonate
|
34
|
0
|
50.8K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Photopharmacology
|
34
|
0
|
302
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter)
|
Permian Basin (North America)
|
34
|
0
|
28.8K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Comté cheese
|
33
|
0
|
38.8K
|
en.wikipedia
|
Rutgers University--New Brunswick/Food Physical Systems (Fall 2016)
|
William J. Evans (chemist)
|
33
|
0
|
77
|
en.wikipedia
|
UCLA/Chem113A -- Introduction to Quantum Mechanics (Fall 2016)
|
Magma
|
33
|
0
|
65.2K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2019)
|
Mineral
|
33
|
0
|
106K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Lake metabolism
|
33
|
0
|
638
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Biological pump
|
33
|
0
|
9.02K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Stream metabolism
|
33
|
0
|
589
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Ferric oxalate
|
32
|
0
|
1.09K
|
en.wikipedia
|
University of Washington/Chem 165 (Spring 2019)
|
Water cycle
|
32
|
0
|
222K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2019)
|
Oxygen-18
|
32
|
0
|
10.6K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2019)
|
Orr
|
32
|
0
|
553
|
en.wikipedia
|
Boston University/Synthetic Inorganic Chemistry (Spring 2021)
|
Azobenzene
|
32
|
0
|
3.18K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter)
|
Cell cycle
|
31
|
0
|
51.6K
|
en.wikipedia
|
Hunter College/Chemistry 378 (Spring 2017)
|
William C. Campbell (scientist)
|
31
|
0
|
5.63K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Atmospheric chemistry
|
31
|
0
|
8.21K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Sulfate-reducing microorganism
|
31
|
0
|
14.6K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2019)
|
Biological photovoltaics
|
31
|
0
|
555
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter)
|
Non-coordinating anion
|
31
|
0
|
1.25K
|
en.wikipedia
|
Massachusetts Institute of Technology/Main Group Chemistry (Fall 2021)
|
Francium
|
31
|
1
|
43.2K
|
en.wikipedia
|
University of Washington/Meso and Microfluidics in Chemical Analysis (Spring Quarter 2022)
|
Pirahã language
|
31
|
1
|
20.5K
|
en.wikipedia
|
The University of British Columbia/CHEM 300 (Fall 2023)
|
Chemiosmosis
|
30
|
0
|
19.7K
|
en.wikipedia
|
Hunter College/Chemistry 378 (Spring 2017)
|
Carbon dioxide
|
30
|
0
|
232K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Powdered sugar
|
29
|
0
|
129K
|
en.wikipedia
|
Rutgers University--New Brunswick/Food Physical Systems (Fall 2016)
|
Polypropylene
|
29
|
0
|
215K
|
en.wikipedia
|
Louisiana State University/CHEM 4150 (Fall 2017)
|
Diatom
|
29
|
0
|
112K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Phthalaldehyde
|
29
|
0
|
2.04K
|
en.wikipedia
|
Dartmouth College/Functional Nanomaterials (Winter 2023)
|
Franck–Condon principle
|
28
|
0
|
14K
|
en.wikipedia
|
Hunter College/Chemistry 378 (Spring 2017)
|
Iron-sulfur protein
|
28
|
0
|
3.14K
|
en.wikipedia
|
Georgia Institute of Technology/CHEM 4521 (Fall 2018)
|
Ruminant
|
28
|
0
|
86.9K
|
en.wikipedia
|
Georgia Institute of Technology/Biogeochemical Cycles (Spring 2019)
|
Mineral dust
|
28
|
0
|
1.88K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Pollution
|
28
|
0
|
383K
|
en.wikipedia
|
Georgia Institute of Technology/Environmental Geochemistry (Fall 2021)
|
Α-keratin
|
27
|
0
|
931
|
en.wikipedia
|
UCLA/Chem 153A Honors (Winter 2017)
|
George Washington High School (San Francisco)
|
27
|
0
|
2.84K
|
en.wikipedia
|
UCLA/CHEM 3 - Material World (Fall 2018)
|
Quantum tunnelling
|
27
|
0
|
64K
|
en.wikipedia
|
University of Washington/Meso and Microfluidics in Chemical Analysis (Spring 2020)
|