MC Chem Wiki - User contributions [en]

Daily Activity Log

2017-03-31T04:23:00Z

Cfolluo: /* March */

==2016==
===August===

====08/29/2016====
*Work data from [[Media:06.01.2016 Gel.pdf|06.01.2016 Blot]] (See Notebook 3 p36-39)
*Create presentation for Science Seminar 09/02/2016

===September===
====09/05/2016====
*Find articles
*Read
*Update Project Proposal

====09/19&26/2016====
*[[Media:9.28.2016_Data_Report_Sheet.pdf|EPR Data Report Sheet]] (See Notebook 3 p41-47)

===October===
====10/03/2016====
EPR of Citrine vs. Amethyst
*Iron signal produced
*No difference between the Single Crystal of Citrine vs. Single Crystal of Amethyst
*No difference between Powder Spectrum of Citrine vs. Powder Spectrum of Amethyst
*No difference between Single Crystal vs Powder Spectrum of each sample

====10/17/2016====
*[[Media:10.17.2016_p53_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebook 3 p53-54)
See this [[Media:Rru108.pdf|reference]]

====10/24/2016====
*[[Media:10.17.2016_p55_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebok 3 p 55-61)

===November===
====11/1&7/2016====
{| class="wikitable"
|-
! Tooth Number
! Tooth Type
! Mass of fragment (1) to be irradiated (g)
! Mass of fragment (2) to be irradiated (g)
! Mass of fragment (1) control (g)
! Mass of fragment (2) control (g)
|-
| 1
| Bicuspid
| 0.4316
| N/A
| 0.3525
| N/A
|-
| 2
| Bicuspid
| 0.3745
| N/A
| 0.1477
| N/A
|-
| 3
| Bicuspid
| 0.3782
| N/A
| 0.2573
| N/A
|-
| 4
| Bicuspid
| 0.4046
| N/A
| 0.2320
| N/A
|-
| 5
| Incisor
| 0.3891
| N/A
| 0.1518
| N/A
|-
| 6
| Incisor
| 0.4457
| N/A
| 0.4143
| N/A
|-
| 7
| Molar
| 0.4839
| 0.4655
| 0.3972
| N/A
|-
| 8
| Incisor
| 0.7098
| N/A
| 0.2400
| N/A
|-
| 9
| Bicuspid
| 0.2871
| N/A
| 0.2257
| N/A
|-
| 10
| Molar
| 0.6362
| 0.6592
| 0.4378
| N/A
|-
| 11
| N/A tooth fragmented by sawing
| N/A
| N/A
| N/A
| N/A
|-
| 12
| Molar
| 0.3872
| 0.4484
| 0.2458
| N/A
|-
| 13
| Cuspid
| 0.4336
| N/A
| 0.2483
| 0.2425
|-
| 14
| Cuspid
| 0.5039
| N/A
| 0.3336
| 0.1550
|}

====11/21/2016====
*[[Media:11.21.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p71-82)

====11/28/2016====
*[[Media:11.28.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p83-87)
*See calculations on p 88-89

==2017==
===January===
====01/22-23/2017====
*[[Media:01.24.2017_New_EPR_First_Solo_Runs.docs.pdf|New EPR Mn Standard and CaO:Mn]] (See Notebook 3 p95-97)

===February===
*Things did happen here, but no noteworthy data was collected. (Will update later.)

===March===
[[File:Trendline.jpeg|thumb|center|x300px]]
[[File:30 Gy.jpeg|thumb|center|x300px]]
[[File:27 Gy.jpeg|thumb|center|x300px]]
[[File:24 Gy.jpeg|thumb|center|x300px]]
[[File:21 Gy.jpeg|thumb|center|x300px]]
[[File:18 Gy.jpeg|thumb|center|x300px]]
[[File:15 Gy.jpeg|thumb|center|x300px]]
[[File:12 Gy.jpeg|thumb|center|x300px]]
[[File:09 Gy.jpeg|thumb|center|x300px]]
[[File:06 Gy.jpeg|thumb|center|x300px]]
[[File:03 Gy.jpeg|thumb|center|x300px]]
[[File:00 Gy.jpeg|thumb|center|x300px]]

File:00 Gy.jpeg

2017-03-31T04:22:22Z

Cfolluo:

File:03 Gy.jpeg

2017-03-31T04:22:02Z

Cfolluo:

File:06 Gy.jpeg

2017-03-31T04:21:44Z

Cfolluo:

File:09 Gy.jpeg

2017-03-31T04:21:25Z

Cfolluo:

File:12 Gy.jpeg

2017-03-31T04:21:08Z

Cfolluo:

File:15 Gy.jpeg

2017-03-31T04:20:43Z

Cfolluo:

Daily Activity Log

2017-03-31T04:20:25Z

Cfolluo: /* March */

==2016==
===August===

====08/29/2016====
*Work data from [[Media:06.01.2016 Gel.pdf|06.01.2016 Blot]] (See Notebook 3 p36-39)
*Create presentation for Science Seminar 09/02/2016

===September===
====09/05/2016====
*Find articles
*Read
*Update Project Proposal

====09/19&26/2016====
*[[Media:9.28.2016_Data_Report_Sheet.pdf|EPR Data Report Sheet]] (See Notebook 3 p41-47)

===October===
====10/03/2016====
EPR of Citrine vs. Amethyst
*Iron signal produced
*No difference between the Single Crystal of Citrine vs. Single Crystal of Amethyst
*No difference between Powder Spectrum of Citrine vs. Powder Spectrum of Amethyst
*No difference between Single Crystal vs Powder Spectrum of each sample

====10/17/2016====
*[[Media:10.17.2016_p53_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebook 3 p53-54)
See this [[Media:Rru108.pdf|reference]]

====10/24/2016====
*[[Media:10.17.2016_p55_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebok 3 p 55-61)

===November===
====11/1&7/2016====
{| class="wikitable"
|-
! Tooth Number
! Tooth Type
! Mass of fragment (1) to be irradiated (g)
! Mass of fragment (2) to be irradiated (g)
! Mass of fragment (1) control (g)
! Mass of fragment (2) control (g)
|-
| 1
| Bicuspid
| 0.4316
| N/A
| 0.3525
| N/A
|-
| 2
| Bicuspid
| 0.3745
| N/A
| 0.1477
| N/A
|-
| 3
| Bicuspid
| 0.3782
| N/A
| 0.2573
| N/A
|-
| 4
| Bicuspid
| 0.4046
| N/A
| 0.2320
| N/A
|-
| 5
| Incisor
| 0.3891
| N/A
| 0.1518
| N/A
|-
| 6
| Incisor
| 0.4457
| N/A
| 0.4143
| N/A
|-
| 7
| Molar
| 0.4839
| 0.4655
| 0.3972
| N/A
|-
| 8
| Incisor
| 0.7098
| N/A
| 0.2400
| N/A
|-
| 9
| Bicuspid
| 0.2871
| N/A
| 0.2257
| N/A
|-
| 10
| Molar
| 0.6362
| 0.6592
| 0.4378
| N/A
|-
| 11
| N/A tooth fragmented by sawing
| N/A
| N/A
| N/A
| N/A
|-
| 12
| Molar
| 0.3872
| 0.4484
| 0.2458
| N/A
|-
| 13
| Cuspid
| 0.4336
| N/A
| 0.2483
| 0.2425
|-
| 14
| Cuspid
| 0.5039
| N/A
| 0.3336
| 0.1550
|}

====11/21/2016====
*[[Media:11.21.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p71-82)

====11/28/2016====
*[[Media:11.28.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p83-87)
*See calculations on p 88-89

==2017==
===January===
====01/22-23/2017====
*[[Media:01.24.2017_New_EPR_First_Solo_Runs.docs.pdf|New EPR Mn Standard and CaO:Mn]] (See Notebook 3 p95-97)

===February===
*Things did happen here, but no noteworthy data was collected. (Will update later.)

===March===
[[File:Trendline.jpeg|thumb|center|x300px]]
[[File:30 Gy.jpeg|thumb|center|x300px]]
[[File:27 Gy.jpeg|thumb|center|x300px]]
[[File:24 Gy.jpeg|thumb|center|x300px]]
[[File:21 Gy.jpeg|thumb|center|x300px]]
[[File:18 Gy.jpeg|thumb|center|x300px]]
[[File:15 Gy]]
[[File:12 Gy]]
[[File:09 Gy]]
[[File:06 Gy]]
[[File:03 Gy]]
[[File:00 Gy]]

File:18 Gy.jpeg

2017-03-31T04:19:52Z

Cfolluo:

File:21 Gy.jpeg

2017-03-31T04:19:21Z

Cfolluo:

Daily Activity Log

2017-03-31T04:18:49Z

Cfolluo: /* March */

==2016==
===August===

====08/29/2016====
*Work data from [[Media:06.01.2016 Gel.pdf|06.01.2016 Blot]] (See Notebook 3 p36-39)
*Create presentation for Science Seminar 09/02/2016

===September===
====09/05/2016====
*Find articles
*Read
*Update Project Proposal

====09/19&26/2016====
*[[Media:9.28.2016_Data_Report_Sheet.pdf|EPR Data Report Sheet]] (See Notebook 3 p41-47)

===October===
====10/03/2016====
EPR of Citrine vs. Amethyst
*Iron signal produced
*No difference between the Single Crystal of Citrine vs. Single Crystal of Amethyst
*No difference between Powder Spectrum of Citrine vs. Powder Spectrum of Amethyst
*No difference between Single Crystal vs Powder Spectrum of each sample

====10/17/2016====
*[[Media:10.17.2016_p53_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebook 3 p53-54)
See this [[Media:Rru108.pdf|reference]]

====10/24/2016====
*[[Media:10.17.2016_p55_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebok 3 p 55-61)

===November===
====11/1&7/2016====
{| class="wikitable"
|-
! Tooth Number
! Tooth Type
! Mass of fragment (1) to be irradiated (g)
! Mass of fragment (2) to be irradiated (g)
! Mass of fragment (1) control (g)
! Mass of fragment (2) control (g)
|-
| 1
| Bicuspid
| 0.4316
| N/A
| 0.3525
| N/A
|-
| 2
| Bicuspid
| 0.3745
| N/A
| 0.1477
| N/A
|-
| 3
| Bicuspid
| 0.3782
| N/A
| 0.2573
| N/A
|-
| 4
| Bicuspid
| 0.4046
| N/A
| 0.2320
| N/A
|-
| 5
| Incisor
| 0.3891
| N/A
| 0.1518
| N/A
|-
| 6
| Incisor
| 0.4457
| N/A
| 0.4143
| N/A
|-
| 7
| Molar
| 0.4839
| 0.4655
| 0.3972
| N/A
|-
| 8
| Incisor
| 0.7098
| N/A
| 0.2400
| N/A
|-
| 9
| Bicuspid
| 0.2871
| N/A
| 0.2257
| N/A
|-
| 10
| Molar
| 0.6362
| 0.6592
| 0.4378
| N/A
|-
| 11
| N/A tooth fragmented by sawing
| N/A
| N/A
| N/A
| N/A
|-
| 12
| Molar
| 0.3872
| 0.4484
| 0.2458
| N/A
|-
| 13
| Cuspid
| 0.4336
| N/A
| 0.2483
| 0.2425
|-
| 14
| Cuspid
| 0.5039
| N/A
| 0.3336
| 0.1550
|}

====11/21/2016====
*[[Media:11.21.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p71-82)

====11/28/2016====
*[[Media:11.28.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p83-87)
*See calculations on p 88-89

==2017==
===January===
====01/22-23/2017====
*[[Media:01.24.2017_New_EPR_First_Solo_Runs.docs.pdf|New EPR Mn Standard and CaO:Mn]] (See Notebook 3 p95-97)

===February===
*Things did happen here, but no noteworthy data was collected. (Will update later.)

===March===
[[File:Trendline.jpeg|thumb|center|x300px]]
[[File:30 Gy.jpeg|thumb|center|x300px]]
[[File:27 Gy.jpeg|thumb|center|x300px]]
[[File:24 Gy.jpeg|thumb|center|x300px]]
[[File:21 Gy]]
[[File:18 Gy]]
[[File:15 Gy]]
[[File:12 Gy]]
[[File:09 Gy]]
[[File:06 Gy]]
[[File:03 Gy]]
[[File:00 Gy]]

File:24 Gy.jpeg

2017-03-31T04:17:40Z

Cfolluo:

Daily Activity Log

2017-03-31T04:17:27Z

Cfolluo: /* March */

==2016==
===August===

====08/29/2016====
*Work data from [[Media:06.01.2016 Gel.pdf|06.01.2016 Blot]] (See Notebook 3 p36-39)
*Create presentation for Science Seminar 09/02/2016

===September===
====09/05/2016====
*Find articles
*Read
*Update Project Proposal

====09/19&26/2016====
*[[Media:9.28.2016_Data_Report_Sheet.pdf|EPR Data Report Sheet]] (See Notebook 3 p41-47)

===October===
====10/03/2016====
EPR of Citrine vs. Amethyst
*Iron signal produced
*No difference between the Single Crystal of Citrine vs. Single Crystal of Amethyst
*No difference between Powder Spectrum of Citrine vs. Powder Spectrum of Amethyst
*No difference between Single Crystal vs Powder Spectrum of each sample

====10/17/2016====
*[[Media:10.17.2016_p53_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebook 3 p53-54)
See this [[Media:Rru108.pdf|reference]]

====10/24/2016====
*[[Media:10.17.2016_p55_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebok 3 p 55-61)

===November===
====11/1&7/2016====
{| class="wikitable"
|-
! Tooth Number
! Tooth Type
! Mass of fragment (1) to be irradiated (g)
! Mass of fragment (2) to be irradiated (g)
! Mass of fragment (1) control (g)
! Mass of fragment (2) control (g)
|-
| 1
| Bicuspid
| 0.4316
| N/A
| 0.3525
| N/A
|-
| 2
| Bicuspid
| 0.3745
| N/A
| 0.1477
| N/A
|-
| 3
| Bicuspid
| 0.3782
| N/A
| 0.2573
| N/A
|-
| 4
| Bicuspid
| 0.4046
| N/A
| 0.2320
| N/A
|-
| 5
| Incisor
| 0.3891
| N/A
| 0.1518
| N/A
|-
| 6
| Incisor
| 0.4457
| N/A
| 0.4143
| N/A
|-
| 7
| Molar
| 0.4839
| 0.4655
| 0.3972
| N/A
|-
| 8
| Incisor
| 0.7098
| N/A
| 0.2400
| N/A
|-
| 9
| Bicuspid
| 0.2871
| N/A
| 0.2257
| N/A
|-
| 10
| Molar
| 0.6362
| 0.6592
| 0.4378
| N/A
|-
| 11
| N/A tooth fragmented by sawing
| N/A
| N/A
| N/A
| N/A
|-
| 12
| Molar
| 0.3872
| 0.4484
| 0.2458
| N/A
|-
| 13
| Cuspid
| 0.4336
| N/A
| 0.2483
| 0.2425
|-
| 14
| Cuspid
| 0.5039
| N/A
| 0.3336
| 0.1550
|}

====11/21/2016====
*[[Media:11.21.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p71-82)

====11/28/2016====
*[[Media:11.28.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p83-87)
*See calculations on p 88-89

==2017==
===January===
====01/22-23/2017====
*[[Media:01.24.2017_New_EPR_First_Solo_Runs.docs.pdf|New EPR Mn Standard and CaO:Mn]] (See Notebook 3 p95-97)

===February===
*Things did happen here, but no noteworthy data was collected. (Will update later.)

===March===
[[File:Trendline.jpeg|thumb|center|x300px]]
[[File:30 Gy.jpeg|thumb|center|x300px]]
[[File:27 Gy.jpeg|thumb|center|x300px]]
[[File:24 Gy]]
[[File:21 Gy]]
[[File:18 Gy]]
[[File:15 Gy]]
[[File:12 Gy]]
[[File:09 Gy]]
[[File:06 Gy]]
[[File:03 Gy]]
[[File:00 Gy]]

Daily Activity Log

2017-03-31T04:15:36Z

Cfolluo: /* March */

==2016==
===August===

====08/29/2016====
*Work data from [[Media:06.01.2016 Gel.pdf|06.01.2016 Blot]] (See Notebook 3 p36-39)
*Create presentation for Science Seminar 09/02/2016

===September===
====09/05/2016====
*Find articles
*Read
*Update Project Proposal

====09/19&26/2016====
*[[Media:9.28.2016_Data_Report_Sheet.pdf|EPR Data Report Sheet]] (See Notebook 3 p41-47)

===October===
====10/03/2016====
EPR of Citrine vs. Amethyst
*Iron signal produced
*No difference between the Single Crystal of Citrine vs. Single Crystal of Amethyst
*No difference between Powder Spectrum of Citrine vs. Powder Spectrum of Amethyst
*No difference between Single Crystal vs Powder Spectrum of each sample

====10/17/2016====
*[[Media:10.17.2016_p53_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebook 3 p53-54)
See this [[Media:Rru108.pdf|reference]]

====10/24/2016====
*[[Media:10.17.2016_p55_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebok 3 p 55-61)

===November===
====11/1&7/2016====
{| class="wikitable"
|-
! Tooth Number
! Tooth Type
! Mass of fragment (1) to be irradiated (g)
! Mass of fragment (2) to be irradiated (g)
! Mass of fragment (1) control (g)
! Mass of fragment (2) control (g)
|-
| 1
| Bicuspid
| 0.4316
| N/A
| 0.3525
| N/A
|-
| 2
| Bicuspid
| 0.3745
| N/A
| 0.1477
| N/A
|-
| 3
| Bicuspid
| 0.3782
| N/A
| 0.2573
| N/A
|-
| 4
| Bicuspid
| 0.4046
| N/A
| 0.2320
| N/A
|-
| 5
| Incisor
| 0.3891
| N/A
| 0.1518
| N/A
|-
| 6
| Incisor
| 0.4457
| N/A
| 0.4143
| N/A
|-
| 7
| Molar
| 0.4839
| 0.4655
| 0.3972
| N/A
|-
| 8
| Incisor
| 0.7098
| N/A
| 0.2400
| N/A
|-
| 9
| Bicuspid
| 0.2871
| N/A
| 0.2257
| N/A
|-
| 10
| Molar
| 0.6362
| 0.6592
| 0.4378
| N/A
|-
| 11
| N/A tooth fragmented by sawing
| N/A
| N/A
| N/A
| N/A
|-
| 12
| Molar
| 0.3872
| 0.4484
| 0.2458
| N/A
|-
| 13
| Cuspid
| 0.4336
| N/A
| 0.2483
| 0.2425
|-
| 14
| Cuspid
| 0.5039
| N/A
| 0.3336
| 0.1550
|}

====11/21/2016====
*[[Media:11.21.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p71-82)

====11/28/2016====
*[[Media:11.28.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p83-87)
*See calculations on p 88-89

==2017==
===January===
====01/22-23/2017====
*[[Media:01.24.2017_New_EPR_First_Solo_Runs.docs.pdf|New EPR Mn Standard and CaO:Mn]] (See Notebook 3 p95-97)

===February===
*Things did happen here, but no noteworthy data was collected. (Will update later.)

===March===
[[File:Trendline.jpeg]]
[[File:30 Gy.jpeg]]
[[File:27 Gy.jpeg]]
[[File:24 Gy]]
[[File:21 Gy]]
[[File:18 Gy]]
[[File:15 Gy]]
[[File:12 Gy]]
[[File:09 Gy]]
[[File:06 Gy]]
[[File:03 Gy]]
[[File:00 Gy]]

File:27 Gy.jpeg

2017-03-31T04:14:21Z

Cfolluo: Cfolluo uploaded a new version of File:27 Gy.jpeg

File:27 Gy.jpeg

2017-03-31T04:14:19Z

Cfolluo:

File:Trendline.jpeg

2017-03-31T04:13:33Z

Cfolluo:

File:30 Gy.jpeg

2017-03-31T04:13:00Z

Cfolluo:

Daily Activity Log

2017-03-31T04:10:00Z

Cfolluo: /* 2017 */

==2016==
===August===

====08/29/2016====
*Work data from [[Media:06.01.2016 Gel.pdf|06.01.2016 Blot]] (See Notebook 3 p36-39)
*Create presentation for Science Seminar 09/02/2016

===September===
====09/05/2016====
*Find articles
*Read
*Update Project Proposal

====09/19&26/2016====
*[[Media:9.28.2016_Data_Report_Sheet.pdf|EPR Data Report Sheet]] (See Notebook 3 p41-47)

===October===
====10/03/2016====
EPR of Citrine vs. Amethyst
*Iron signal produced
*No difference between the Single Crystal of Citrine vs. Single Crystal of Amethyst
*No difference between Powder Spectrum of Citrine vs. Powder Spectrum of Amethyst
*No difference between Single Crystal vs Powder Spectrum of each sample

====10/17/2016====
*[[Media:10.17.2016_p53_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebook 3 p53-54)
See this [[Media:Rru108.pdf|reference]]

====10/24/2016====
*[[Media:10.17.2016_p55_Progress_Report.pdf|EPR Data Report Sheet]] (See Notebok 3 p 55-61)

===November===
====11/1&7/2016====
{| class="wikitable"
|-
! Tooth Number
! Tooth Type
! Mass of fragment (1) to be irradiated (g)
! Mass of fragment (2) to be irradiated (g)
! Mass of fragment (1) control (g)
! Mass of fragment (2) control (g)
|-
| 1
| Bicuspid
| 0.4316
| N/A
| 0.3525
| N/A
|-
| 2
| Bicuspid
| 0.3745
| N/A
| 0.1477
| N/A
|-
| 3
| Bicuspid
| 0.3782
| N/A
| 0.2573
| N/A
|-
| 4
| Bicuspid
| 0.4046
| N/A
| 0.2320
| N/A
|-
| 5
| Incisor
| 0.3891
| N/A
| 0.1518
| N/A
|-
| 6
| Incisor
| 0.4457
| N/A
| 0.4143
| N/A
|-
| 7
| Molar
| 0.4839
| 0.4655
| 0.3972
| N/A
|-
| 8
| Incisor
| 0.7098
| N/A
| 0.2400
| N/A
|-
| 9
| Bicuspid
| 0.2871
| N/A
| 0.2257
| N/A
|-
| 10
| Molar
| 0.6362
| 0.6592
| 0.4378
| N/A
|-
| 11
| N/A tooth fragmented by sawing
| N/A
| N/A
| N/A
| N/A
|-
| 12
| Molar
| 0.3872
| 0.4484
| 0.2458
| N/A
|-
| 13
| Cuspid
| 0.4336
| N/A
| 0.2483
| 0.2425
|-
| 14
| Cuspid
| 0.5039
| N/A
| 0.3336
| 0.1550
|}

====11/21/2016====
*[[Media:11.21.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p71-82)

====11/28/2016====
*[[Media:11.28.2016_Data.docx.pdf|EPR Data Report Sheet]] (See Notebook 3 p83-87)
*See calculations on p 88-89

==2017==
===January===
====01/22-23/2017====
*[[Media:01.24.2017_New_EPR_First_Solo_Runs.docs.pdf|New EPR Mn Standard and CaO:Mn]] (See Notebook 3 p95-97)

===February===
*Things did happen here, but no noteworthy data was collected. (Will update later.)

===March===
[[File:Trendline]]
[[File:30 Gy]]
[[File:27 Gy]]
[[File:24 Gy]]
[[File:21 Gy]]
[[File:18 Gy]]
[[File:15 Gy]]
[[File:12 Gy]]
[[File:09 Gy]]
[[File:06 Gy]]
[[File:03 Gy]]
[[File:00 Gy]]

File:03.30.2017 30 Gy Spectrum.jpg

2017-03-31T04:08:30Z

Cfolluo:

Carley Folluo Chem430 S17

2017-02-16T05:12:23Z

Cfolluo: /* References (2 minimum) */

Chemistry Research 430
:Spring 2017
:[[Carley Folluo]]
:Senior Chemistry Major

==Research Times==
Monday 2:30-4:00 PM
Tuesday 1:00-3:30 PM
: Overflow: Tuesday 3:30-5:00 PM, Thursday 12:00-2:00 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===EPR Analysis of Neutron Irradiated Teeth===

===General Information===
:Advisor: Brad Sturgeon
:Other research student collaborators: Amanda Hanks (Class of 2015)
:Other Research Collaborators: University of Chicago, Dr. Fasano

===Proposal===
The goal of this project is to develop a method to detect radicals formed by radiation in crystalline structures via EPR. In the event of a nuclear accident, radicals produced in teeth, fingernails, and jewelry can provide means to determine the exposure of a patient for triage. Samples will be irradiated a Nordion GammaCell Co-60 Irradiation Unit at 10 cGy/s. Whole human teeth have been obtained from a local dentist, and will be placed into the gamma source. After the teeth have been irradiated, the teeth will be analyzed via EPR at 410 G. The resultant signal will produce an amplitude which is linearly proportional to the dose administered.

===Instruments to be used===
:Electron Paramagnetic Resonance (EPR)
:Nordion GammaCell Co-60 Irradiation Unit

===References (2 minimum)===
http://www.dartmouth.edu/~eprctr/
:http://www.dartmouth.edu/~eprctr/research/tooth_dosimetry.shtml

[[Media:Quantitative_EPR_workshop_handout_-_2008.pdf|Barr, D., Sandra S. Eaton, & Gareth R. Eaton. (2008). Workshop on Quantitative EPR. Presented at the 31st Annual International EPR Symposium, Breckenridge, Colorado.]]

Randall, D. W., Sturgeon, B. E., Ball, J. A., Lorigan, G. A., Chan, M. K., Klein, M. P., … Britt, R. D. (1995). 55Mn ESE-ENDOR of a Mixed Valence Mn(III)Mn(IV) Complex: Comparison with the Mn Cluster of the Photosynthetic Oxygen-Evolving Complex. Journal of the American Chemical Society, 117(47), 11780–11789.

Sturgeon, B. E., Ball, J. A., Randall, D. W., & Britt, R. D. (1994). 55Mn Electron Spin Echo ENDOR of Mn2+ Complexes. The Journal of Physical Chemistry, 98(49), 12871–12883.

[https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2818093/ Wilcox, D. E., He, X., Gui, J., Ruuge, A. E., Li, H., Williams, B. B., & Swartz, H. M. (2010). Dosimetry Based on EPR Spectral Analysis of Fingernail Clippings. Health Physics, 98(2), 309. http://doi.org/10.1097/HP.0b013e3181b27502]

[[Media:Development_of_in_Vivo_Tooth_EPR.pdf|Williams, B. B., et al. (2010). Development of in vivo tooth EPR for individual radiation dose estimation and screening. Health Physics, 98(2), 327–338.]]

[[Media:Retrospective_Dosimetry_after_Criticality_Accidents.pdf|Zdravkova, M., et al. (2003). Retrospective Dosimetry after Criticality Accidents Using Low-Frequency EPR: A Study of Whole Human Teeth Irradiated in a Mixed Neutron and Gamma-Radiation Field. Radiation Research, 160(2), 168-173.]]

===Research pledge===
I, Carley Folluo, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

3,3'-Diethylthiacarbocyanine iodide CF

2017-02-09T23:25:40Z

Cfolluo:

[[File:02.09.2017_Folluo_Pchem_Dye.png]]
[[File:02.09.2017_Folluo_Pchem_Dye_Graph.jpg]]

File:02.09.2017 Folluo Pchem Dye Graph.jpg

2017-02-09T23:24:14Z

Cfolluo:

File:02.09.2017 Folluo Pchem Dye.png

2017-02-09T23:22:36Z

Cfolluo:

3,3'-Diethylthiacarbocyanine iodide CF

2017-02-09T23:21:29Z

Cfolluo: Created page with "File:02.09.2017_Folluo_Pchem_Dye File:02.09.2017_Folluo_Pchem_Dye_Graph"

[[File:02.09.2017_Folluo_Pchem_Dye]]
[[File:02.09.2017_Folluo_Pchem_Dye_Graph]]

Particle in a Box

2017-02-09T23:17:00Z

Cfolluo: /* Results */

'''Question: Can a simple function like y(x) = Sqrt[a/2]*Sin[Pi*x/a] describe an electron in a molecule?'''

'''Answer: yes.'''

===The Basic Model System===
1) Consider a box with no lid with infinitely high walls. This box represents the "molecular frame" for which the electron can exist.

2) When a particle/electron is placed inside this box, it has a particular "energy." Considering that "energy" is a ''measurable quantity'' in systems described by classical mechanics, Q.M. postulate 2 tells us that there exists a corresponding operator that can be used to predict the energy or as we say this ''observable''.

3) As with all "operator algebra" problems, there are 3 parts:
:- the operator
:- the (eigen)function
:- the eigenvalue = observable.

The operator in this case, like many, is the ''Hamiltonian'' operator, the eigenfunction is given above, and we need to solve for the eigenvalue or energy.

===Initial Tasks===
1) Convince yourself that the function provided above is an eigenfunction of the Hamiltonian operator.
:You ask, how do i do that?...just operate on the function with the Hamiltonian operator and if you return a "value" and the function, then the function is an eigenfunction for the Hamiltonian operator. You do need to know that the potential energy, V(x), inside of the box and it is equal to zero...so the Hamiltonian operator is a bit more simple in this model system. '''Please "do this" work in your lab notebook.

2) Notice that although this function is an eigenfunction of the Hamiltonian operator, there may be other solutions...any ideas?
:Please plot this function in Mathematica..
:Note: Boundary conditions y(0) = 0 and y(a) = 0
:See figure 4.2/4.3 Reproduce these in Mathematica
:why are these offset as they are?

3) Use the "Boltzmann" distribution to calculate the number of particles in the n=1 verses the n=2 state...essentially reproduce graph in example problem 2.1.

===The Chemical System===
Pi electrons in conjugated molecules can be treated as "particles in a box." See section 5.3.
:1,4-diphenyl-1,3-butadiene (4 pi-electrons)
:1,6-diphenyl-1,3,5-hexatriene (6 pi-electrons)
:1,8-diphenyl-1,3,5,7-octatetraene (8 pi-electrons)

1) What is an estimate of the "box length" (ie molecular frame).

2) What is the DeltaE between the HOMO and LUMO

3) Use the "Boltzmann" distribution to calculate the number of particles in the n(HOMO) verses the n(LUMO) state...essentially reproduce graph in example problem 2.1.

===Data Collection===
1) collect UV-Vis data for a conjugated dye.

2) record structure in lab notebook.

3) can you predict the box length based on lambda max?

===Results===
[[Pinacyanol_chloride|Pinacyanol chloride]]

[[Cryptocyanine|Cryptocyanine]]

[[3,3′Diethylthiacarbocyanine iodide|3,3′Diethylthiacarbocyanine iodide]]

[[3,3'-Diethylthiacarbocyanine iodide|3,3'-Diethylthiacarbocyanine iodide]]

[[3,3'-Diethylthiacarbocyanine iodide]]

[[3,3'-Diethylthiacarbocyanine iodide CF|3,3'-Diethylthiacarbocyanine iodide CF]]

Particle in a Box

2017-02-09T23:14:26Z

Cfolluo: /* Results */

IPhone Night Shift

2017-01-26T23:55:17Z

Cfolluo:

[[Light_lab_Pchem|Return to Light lab]]

In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer. The following experiment compares the resultant emission spectra from each lighting mode to magnified photos of the pixels on the screen. The screen resolution for the iPhone 6 used in this experiment is 326 ppi.

[[File:iPhone Night Shift UV-Vis Spectra2.jpg|thumb|600px|frame|center|'''Figure 1.''' A blank white screen was shown at full brightness intensity on an iPhone 6 equipped with iOS 10.2.1. The wavelengths of light emitted by the screen were recorded with an Ocean Optics Red Tide USB650 UV Spectrometer. The emission spectrum was recorded with and without Night Shift mode enabled.]]

[[File:iPhone Night Shift photo comparison.jpg|thumb|600px|frame|center|'''Figure 2.''' Magnified photos of a blank white screen at full brightness intensity on an iPhone 6 were taken with a Bodelin PS-HR-BASE ProScope. The left image depicts the iPhone with Night Shift mode enabled; the right image depicts the iPhone with Night Shift disabled.]]

File:IPhone Night Shift photo comparison.jpg

2017-01-26T23:50:40Z

Cfolluo:

IPhone Night Shift

2017-01-26T23:50:22Z

Cfolluo:

[[Light_lab_Pchem|Return to Light lab]]

In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer.

[[File:iPhone Night Shift UV-Vis Spectra2.jpg|thumb|600px|frame|center|'''Figure 1.''' A blank white screen was shown at full brightness intensity on an iPhone 6 equipped with iOS 10.2.1. The wavelengths of light emitted by the screen were recorded with an Ocean Optics Red Tide USB650 UV Spectrometer. The emission spectrum was recorded with and without Night Shift mode enabled.]]

[[File:iPhone Night Shift photo comparison.jpg|thumb|600px|frame|center|'''Figure 2.''' Magnified photos of a blank white screen at full brightness intensity on an iPhone 6 were taken with a Bodelin PS-HR-BASE ProScope. The left image depicts the iPhone with Night Shift mode enabled; the right image depicts the iPhone with Night Shift disabled.]]

IPhone Night Shift

2017-01-26T22:59:33Z

Cfolluo:

In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer.

[[File:iPhone Night Shift UV-Vis Spectra2.jpg|thumb|600px|frame|center|'''Figure 1.''' A blank white screen was shown at full intensity on an iPhone 6 equipped with iOS 10.2.1. The wavelengths of light emitted by the screen were recorded with an Ocean Optics Red Tide USB650 UV Spectrometer. The emission spectrum was recorded with and without Night Shift mode enabled.]]

IPhone Night Shift

2017-01-26T22:57:09Z

Cfolluo:

In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer.

[[File:iPhone Night Shift UV-Vis Spectra2.jpg|600px]]
'''Figure 1.''' A blank white screen was shown at full intensity on an iPhone 6 equipped with iOS 10.2.1. The wavelengths of light emitted by the screen were recorded with an Ocean Optics Red Tide USB650 UV Spectrometer. The emission spectrum was recorded with and without Night Shift mode enabled.

File:IPhone Night Shift UV-Vis Spectra2.jpg

2017-01-26T22:56:37Z

Cfolluo:

IPhone Night Shift

2017-01-26T22:56:23Z

Cfolluo:

In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer.

[[File:iPhone Night Shift UV-Vis Spectra2.jpg]]
'''Figure 1.''' A blank white screen was shown at full intensity on an iPhone 6 equipped with iOS 10.2.1. The wavelengths of light emitted by the screen were recorded with an Ocean Optics Red Tide USB650 UV Spectrometer. The emission spectrum was recorded with and without Night Shift mode enabled.

File:IPhone Night Shift UV-Vis Spectra.jpg

2017-01-26T22:49:29Z

Cfolluo:

IPhone Night Shift

2017-01-26T22:48:37Z

Cfolluo:

In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer.

[[File:iPhone Night Shift UV-Vis Spectra.jpg]]
'''Figure 1.''' A blank white screen was shown at full intensity on an iPhone 6 equipped with iOS 10.2.1. The wavelengths of light emitted by the screen were recorded with an Ocean Optics Red Tide USB650 UV Spectrometer. The emission spectrum was recorded with and without Night Shift mode enabled.

IPhone Night Shift

2017-01-26T22:47:54Z

Cfolluo:

In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer.

'''Figure 1.'''A blank white screen was shown at full intensity on an iPhone 6 equipped with iOS 10.2.1. The wavelengths of light emitted by the screen were recorded with an Ocean Optics Red Tide USB650 UV Spectrometer. The emission spectrum was recorded with and without Night Shift mode enabled.

IPhone Night Shift

2017-01-26T22:40:28Z

Cfolluo: Created page with "===iPhone Night Shift=== In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues..."

===iPhone Night Shift===
In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer.

An iPhone 6 Ocean Optics Red Tide USB650 UV

Light lab Pchem

2017-01-26T22:39:42Z

Cfolluo:

Welcome to the Light lab.

In the introductory chapter we were exposed to a series of experiments that were not appropriately described by the current theory, ie. classical mechanics. These experiments lead to the development of quantum mechanics. Many of these experiments involved "light." In this lab activity we will explore light at a deeper level.

==Examples==
===iPhone Night Shift===
In iOS 9.3, Apple introduced iPhone users to a feature known as "Night Shift." Night Shift alters the cool light of the iPhone to contain warmer hues, believing that the blue light prevents users from sleeping well at night. This feature can be analyzed by a Fiber Optic UV-Vis Spectrometer.

An iPhone 6 Ocean Optics Red Tide USB650 UV

File:01.24.2017 New EPR First Solo Runs.docs.pdf

2017-01-26T19:25:20Z

Cfolluo:

Daily Activity Log

2017-01-26T19:24:51Z

Cfolluo:

Carley Folluo Chem430 S17

2017-01-22T06:32:24Z

Cfolluo: /* Research Times */

Chemistry Research 430
:Spring 2017
:[[Carley Folluo]]
:Senior Chemistry Major

==Research Times==
Monday 2:30-4:00 PM
Tuesday 1:00-3:30 PM
: Overflow: Tuesday 3:30-5:00 PM, Thursday 12:00-2:00 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===EPR Analysis of Neutron Irradiated Teeth===

===General Information===
:Advisor: Brad Sturgeon
:Other research student collaborators: Amanda Hanks (Class of 2015)
:Other Research Collaborators: University of Chicago, Dr. Fasano

===Proposal===
The goal of this project is to develop a method to detect radicals formed by radiation in crystalline structures via EPR. In the event of a nuclear accident, radicals produced in teeth, fingernails, and jewelry can provide means to determine the exposure of a patient for triage. Samples will be irradiated a Nordion GammaCell Co-60 Irradiation Unit at 10 cGy/s. Whole human teeth have been obtained from a local dentist, and will be placed into the gamma source. After the teeth have been irradiated, the teeth will be analyzed via EPR at 410 G. The resultant signal will produce an amplitude which is linearly proportional to the dose administered.

===Instruments to be used===
:Electron Paramagnetic Resonance (EPR)
:Nordion GammaCell Co-60 Irradiation Unit

===References (2 minimum)===
http://www.dartmouth.edu/~eprctr/
:http://www.dartmouth.edu/~eprctr/research/tooth_dosimetry.shtml

[[Media:Quantitative_EPR_workshop_handout_-_2008.pdf|Barr, D., Sandra S. Eaton, & Gareth R. Eaton. (2008). Workshop on Quantitative EPR. Presented at the 31st Annual International EPR Symposium, Breckenridge, Colorado.]]

Randall, D. W., Sturgeon, B. E., Ball, J. A., Lorigan, G. A., Chan, M. K., Klein, M. P., … Britt, R. D. (1995). 55Mn ESE-ENDOR of a Mixed Valence Mn(III)Mn(IV) Complex: Comparison with the Mn Cluster of the Photosynthetic Oxygen-Evolving Complex. Journal of the American Chemical Society, 117(47), 11780–11789.

Sturgeon, B. E., Ball, J. A., Randall, D. W., & Britt, R. D. (1994). 55Mn Electron Spin Echo ENDOR of Mn2+ Complexes. The Journal of Physical Chemistry, 98(49), 12871–12883.

[[Media:Development_of_in_Vivo_Tooth_EPR.pdf|Williams, B. B., et al. (2010). Development of in vivo tooth EPR for individual radiation dose estimation and screening. Health Physics, 98(2), 327–338.]]

[[Media:Retrospective_Dosimetry_after_Criticality_Accidents.pdf|Zdravkova, M., et al. (2003). Retrospective Dosimetry after Criticality Accidents Using Low-Frequency EPR: A Study of Whole Human Teeth Irradiated in a Mixed Neutron and Gamma-Radiation Field. Radiation Research, 160(2), 168-173.]]

===Research pledge===
I, Carley Folluo, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Carley Folluo

2017-01-22T06:26:25Z

Cfolluo: /* Current Research Information */

==Personal Information==
Senior Chemistry Major, Minors in Physics and History

Hometown: Hamilton, IL

Contact Info: 319-795-6977

==Current Research Information==

[[Carley Folluo Chem430 F16|2016FA Project Description]]

[[Carley Folluo Chem430 S17|2017SP Project Description]]

[[Daily Activity Log]]

==Undergraduate Research Activities==

Summer 2013: Summer Offortunity for Intellectual Activity with Dr. Logan Mayfield (Decipherment)
*Performed author analysis by letter frequencies
*Analyzed data and created figures on Mathematica software
*Collaborated with Jane Austen project to analyze an individual author's various texts

Summer 2014: Doc Kieft Summer Research with Dr. Brad Sturgeon ([[Folluo_Research_α-Crystallin|The Role of Xanthurenic Acid in the Polymerization of α-Crystallin Lens Protein]])
*Performed gel electrophoresis on porcine lens proteins and bovine α-crystallin lens protein
*Communicated with chemists conducting similar research
*Presented research progress and results to group of peers and superiors via oral presentation

Fall 2014-Spring 2015: CHEM 430 with Dr. Brad Sturgeon (Continuation of Doc Kieft Summer Research Project)

Summer 2015: Summer Opportunity for Intellectual Activity with J. Jordan VanDyke (Percussion Rudiment Development through Piezoelectric Analysis)
*Co-developed, directed, and presented original physics/music collaboration project
*Served as a student mentor for incoming freshmen in the three week program
*Organized evening activities to promote a healthy transition to college life

Fall 2015-Spring 2016: CHEM 430 with Dr. Brad Sturgeon ([[Folluo_Research_ESR|Teaching Electron Spin Resonance to Undergraduates]])

==Presentations==
Aug 2013: '''SOfIA Presentation'''

Title: ''Decipherment''

June 2014: '''Kieft Summer Research Presentations'''

Title: ''The Role of Xanthurenic Acid in the Polymerization of α-Crystallin Lens Protein''

March 2015: '''257th National ACS Meeting''' Denver, CO

Poster Title: ''Oxidation of α-Crystallin in the Presence of Xanthurenic Acid Radical''

Aug 2015: '''SOfIA Presentation'''

Title: ''Percussion Rudiment Development through Piezoelectric Analysis''

==Activities==

'''Teaching Assistant'''
*Promote proper laboratory technique to ensure safety and enhance skill development
*Assist students with data acquisition, calculations, and presentation methods
*Maintain a clean laboratory environment ot ensure reactions be carried out safely and smoothly

'''Musical Ensembles'''
*Monmouth College Drumline Member, 2013-Current; Tenor Section Leader 2015
*Wind Ensemble Percussionist, Spring 2015-Current
*Percussion Ensemble Member, Spring 2014-Current

'''Pi Beta Phi Women's Fraternity'''
*Panhellenic Council President, 2016 Calendar Year
*Policy and Standards Board Chairman, 2015 Calendar Year
*Policy and Standards Board General Member, 2014 Calendar Year

Carley Folluo Chem430 S17

2017-01-22T06:23:20Z

Cfolluo: /* Instruments to be used */

Chemistry Research 430
:Spring 2017
:[[Carley Folluo]]
:Senior Chemistry Major

==Research Times==
Monday 2:30-5:00 PM
Tuesday 2:00-3:30 PM
: Overflow: Tuesday 3:30-5:00 PM, Thursday 12:00-2:00 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===EPR Analysis of Neutron Irradiated Teeth===

===General Information===
:Advisor: Brad Sturgeon
:Other research student collaborators: Amanda Hanks (Class of 2015)
:Other Research Collaborators: University of Chicago, Dr. Fasano

===Proposal===
The goal of this project is to develop a method to detect radicals formed by radiation in crystalline structures via EPR. In the event of a nuclear accident, radicals produced in teeth, fingernails, and jewelry can provide means to determine the exposure of a patient for triage. Samples will be irradiated a Nordion GammaCell Co-60 Irradiation Unit at 10 cGy/s. Whole human teeth have been obtained from a local dentist, and will be placed into the gamma source. After the teeth have been irradiated, the teeth will be analyzed via EPR at 410 G. The resultant signal will produce an amplitude which is linearly proportional to the dose administered.

===Instruments to be used===
:Electron Paramagnetic Resonance (EPR)
:Nordion GammaCell Co-60 Irradiation Unit

===References (2 minimum)===
http://www.dartmouth.edu/~eprctr/
:http://www.dartmouth.edu/~eprctr/research/tooth_dosimetry.shtml

[[Media:Quantitative_EPR_workshop_handout_-_2008.pdf|Barr, D., Sandra S. Eaton, & Gareth R. Eaton. (2008). Workshop on Quantitative EPR. Presented at the 31st Annual International EPR Symposium, Breckenridge, Colorado.]]

Randall, D. W., Sturgeon, B. E., Ball, J. A., Lorigan, G. A., Chan, M. K., Klein, M. P., … Britt, R. D. (1995). 55Mn ESE-ENDOR of a Mixed Valence Mn(III)Mn(IV) Complex: Comparison with the Mn Cluster of the Photosynthetic Oxygen-Evolving Complex. Journal of the American Chemical Society, 117(47), 11780–11789.

Sturgeon, B. E., Ball, J. A., Randall, D. W., & Britt, R. D. (1994). 55Mn Electron Spin Echo ENDOR of Mn2+ Complexes. The Journal of Physical Chemistry, 98(49), 12871–12883.

[[Media:Development_of_in_Vivo_Tooth_EPR.pdf|Williams, B. B., et al. (2010). Development of in vivo tooth EPR for individual radiation dose estimation and screening. Health Physics, 98(2), 327–338.]]

[[Media:Retrospective_Dosimetry_after_Criticality_Accidents.pdf|Zdravkova, M., et al. (2003). Retrospective Dosimetry after Criticality Accidents Using Low-Frequency EPR: A Study of Whole Human Teeth Irradiated in a Mixed Neutron and Gamma-Radiation Field. Radiation Research, 160(2), 168-173.]]

===Research pledge===
I, Carley Folluo, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Carley Folluo Chem430 S17

2017-01-22T06:22:50Z

Cfolluo: /* Proposal */

Chemistry Research 430
:Spring 2017
:[[Carley Folluo]]
:Senior Chemistry Major

==Research Times==
Monday 2:30-5:00 PM
Tuesday 2:00-3:30 PM
: Overflow: Tuesday 3:30-5:00 PM, Thursday 12:00-2:00 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===EPR Analysis of Neutron Irradiated Teeth===

===General Information===
:Advisor: Brad Sturgeon
:Other research student collaborators: Amanda Hanks (Class of 2015)
:Other Research Collaborators: University of Chicago, Dr. Fasano

===Proposal===
The goal of this project is to develop a method to detect radicals formed by radiation in crystalline structures via EPR. In the event of a nuclear accident, radicals produced in teeth, fingernails, and jewelry can provide means to determine the exposure of a patient for triage. Samples will be irradiated a Nordion GammaCell Co-60 Irradiation Unit at 10 cGy/s. Whole human teeth have been obtained from a local dentist, and will be placed into the gamma source. After the teeth have been irradiated, the teeth will be analyzed via EPR at 410 G. The resultant signal will produce an amplitude which is linearly proportional to the dose administered.

===Instruments to be used===
:Electron Paramagnetic Resonance (EPR)
:Neutron Generator
:High Purity Germanium (HPGe) Detector

===References (2 minimum)===
http://www.dartmouth.edu/~eprctr/
:http://www.dartmouth.edu/~eprctr/research/tooth_dosimetry.shtml

[[Media:Quantitative_EPR_workshop_handout_-_2008.pdf|Barr, D., Sandra S. Eaton, & Gareth R. Eaton. (2008). Workshop on Quantitative EPR. Presented at the 31st Annual International EPR Symposium, Breckenridge, Colorado.]]

Randall, D. W., Sturgeon, B. E., Ball, J. A., Lorigan, G. A., Chan, M. K., Klein, M. P., … Britt, R. D. (1995). 55Mn ESE-ENDOR of a Mixed Valence Mn(III)Mn(IV) Complex: Comparison with the Mn Cluster of the Photosynthetic Oxygen-Evolving Complex. Journal of the American Chemical Society, 117(47), 11780–11789.

Sturgeon, B. E., Ball, J. A., Randall, D. W., & Britt, R. D. (1994). 55Mn Electron Spin Echo ENDOR of Mn2+ Complexes. The Journal of Physical Chemistry, 98(49), 12871–12883.

[[Media:Development_of_in_Vivo_Tooth_EPR.pdf|Williams, B. B., et al. (2010). Development of in vivo tooth EPR for individual radiation dose estimation and screening. Health Physics, 98(2), 327–338.]]

[[Media:Retrospective_Dosimetry_after_Criticality_Accidents.pdf|Zdravkova, M., et al. (2003). Retrospective Dosimetry after Criticality Accidents Using Low-Frequency EPR: A Study of Whole Human Teeth Irradiated in a Mixed Neutron and Gamma-Radiation Field. Radiation Research, 160(2), 168-173.]]

===Research pledge===
I, Carley Folluo, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Carley Folluo Chem430 S17

2017-01-22T06:06:25Z

Cfolluo: /* General Information */

Chemistry Research 430
:Spring 2017
:[[Carley Folluo]]
:Senior Chemistry Major

==Research Times==
Monday 2:30-5:00 PM
Tuesday 2:00-3:30 PM
: Overflow: Tuesday 3:30-5:00 PM, Thursday 12:00-2:00 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===EPR Analysis of Neutron Irradiated Teeth===

===General Information===
:Advisor: Brad Sturgeon
:Other research student collaborators: Amanda Hanks (Class of 2015)
:Other Research Collaborators: University of Chicago, Dr. Fasano

===Proposal===
The goal of this project is to develop a method to detect radicals in the crystal structure of teeth created by neutron radiation. Whole human teeth have been obtained from a local dentist, and will be placed in the beam of the neutron generator. After the teeth have been irradiated, counts will be taken with a high purity germanium detector in order to determine the activity of the sample. After the radionuclides have decayed, the teeth will be ground for analysis by electron paramagnetic resonance.

===Instruments to be used===
:Electron Paramagnetic Resonance (EPR)
:Neutron Generator
:High Purity Germanium (HPGe) Detector

===References (2 minimum)===
http://www.dartmouth.edu/~eprctr/
:http://www.dartmouth.edu/~eprctr/research/tooth_dosimetry.shtml

[[Media:Quantitative_EPR_workshop_handout_-_2008.pdf|Barr, D., Sandra S. Eaton, & Gareth R. Eaton. (2008). Workshop on Quantitative EPR. Presented at the 31st Annual International EPR Symposium, Breckenridge, Colorado.]]

Randall, D. W., Sturgeon, B. E., Ball, J. A., Lorigan, G. A., Chan, M. K., Klein, M. P., … Britt, R. D. (1995). 55Mn ESE-ENDOR of a Mixed Valence Mn(III)Mn(IV) Complex: Comparison with the Mn Cluster of the Photosynthetic Oxygen-Evolving Complex. Journal of the American Chemical Society, 117(47), 11780–11789.

Sturgeon, B. E., Ball, J. A., Randall, D. W., & Britt, R. D. (1994). 55Mn Electron Spin Echo ENDOR of Mn2+ Complexes. The Journal of Physical Chemistry, 98(49), 12871–12883.

[[Media:Development_of_in_Vivo_Tooth_EPR.pdf|Williams, B. B., et al. (2010). Development of in vivo tooth EPR for individual radiation dose estimation and screening. Health Physics, 98(2), 327–338.]]

[[Media:Retrospective_Dosimetry_after_Criticality_Accidents.pdf|Zdravkova, M., et al. (2003). Retrospective Dosimetry after Criticality Accidents Using Low-Frequency EPR: A Study of Whole Human Teeth Irradiated in a Mixed Neutron and Gamma-Radiation Field. Radiation Research, 160(2), 168-173.]]

===Research pledge===
I, Carley Folluo, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Carley Folluo Chem430 S17

2017-01-22T06:05:59Z

Cfolluo: /* Research Times */

Chemistry Research 430
:Spring 2017
:[[Carley Folluo]]
:Senior Chemistry Major

==Research Times==
Monday 2:30-5:00 PM
Tuesday 2:00-3:30 PM
: Overflow: Tuesday 3:30-5:00 PM, Thursday 12:00-2:00 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===EPR Analysis of Neutron Irradiated Teeth===

===General Information===
:Advisor: Brad Sturgeon
:Other research student collaborators: Amanda Hanks (Class of 2015)
:Other Research Collaborators: Dr. Fasano

===Proposal===
The goal of this project is to develop a method to detect radicals in the crystal structure of teeth created by neutron radiation. Whole human teeth have been obtained from a local dentist, and will be placed in the beam of the neutron generator. After the teeth have been irradiated, counts will be taken with a high purity germanium detector in order to determine the activity of the sample. After the radionuclides have decayed, the teeth will be ground for analysis by electron paramagnetic resonance.

===Instruments to be used===
:Electron Paramagnetic Resonance (EPR)
:Neutron Generator
:High Purity Germanium (HPGe) Detector

===References (2 minimum)===
http://www.dartmouth.edu/~eprctr/
:http://www.dartmouth.edu/~eprctr/research/tooth_dosimetry.shtml

[[Media:Quantitative_EPR_workshop_handout_-_2008.pdf|Barr, D., Sandra S. Eaton, & Gareth R. Eaton. (2008). Workshop on Quantitative EPR. Presented at the 31st Annual International EPR Symposium, Breckenridge, Colorado.]]

Randall, D. W., Sturgeon, B. E., Ball, J. A., Lorigan, G. A., Chan, M. K., Klein, M. P., … Britt, R. D. (1995). 55Mn ESE-ENDOR of a Mixed Valence Mn(III)Mn(IV) Complex: Comparison with the Mn Cluster of the Photosynthetic Oxygen-Evolving Complex. Journal of the American Chemical Society, 117(47), 11780–11789.

Sturgeon, B. E., Ball, J. A., Randall, D. W., & Britt, R. D. (1994). 55Mn Electron Spin Echo ENDOR of Mn2+ Complexes. The Journal of Physical Chemistry, 98(49), 12871–12883.

[[Media:Development_of_in_Vivo_Tooth_EPR.pdf|Williams, B. B., et al. (2010). Development of in vivo tooth EPR for individual radiation dose estimation and screening. Health Physics, 98(2), 327–338.]]

[[Media:Retrospective_Dosimetry_after_Criticality_Accidents.pdf|Zdravkova, M., et al. (2003). Retrospective Dosimetry after Criticality Accidents Using Low-Frequency EPR: A Study of Whole Human Teeth Irradiated in a Mixed Neutron and Gamma-Radiation Field. Radiation Research, 160(2), 168-173.]]

===Research pledge===
I, Carley Folluo, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Carley Folluo Chem430 S17

2017-01-22T06:04:30Z

Cfolluo:

Chemistry Research 430
:Spring 2017
:[[Carley Folluo]]
:Senior Chemistry Major

==Research Times==
Monday 2:30-5:00 PM
: Overflow: Tues 3-5 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===EPR Analysis of Neutron Irradiated Teeth===

===General Information===
:Advisor: Brad Sturgeon
:Other research student collaborators: Amanda Hanks (Class of 2015)
:Other Research Collaborators: Dr. Fasano

===Proposal===
The goal of this project is to develop a method to detect radicals in the crystal structure of teeth created by neutron radiation. Whole human teeth have been obtained from a local dentist, and will be placed in the beam of the neutron generator. After the teeth have been irradiated, counts will be taken with a high purity germanium detector in order to determine the activity of the sample. After the radionuclides have decayed, the teeth will be ground for analysis by electron paramagnetic resonance.

===Instruments to be used===
:Electron Paramagnetic Resonance (EPR)
:Neutron Generator
:High Purity Germanium (HPGe) Detector

===References (2 minimum)===
http://www.dartmouth.edu/~eprctr/
:http://www.dartmouth.edu/~eprctr/research/tooth_dosimetry.shtml

[[Media:Quantitative_EPR_workshop_handout_-_2008.pdf|Barr, D., Sandra S. Eaton, & Gareth R. Eaton. (2008). Workshop on Quantitative EPR. Presented at the 31st Annual International EPR Symposium, Breckenridge, Colorado.]]

Randall, D. W., Sturgeon, B. E., Ball, J. A., Lorigan, G. A., Chan, M. K., Klein, M. P., … Britt, R. D. (1995). 55Mn ESE-ENDOR of a Mixed Valence Mn(III)Mn(IV) Complex: Comparison with the Mn Cluster of the Photosynthetic Oxygen-Evolving Complex. Journal of the American Chemical Society, 117(47), 11780–11789.

Sturgeon, B. E., Ball, J. A., Randall, D. W., & Britt, R. D. (1994). 55Mn Electron Spin Echo ENDOR of Mn2+ Complexes. The Journal of Physical Chemistry, 98(49), 12871–12883.

[[Media:Development_of_in_Vivo_Tooth_EPR.pdf|Williams, B. B., et al. (2010). Development of in vivo tooth EPR for individual radiation dose estimation and screening. Health Physics, 98(2), 327–338.]]

[[Media:Retrospective_Dosimetry_after_Criticality_Accidents.pdf|Zdravkova, M., et al. (2003). Retrospective Dosimetry after Criticality Accidents Using Low-Frequency EPR: A Study of Whole Human Teeth Irradiated in a Mixed Neutron and Gamma-Radiation Field. Radiation Research, 160(2), 168-173.]]

===Research pledge===
I, Carley Folluo, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

Carley Folluo Chem430 S17

2017-01-22T06:03:06Z

Cfolluo: Created page with "Chemistry Research 430 :Fall 2016 :Carley Folluo :Senior Chemistry Major ==Research Times== Monday 1-5 PM : Overflow: Tues/Wed 3-5 PM : CHEM 430-01 = 0.25 credit = 4 hour..."

Chemistry Research 430
:Fall 2016
:[[Carley Folluo]]
:Senior Chemistry Major

==Research Times==
Monday 1-5 PM
: Overflow: Tues/Wed 3-5 PM
: CHEM 430-01 = 0.25 credit = 4 hours per week.

==Proposed Research Project==
===EPR Analysis of Neutron Irradiated Teeth===

===General Information===
:Advisor: Brad Sturgeon
:Other research student collaborators: Amanda Hanks (Class of 2015)
:Other Research Collaborators: Dr. Fasano

===Proposal===
The goal of this project is to develop a method to detect radicals in the crystal structure of teeth created by neutron radiation. Whole human teeth have been obtained from a local dentist, and will be placed in the beam of the neutron generator. After the teeth have been irradiated, counts will be taken with a high purity germanium detector in order to determine the activity of the sample. After the radionuclides have decayed, the teeth will be ground for analysis by electron paramagnetic resonance.

===Instruments to be used===
:Electron Paramagnetic Resonance (EPR)
:Neutron Generator
:High Purity Germanium (HPGe) Detector

===References (2 minimum)===
http://www.dartmouth.edu/~eprctr/
:http://www.dartmouth.edu/~eprctr/research/tooth_dosimetry.shtml

[[Media:Quantitative_EPR_workshop_handout_-_2008.pdf|Barr, D., Sandra S. Eaton, & Gareth R. Eaton. (2008). Workshop on Quantitative EPR. Presented at the 31st Annual International EPR Symposium, Breckenridge, Colorado.]]

Randall, D. W., Sturgeon, B. E., Ball, J. A., Lorigan, G. A., Chan, M. K., Klein, M. P., … Britt, R. D. (1995). 55Mn ESE-ENDOR of a Mixed Valence Mn(III)Mn(IV) Complex: Comparison with the Mn Cluster of the Photosynthetic Oxygen-Evolving Complex. Journal of the American Chemical Society, 117(47), 11780–11789.

Sturgeon, B. E., Ball, J. A., Randall, D. W., & Britt, R. D. (1994). 55Mn Electron Spin Echo ENDOR of Mn2+ Complexes. The Journal of Physical Chemistry, 98(49), 12871–12883.

[[Media:Development_of_in_Vivo_Tooth_EPR.pdf|Williams, B. B., et al. (2010). Development of in vivo tooth EPR for individual radiation dose estimation and screening. Health Physics, 98(2), 327–338.]]

[[Media:Retrospective_Dosimetry_after_Criticality_Accidents.pdf|Zdravkova, M., et al. (2003). Retrospective Dosimetry after Criticality Accidents Using Low-Frequency EPR: A Study of Whole Human Teeth Irradiated in a Mixed Neutron and Gamma-Radiation Field. Radiation Research, 160(2), 168-173.]]

===Research pledge===
I, Carley Folluo, have read the Chem/Bioc 430 course syllabus and understand the general structure and expectations of the research program. The above material was prepared after consultation, and in conjunction with my research advisor.

File:11.28.2016 Data.docx.pdf

2016-11-28T22:30:03Z

Cfolluo: