What is CAGE Code 5L9H6?

5L9H6 is the unique identifier used by NATO Organizations to reference the physical entity known as Innovaprep Llc located at 132 E Main St, Drexel MO 64742-8329, United States.

Who is CAGE Code 5L9H6?

5L9H6 refers to Innovaprep Llc located at 132 E Main St, Drexel MO 64742-8329, United States.

Where is CAGE Code 5L9H6 Located?

CAGE Code 5L9H6 is located in Drexel, MO, USA.

How Many NSNs Does CAGE Code 5L9H6 Supply?

CAGE Code 5L9H6 has been assigned as an approved source for 3 NSNs (National Stock Numbers and NATO Stock Numbers).

Innovaprep Llc

CAGE Code: 5L9H6

NCAGE Code: 5L9H6

Status: Active

Type: Manufacturer

Dun & Bradstreet (DUNS): 830979048

Summary

Innovaprep Llc is an Active Manufacturer with the Cage Code 5L9H6 and is tracked by Dun & Bradstreet under DUNS Number 830979048..

Address

132 E Main St
Drexel MO 64742-8329
United States

Points of Contact

No Points of Contact...

Related Information

DUNS Report

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Frequently Asked Questions (FAQ) for CAGE 5L9H6

What is CAGE Code 5L9H6?: 5L9H6 is the unique identifier used by NATO Organizations to reference the physical entity known as Innovaprep Llc located at 132 E Main St, Drexel MO 64742-8329, United States.
Who is CAGE Code 5L9H6?: 5L9H6 refers to Innovaprep Llc located at 132 E Main St, Drexel MO 64742-8329, United States.
Where is CAGE Code 5L9H6 Located?: CAGE Code 5L9H6 is located in Drexel, MO, USA.
How Many NSNs Does CAGE Code 5L9H6 Supply?: CAGE Code 5L9H6 has been assigned as an approved source for 3 NSNs (National Stock Numbers and NATO Stock Numbers).

Contracting History for CAGE 5L9H6 Most Recent 25 Records

75D30123P16272
Ultrafiltration Hfcpt - Unirradiated
14 Sep 2023: Cdc Office Of Acquisition Services; Department Of Health And Human Services (Hhs); $20,688.90
75D30121P12714
Innovaprep Select Concentraiting Pipette
21 Sep 2021: Cdc Office Of Acquisition Services; Department Of Health And Human Services (Hhs); $32,711.77
NNX16CP10C
Igf::Ot::Igf Providing A Reliable Supply Of Safe Drinking Water Is A Critical Requirement For Space Exploration. Systems That Provide Recycled Treated Water Aboard The International Space Station, And That Will Supply Water Aboard Future Spacecraft, Are Inherently Complex And Can Be Susceptible To Biofilm Formation And Microbial Contamination. Further, It Has Been Noted That Pathogenicity And Virulence Of Microbes Can Increase In Microgravity Environments. These Factors, Along With The High Consequence Of Sickness In The Remote Space Environment, Make Rapid, Reliable Methods Of Detecting Microbes At Low Levels A Critical Need. Rapid Microbiological Detection Systems Have Taken Dramatic Steps Forward In The Last Two Decades And Today Detection Of Even A Single Organism Is Possible In Less Than One Hour. Unfortunately, Development Of Rapid Detection Methods Has Far Outpaced Development Of Sample Concentration And Preparation Techniques, Which Are Necessary To Enable Detection Of Low Microbial Concentrations In Drinking Water. Currently, Without Sample Concentration, Rapid Detection Techniques Alone Produce Results That Are Hundreds To Thousands Of Times Less Sensitive Than The Minimum Desired Detection Limit For Microbial Water Contaminants. Innovaprep Proposes Development Of A Rapid Microbial Concentration System Designed For Use Aboard The International Space Station. The System Will Concentrate Microbes From Up To 5 Liters Of Potable Water Into Volumes As Small As 200 Ul, Providing Concentration Factors As High As 15,000X. It Will Be Based On Technologies Developed And Commercialized By Innovaprep, But Will Contain Innovations To Allow For Operation In Microgravity. Large Volumes Of Potable Water Are Processed Through A Hollow Fiber Membrane Filter Concentration Cell As Microbes Are Captured Within The Lumen Of The Fibers. Following Capture, The Microbes Are Efficiently Eluted Using A Novel Wet Foam Elution Process And Then Delivered To A Rapid Detection System For Analysis.
4 Jun 2018: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $754,385.00
0001
Start Of Contract Meeting
16 Nov 2017: W6qk Acc-Apg Natick; Department Of Defense (Dod); $754.40
80NSSC18P2334
1 Ea Innovaprep Cp-150 Concentrating Pipette
28 Aug 2018: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $12,824.99
NNX16CP10C
Providing A Reliable Supply Of Safe Drinking Water Is A Critical Requirement For Space Exploration.
8 Apr 2021: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $1,036,929.00
W911SR17C0056
The Purpose Of This Modification Is To Revise The Period Of Performance From 26 September 2020 To 31 July 2021 Due To Covid 19 Related Issues.
22 Dec 2020: W6qk Acc-Apg; Department Of Defense (Dod); $999,657.17
W911QY18D0173
Je-Rdap Program Ceiling $8.27B Update Section G Update Section H10 - Off Ramp Language
14 Dec 2021: W6qk Acc-Apg Natick; Department Of Defense (Dod); $0.00
80NSSC19C0023
All Work Will Take Place At The Innovaprep Main Facilities In Drexel, Mo. Mr. Andrew Page, Innovaprep President And Cto, Will Serve As Principal Investigator And Will Oversee All Aspects Of The Project. Mr. Alec Adolphson Will Lead The Engineering Efforts Including Improvements To The Issc Consumble Kit Design. Senior Microbiologist And Director Of Laboratory Operations Dr. Michael Hornback Will Lead Efforts To Ensure Elution Fluid And Assay Compatibility And Will Oversee Innovaprep Laboratory Testing And Evaluation. Dr. Mark Weislogel Of Irpi Llc Will Lead The Cfac Design Optimization Efforts And Provide Consulting Support To Innovaprep In Relation To Microgravity Design Requirements. Dr. Weislogel Is A Low-G Fluid Dynamics Expert And Has Successfully Designed And Tested Numerous Advanced Capillary Fluid Systems For Spacecraft Including Passive Spray Coolers, Urine Processers, Animal Habitats, And Other Devices. The Project Is Planned For A 12 Month Period Of Performance. Three Principal Tasks Are Contemplated: Task 1: Hardware Improvements, Task 2: Production Of Flight Ready Systems And Consumable Kits, And Task 3: Conduct Iss Flight Test Preparation.
5 Oct 2021: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $165,205.00
80NSSC19C0023
All Work Will Take Place At The Innovaprep Main Facilities In Drexel, Mo. Mr. Andrew Page, Innovaprep President And Cto, Will Serve As Principal Investigator And Will Oversee All Aspects Of The Project. Mr. Alec Adolphson Will Lead The Engineering Efforts Including Improvements To The Issc Consumble Kit Design. Senior Microbiologist And Director Of Laboratory Operations Dr. Michael Hornback Will Lead Efforts To Ensure Elution Fluid And Assay Compatibility And Will Oversee Innovaprep Laboratory Testing And Evaluation. Dr. Mark Weislogel Of Irpi Llc Will Lead The Cfac Design Optimization Efforts And Provide Consulting Support To Innovaprep In Relation To Microgravity Design Requirements. Dr. Weislogel Is A Low-G Fluid Dynamics Expert And Has Successfully Designed And Tested Numerous Advanced Capillary Fluid Systems For Spacecraft Including Passive Spray Coolers, Urine Processers, Animal Habitats, And Other Devices. The Project Is Planned For A 12 Month Period Of Performance. Three Principal Tasks Are Contemplated: Task 1: Hardware Improvements, Task 2: Production Of Flight Ready Systems And Consumable Kits, And Task 3: Conduct Iss Flight Test Preparation.
5 Aug 2021: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $165,205.00
NNX16CP10C
Providing A Reliable Supply Of Safe Drinking Water Is A Critical Requirement For Space Exploration. Systems That Provide Recycled Treated Water Aboard The International Space Station, And That Will Supply Water Aboard Future Spacecraft, Are Inherently Complex And Can Be Susceptible To Biofilm Formation And Microbial Contamination. Further, It Has Been Noted That Pathogenicity And Virulence Of Microbes Can Increase In Microgravity Environments. These Factors, Along With The High Consequence Of Sickness In The Remote Space Environment, Make Rapid, Reliable Methods Of Detecting Microbes At Low Levels A Critical Need. Rapid Microbiological Detection Systems Have Taken Dramatic Steps Forward In The Last Two Decades And Today Detection Of Even A Single Organism Is Possible In Less Than One Hour. Unfortunately, Development Of Rapid Detection Methods Has Far Outpaced Development Of Sample Concentration And Preparation Techniques, Which Are Necessary To Enable Detection Of Low Microbial Concentrations In Drinking Water. Currently, Without Sample Concentration, Rapid Detection Techniques Alone Produce Results That Are Hundreds To Thousands Of Times Less Sensitive Than The Minimum Desired Detection Limit For Microbial Water Contaminants. Innovaprep Proposes Development Of A Rapid Microbial Concentration System Designed For Use Aboard The International Space Station. The System Will Concentrate Microbes From Up To 5 Liters Of Potable Water Into Volumes As Small As 200 Ul, Providing Concentration Factors As High As 15,000X. It Will Be Based On Technologies Developed And Commercialized By Innovaprep, But Will Contain Innovations To Allow For Operation In Microgravity. Large Volumes Of Potable Water Are Processed Through A Hollow Fiber Membrane Filter Concentration Cell As Microbes Are Captured Within The Lumen Of The Fibers. Following Capture, The Microbes Are Efficiently Eluted Using A Novel Wet Foam Elution Process And Then Delivered To A Rapid Detection System For Analysis.
24 Sep 2020: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $1,084,791.00
W911SR17C0056
The Purpose Of This Modification Is To Extend The Period Of Performance By Three Months Due To Covid 19.
13 Jul 2020: W6qk Acc-Apg; Department Of Defense (Dod); $999,657.17
W911SR17C0056
The Purpose Of This Modification Is To Revise The Period Of Performance From 31 July 2021 To 31 December 2021 Due To Covid 19 Related Issues.
9 Aug 2021: W6qk Acc-Apg; Department Of Defense (Dod); $999,657.17
1305M219CNRMW0033
Administrative Modification To Update Contracting Officer's Representative (Cor) And Revise/Incorporate Contract Clauses. There Is No Change To The Period Of Performance Or Contract Value As A Result Of This Modification.
12 Aug 2021: Dept Of Commerce Noaa; Department Of Commerce (Doc); $399,947.23
W911QX22P0015
One (1) Automated Cell Concentrating Pipette
6 Jan 2022: W6qk Acc-Apg Adelphi; Department Of Defense (Dod); $14,109.99
1305M218CNRMW0062
This Award Is For The Small Business Innovation Research (Sbir) Phase I For Fy2018's Program Announcement For The Technology Partnerships Office Under The Office Of Atmospheric Research In Silver Spring, Md. This Award Is For Proposal 18-1-114 Entitled "Development Of A Rapid Monitoring System For Detection Of Pathogens In Marine Aquaculture."
13 Jul 2018: Dept Of Commerce Noaa; Department Of Commerce (Doc); $120,000.00
NNX16CP10C
Igf::Ot::Igf Providing A Reliable Supply Of Safe Drinking Water Is A Critical Requirement For Space Exploration. Systems That Provide Recycled Treated Water Aboard The International Space Station, And That Will Supply Water Aboard Future Spacecraft, Are Inherently Complex And Can Be Susceptible To Biofilm Formation And Microbial Contamination. Further, It Has Been Noted That Pathogenicity And Virulence Of Microbes Can Increase In Microgravity Environments. These Factors, Along With The High Consequence Of Sickness In The Remote Space Environment, Make Rapid, Reliable Methods Of Detecting Microbes At Low Levels A Critical Need. Rapid Microbiological Detection Systems Have Taken Dramatic Steps Forward In The Last Two Decades And Today Detection Of Even A Single Organism Is Possible In Less Than One Hour. Unfortunately, Development Of Rapid Detection Methods Has Far Outpaced Development Of Sample Concentration And Preparation Techniques, Which Are Necessary To Enable Detection Of Low Microbial Concentrations In Drinking Water. Currently, Without Sample Concentration, Rapid Detection Techniques Alone Produce Results That Are Hundreds To Thousands Of Times Less Sensitive Than The Minimum Desired Detection Limit For Microbial Water Contaminants. Innovaprep Proposes Development Of A Rapid Microbial Concentration System Designed For Use Aboard The International Space Station. The System Will Concentrate Microbes From Up To 5 Liters Of Potable Water Into Volumes As Small As 200 Ul, Providing Concentration Factors As High As 15,000X. It Will Be Based On Technologies Developed And Commercialized By Innovaprep, But Will Contain Innovations To Allow For Operation In Microgravity. Large Volumes Of Potable Water Are Processed Through A Hollow Fiber Membrane Filter Concentration Cell As Microbes Are Captured Within The Lumen Of The Fibers. Following Capture, The Microbes Are Efficiently Eluted Using A Novel Wet Foam Elution Process And Then Delivered To A Rapid Detection System For Analysis.
23 Apr 2019: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $1,084,791.00
80NSSC19C0023
All Work Will Take Place At The Innovaprep Main Facilities In Drexel, Mo. Mr. Andrew Page, Innovaprep President And Cto, Will Serve As Principal Investigator And Will Oversee All Aspects Of The Project.
9 Mar 2020: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $165,205.00
NNX16CP10C
Providing A Reliable Supply Of Safe Drinking Water Is A Critical Requirement For Space Exploration. Systems That Provide Recycled Treated Water Aboard The International Space Station, And That Will Supply Water Aboard Future Spacecraft, Are Inherently Complex And Can Be Susceptible To Biofilm Formation And Microbial Contamination. Further, It Has Been Noted That Pathogenicity And Virulence Of Microbes Can Increase In Microgravity Environments. These Factors, Along With The High Consequence Of Sickness In The Remote Space Environment, Make Rapid, Reliable Methods Of Detecting Microbes At Low Levels A Critical Need. Rapid Microbiological Detection Systems Have Taken Dramatic Steps Forward In The Last Two Decades And Today Detection Of Even A Single Organism Is Possible In Less Than One Hour. Unfortunately, Development Of Rapid Detection Methods Has Far Outpaced Development Of Sample Concentration And Preparation Techniques, Which Are Necessary To Enable Detection Of Low Microbial Concentrations In Drinking Water. Currently, Without Sample Concentration, Rapid Detection Techniques Alone Produce Results That Are Hundreds To Thousands Of Times Less Sensitive Than The Minimum Desired Detection Limit For Microbial Water Contaminants. Innovaprep Proposes Development Of A Rapid Microbial Concentration System Designed For Use Aboard The International Space Station. The System Will Concentrate Microbes From Up To 5 Liters Of Potable Water Into Volumes As Small As 200 Ul, Providing Concentration Factors As High As 15,000X. It Will Be Based On Technologies Developed And Commercialized By Innovaprep, But Will Contain Innovations To Allow For Operation In Microgravity. Large Volumes Of Potable Water Are Processed Through A Hollow Fiber Membrane Filter Concentration Cell As Microbes Are Captured Within The Lumen Of The Fibers. Following Capture, The Microbes Are Efficiently Eluted Using A Novel Wet Foam Elution Process And Then Delivered To A Rapid Detection System For Analysis.
16 Apr 2020: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $1,084,791.00
1305M219CNRMW0033
Modification To Grant No Cost Extension Due To Impacts From Covid-19
4 Sep 2020: Dept Of Commerce Noaa; Department Of Commerce (Doc); $399,947.23
1305M219CNRMW0033
No-Cost Extension To Change The Final Report & Invoicing Submission Dates.
4 Apr 2022: Dept Of Commerce Noaa; Department Of Commerce (Doc); $399,947.23
NNX16CP10C
Igf::Ot::Igf Providing A Reliable Supply Of Safe Drinking Water Is A Critical Requirement For Space Exploration. Systems That Provide Recycled Treated Water Aboard The International Space Station, And That Will Supply Water Aboard Future Spacecraft, Are Inherently Complex And Can Be Susceptible To Biofilm Formation And Microbial Contamination. Further, It Has Been Noted That Pathogenicity And Virulence Of Microbes Can Increase In Microgravity Environments. These Factors, Along With The High Consequence Of Sickness In The Remote Space Environment, Make Rapid, Reliable Methods Of Detecting Microbes At Low Levels A Critical Need. Rapid Microbiological Detection Systems Have Taken Dramatic Steps Forward In The Last Two Decades And Today Detection Of Even A Single Organism Is Possible In Less Than One Hour. Unfortunately, Development Of Rapid Detection Methods Has Far Outpaced Development Of Sample Concentration And Preparation Techniques, Which Are Necessary To Enable Detection Of Low Microbial Concentrations In Drinking Water. Currently, Without Sample Concentration, Rapid Detection Techniques Alone Produce Results That Are Hundreds To Thousands Of Times Less Sensitive Than The Minimum Desired Detection Limit For Microbial Water Contaminants. Innovaprep Proposes Development Of A Rapid Microbial Concentration System Designed For Use Aboard The International Space Station. The System Will Concentrate Microbes From Up To 5 Liters Of Potable Water Into Volumes As Small As 200 Ul, Providing Concentration Factors As High As 15,000X. It Will Be Based On Technologies Developed And Commercialized By Innovaprep, But Will Contain Innovations To Allow For Operation In Microgravity. Large Volumes Of Potable Water Are Processed Through A Hollow Fiber Membrane Filter Concentration Cell As Microbes Are Captured Within The Lumen Of The Fibers. Following Capture, The Microbes Are Efficiently Eluted Using A Novel Wet Foam Elution Process And Then Delivered To A Rapid Detection System For Analysis.
31 Jan 2019: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $754,385.00
80NSSC19C0023
All Work Will Take Place At The Innovaprep Main Facilities In Drexel, Mo. Mr. Andrew Page, Innovaprep President And Cto, Will Serve As Principal Investigator And Will Oversee All Aspects Of The Project. Mr. Alec Adolphson Will Lead The Engineering Efforts Including Improvements To The Issc Consumble Kit Design. Senior Microbiologist And Director Of Laboratory Operations Dr. Michael Hornback Will Lead Efforts To Ensure Elution Fluid And Assay Compatibility And Will Oversee Innovaprep Laboratory Testing And Evaluation. Dr. Mark Weislogel Of Irpi Llc Will Lead The Cfac Design Optimization Efforts And Provide Consulting Support To Innovaprep In Relation To Microgravity Design Requirements. Dr. Weislogel Is A Low-G Fluid Dynamics Expert And Has Successfully Designed And Tested Numerous Advanced Capillary Fluid Systems For Spacecraft Including Passive Spray Coolers, Urine Processers, Animal Habitats, And Other Devices. The Project Is Planned For A 12 Month Period Of Performance. Three Principal Tasks Are Contemplated: Task 1: Hardware Improvements, Task 2: Production Of Flight Ready Systems And Consumable Kits, And Task 3: Conduct Iss Flight Test Preparation.
29 Sep 2020: Nasa Shared Services Center; National Aeronautics And Space Administration (Nasa); $165,205.00
0001
Funding De-Obligation, Vendor Confirmed No Additional Invoices Will Be Submitted
15 Oct 2018: W6qk Acc-Apg Natick; Department Of Defense (Dod); $754.40
75D30119P05154
Bobcat Commercial Filter Dry Air Sampler
24 May 2019: Cdc Office Of Acquisition Services; Department Of Health And Human Services (Hhs); $14,005.99

Supply Items Approved for CAGE 5L9H6 Page 1 of 1

5340-01-706-5238
Access Cover

AC04033: RNCC: 3 | RNVC: 2 | DAC: 5

2 Dec 2022

5999-01-705-7008
Electronic Shielding Gasket

AC03042-FAB: RNCC: 3 | RNVC: 2 | DAC: B

5 Oct 2022

5998-01-700-9108
Circuit Card Assembly

ACDM251-CCA REV 3: RNCC: 3 | RNVC: 2 | DAC: 5

20 Apr 2022