Chemistry
50.93434
-1.39375
27
442697
115163
elec/b27/ekw
Bldg 27 (Chemistry)
1937
POLYGON((-1.39421065344451 50.9341295872045,-1.39412675079697 50.9342445681369,-1.39405811950927 50.9343386020608,-1.39384369165095 50.9346325913021,-1.39374119387703 50.9346028131582,-1.39334404868992 50.9344877764989,-1.39371523256532 50.9339788830606,-1.39383345085671 50.9340130774321,-1.39371163930418 50.9341799727786,-1.39397385753562 50.9342560039403,-1.39398553563431 50.9342399824922,-1.39389103286642 50.9342125818401,-1.39399685440689 50.9340675958897,-1.39410734718684 50.9340995822862,-1.39413402715077 50.9341072816633,-1.39420149062861 50.9341268697788,-1.39421065344451 50.9341295872045))
Highfield Campus
University of Southampton
School of Chemistry
Building 27 is non-residential
Gutteridge & Gutteridge
Seminar Room
27-1137
Access to this room is only available via the external door opposite Building 25.
Boardroom
27-1139
Access to this room is only available via the external door opposite Building 25.
Lecture Theatre 1
27 / 2001 (L/R 1)
Common Learning Space: Lecture Room
27-2001
89
Bench PC
Room Feature
Data and Video Projection
DVD player
Induction loop for hearing aid users
Network connection for laptops
Fixed seats - tiered
Whiteboard
Screen
Wireless internet access
Video overhead projector (Video OHP)
Video overhead projector (Recordable)
RSC- DISABLED ACCESS - AUDIENCE (X) Not Egress Standard (No access for wheelchairs, difficult access for semi-ambulates)
RSC- DISABLED ACCESS - INSTRUCTOR (C) Lift Not Egress Standard - Room Suitable for PEEP
Lecture Theatre 2
27 / 2003 (L/R 2)
Common Learning Space: Lecture Room
27-2003
62
Sympodium (Smartscreen for the PC)
Seminar Room
27-1133
Access to this room is only available via the external door opposite Building 25.
iSolutions Workstations - 27-2023
25
wsavail/27-2023/ratio
25
Room opening times are currently unavailable
wsavail/27-2023/units
27/2023
27 / 2023
50.93436524
-1.393824619
POLYGON((-1.3939108856 50.9343485093,-1.3938635444 50.9344166144,-1.3937383193 50.9343819674,-1.3937857503 50.9343138623,-1.3939108856 50.9343485093))
2023
MFD
Bruker - EPR
E10968
LEVITT, MALCOLM
NMR Spectroscopy Facility
The NMR Spectroscopy Facility currently has four Bruker FT-NMR Spectrometers. AV300/1, AV300/2 DPX 400/1 and DPX 400/2. For full details of our capabilities, sample booking and staff at the facility please vitit our website.
F10017
The NMR Spectroscopy Facility currently has four Bruker FT-NMR Spectrometers. AV300/1, AV300/2 DPX 400/1 and DPX 400/2. For full details of our capabilities, sample booking and staff at the facility please vitit our website.
The NMR Spectroscopy Facility currently has four Bruker FT-NMR Spectrometers. AV300/1, AV300/2 DPX 400/1 and DPX 400/2. For full details of our capabilities, sample booking and staff at the facility please vitit our website.
true
WELLS, NEIL
SYNAPT G2-Si System
E11160
LANGLEY, GRAHAM
Spinsolve Carbon Benchtop NMR + Software
Spinsolve Carbon Benchtop NMR + Software
E11258
Spinsolve Carbon Benchtop NMR + Software
Spinsolve Carbon Benchtop NMR + Software
LEVITT, MALCOLM
Mass Spectrometer
The range of mass spectrometers has grown to the point where the group now has a wide range of state-of-the-art systems capable of dealing with all sample types and a wide array of client demands. Staff capability has grown with retention and experience.
F10016
The range of mass spectrometers has grown to the point where the group now has a wide range of state-of-the-art systems capable of dealing with all sample types and a wide array of client demands. Staff capability has grown with retention and experience.
The range of mass spectrometers has grown to the point where the group now has a wide range of state-of-the-art systems capable of dealing with all sample types and a wide array of client demands. Staff capability has grown with retention and experience.
true
LANGLEY, GRAHAM
Single Crystal Diffraction (SXD) Facilities
The state of the art instrumentation at the SXD Facility enables us to look at extremely small crystals down to sizes of tens of microns and provides the ability of high throughput analysis of more routine samples.
F10018
The state of the art instrumentation at the SXD Facility enables us to look at extremely small crystals down to sizes of tens of microns and provides the ability of high throughput analysis of more routine samples.
The state of the art instrumentation at the SXD Facility enables us to look at extremely small crystals down to sizes of tens of microns and provides the ability of high throughput analysis of more routine samples.
false
LIGHT, MARK
Powder Diffraction (PXD) Facilities
The D5000 and D8 can be used in a number of analytical situations ranging from the study of clays and materials to polymers and pharmaceuticals. The list below covers some of the main possibilities: Simple characterization; Phase analysis, both quatitative and qualitative, and Quality control monitoring.
F10019
The D5000 and D8 can be used in a number of analytical situations ranging from the study of clays and materials to polymers and pharmaceuticals. The list below covers some of the main possibilities: Simple characterization; Phase analysis, both quatitative and qualitative, and Quality control monitoring.
The D5000 and D8 can be used in a number of analytical situations ranging from the study of clays and materials to polymers and pharmaceuticals. The list below covers some of the main possibilities: Simple characterization; Phase analysis, both quatitative and qualitative, and Quality control monitoring.
false
LIGHT, MARK
Thermal Characterisation
Differential Scanning Calorimetry and Hot Stage Microscopy.Thermal analysis of a material is concerned with the monitoring of property changes as a function of temperature. These techniques enable us to probe such phenomena as polymorphism, phase transitions, stability and formulation in pharmaceutical and other material. The properties we can measure are defined by the apparatus in the facility.
F10070
Differential Scanning Calorimetry and Hot Stage Microscopy.Thermal analysis of a material is concerned with the monitoring of property changes as a function of temperature. These techniques enable us to probe such phenomena as polymorphism, phase transitions, stability and formulation in pharmaceutical and other material. The properties we can measure are defined by the apparatus in the facility.
Differential Scanning Calorimetry and Hot Stage Microscopy.Thermal analysis of a material is concerned with the monitoring of property changes as a function of temperature. These techniques enable us to probe such phenomena as polymorphism, phase transitions, stability and formulation in pharmaceutical and other material. The properties we can measure are defined by the apparatus in the facility.
false
PITAK, MATEUSZ
Floor 1, Building 27
Building 27 / Level 1
1
Floor 2, Building 27
Building 27 / Level 2
2
Building 27 / Level 3
3
27 / 1004
Room 1004, Building 27
Shower
27 / 3053
3053
27 / 1079
1079
27 / 2007
2007
27 / 2053
2053
Shower
50.93434
-1.39375
shower27
27 / 1150
Chemistry School Owned Lab
27-1150
24
27 / 2040
Chemistry School Owned Room
27-2040
8
Movable seats
27 / 2042
Chemistry School Owned Room
27-2042
8
27 / 2067