OOPSE-4/forceFields/MnM.frc

// This is the forcefield file for the Metal-NonMetal(MnM) Interaction Forcefield
//
// The sections are divided into AtomTypes
//


begin Options
      Name                   = "MnM"
          MetallicEnergyUnitScaling   23.0605423
end Options


begin AtomTypes    
//Name          mass     (amu)
CH4             16.05           
CH3             15.04           
CH2             14.03           
CH              13.02
// CH3 (sp3) thiol/sulfide/disulfide
CH3S    15.04
// CH2 (sp3) thiol/sulfide/disulfide
CH2S    14.03
//CH (sp3) all other/thiol
CHS     13.02
//C (sp3) all other/thiol
CS      12.0107
// sulfone
SYZ     32.0655
// O in sulfone
OY
// thiol S
SH      32.0655
//Thiol H
HS      1.0079
// Sulfoxide
SZ  32.0655
// Sulfur in disulfide
SS  32.0655
// Sulfur in aromatic (thiophene)
SP  32.0655
// sp2 carbon in thiophene
CS   12.0107
// Sulfur attached to gold
SAu  228.9807

//Water
SSD             18.0153         
SSD1            18.0153 
SSD_E           18.0153
SSD_RF          18.0153                 
O_TIP3P         15.9994                 
O_TIP4P         15.9994
O_TIP4P-Ew      15.9994
O_TIP5P         15.9994 
O_TIP5P-E       15.9994 
O_SPCE          15.9994
O_SPC           15.9994 
H_TIP3P         1.0079
H_TIP4P         1.0079
H_TIP4P-Ew      1.0079
H_TIP5P         1.0079
H_SPCE          1.0079
H_SPC           1.0079
EP_TIP4P        0.0
EP_TIP4P-Ew     0.0
EP_TIP5P        0.0

//Standard Atoms
C               12.0107
S       32.0655 
Ni      58.710
Cu      63.550
Rh      102.90550
Pd      106.42
Ag      107.8682
Ir      192.217
Pt      195.09
Au      196.97
end AtomTypes

begin DirectionalAtomTypes
//Name          I_xx    I_yy    I_zz    (All moments in (amu*Ang^2)
SSD             1.7696  0.6145  1.1550  
SSD1            1.7696  0.6145  1.1550  
SSD_E           1.7696  0.6145  1.1550  
SSD_RF          1.7696  0.6145  1.1550  
end DirectionalAtomTypes                    


begin LennardJonesAtomTypes
//Name          epsilon             sigma       
SSD             0.152           3.051                                   
SSD1            0.152           3.016 
SSD_E           0.152           3.035
SSD_RF          0.152           3.019
O_TIP3P         0.1521          3.15061 
O_TIP4P         0.1550          3.15365 
O_TIP4P-Ew      0.16275         3.16435
O_TIP5P         0.16            3.12   
O_TIP5P-E       0.178           3.097   
O_SPCE          0.15532         3.16549
O_SPC           0.15532         3.16549
// From TraPPE-UA JPCB, 109, 24100 and JCPB 102,2569
CH4             0.2941          3.73
CH3             0.1947          3.75
CH2             0.09140         3.95
CH              0.0987          4.68
CS              0.0009935           6.40
CH3S            0.1947          3.75
CH2S            0.09140         3.95
CHS         0.0987          4.68
S           0.3954          3.58
SH          0.4610          3.62
SS          0.3279          3.72
SP          0.3576          3.60
end LennardJonesAtomTypes

begin SCAtomTypes
// Name  epsilon(eV)      c      m       n      alpha(angstroms)
Ni      0.0073767       84.745  5.0     10.0    3.5157 
Cu      0.0057921       84.843  5.0     10.0    3.6030
Rh      0.0024612       305.499 5.0     13.0    3.7984
Pd      0.0032864       148.205 6.0     12.0    3.8813
Ag      0.0039450       96.524  6.0     11.0    4.0691
Ir      0.0037674       224.815 6.0     13.0    3.8344  
Pt      0.0097894       71.336  7.0     11.0    3.9163
Au      0.0078052       53.581  8.0     11.0    4.0651
end SCAtomTypes


// Metal non-metal interactions.
// Format: Metal Atom Type, Non-Metal Atom Type, Interaction Type, Interaction Parameters
// Where interaction type can be: MAW, LennardJones or ShiftedMorse or RepulsiveMorse
begin MetalNonMetalInteractions

//MAW (Metal Angular Water section)
// r_e, D_e beta ca1 cb1
Cu   SSD_E  MAW  2.5525 1.9850 1.1680  1.1250 0.750000
//Au   SSD_E  MAW  2.8170 1.7850 1.2680  1.2500 0.2050 0.0
//Au   SSD_E  MAW  2.7510 2.95   1.101  0.750000 0.750000
//1. 1.5 2.6500001 -3.000162356E-2 1.30999744
//Au   SSD_E  MAW  2.7 1.06   1.264  0.16 0.8
Au   SSD_E  MAW  2.68 0.6   1.33  0.95 -0.25

//LennardJones
// sigma epsilon
Au CH3 LennardJones 3.54 0.2146
Au CH2 LennardJones 3.54 0.1749 
Au S   LennardJones   4.45 9.180

//Shifted Morse
// r0 D0 beta0
Au      O_SPCE  ShiftedMorse    3.70 0.0424 0.769

//Repulsive Morse
// r0 D0 beta0
Au      H_SPCE  RepulsiveMorse  -1.00 0.00850 0.769


end MetalNonMetalInteractions


begin ChargeAtomTypes
// Name         charge
O_TIP3P         -0.834
O_SPCE          -0.8476
O_SPC           -0.82
H_TIP3P         0.417
H_TIP4P         0.520
H_TIP4P-Ew      0.52422
H_TIP5P         0.241
H_SPCE          0.4238
H_SPC           0.42
EP_TIP4P        -1.040
EP_TIP4P-Ew     -1.04844
EP_TIP5P        -0.241
end ChargeAtomTypes

begin MultipoleAtomTypes
// OOPSE currently only supports charge-charge, charge-dipole, 
// dipole-dipole, and charge-quadrupole interactions.
// Dipoles may be either traditional point-dipoles or split-dipoles.
// possible formats for a multipolar atom type are:
//
// Point-dipoles:
// name d phi theta psi dipole_moment
//
// Split-dipoles:
// name s phi theta psi dipole_moment splitdipole_distance
//
// Point-Quadrupoles:
// name q phi theta psi Qxx Qyy Qzz
//
// Atoms with both dipole and quadrupole moments:
// name dq phi theta psi dipole_moment Qxx Qyy Qzz
//
// Atoms with both split dipoles and quadrupole moments:
// name sq phi theta psi dipole_moment splitdipole_distance Qxx Qyy Qzz
//
// Euler angles are given in zxz convention in units of degrees.
//
// Charges are given in units of electrons.
//
// Dipoles are given in units of Debyes.
//
// Split dipole distances are given in units of Angstroms.
//  
// Quadrupole moments are given in units of 10^-26 esu cm^2 (also known as an
//                                                           esu centi-barn)
//
SSD_E   dq      0.0     0.0     0.0     2.42    -1.682  1.762   -0.08
SSD_RF  dq      0.0     0.0     0.0     2.48    -1.682  1.762   -0.08
SSD     dq      0.0     0.0     0.0     2.35    -1.682  1.762   -0.08
SSD1    dq      0.0     0.0     0.0     2.35    -1.682  1.762   -0.08
end MultipoleAtomTypes

begin StickyAtomTypes
//name  w0      v0 (kcal/mol)   v0p     rl (Ang)  ru    rlp     rup
SSD_E   0.07715 3.90            3.90    2.40      3.80  2.75    3.35
SSD_RF  0.07715 3.90            3.90    2.40      3.80  2.75    3.35
SSD     0.07715 3.7284          3.7284  2.75      3.35  2.75    4.0
SSD1    0.07715 3.6613          3.6613  2.75      3.35  2.75    4.0
end StickyAtomTypes


begin BondTypes

//Atom1 Atom2   Fixed
//V_Fixed = 0

//Atom1 Atom2   Harmonic        b0              Kb (kcal/mol)
//V_Harmonic = 0.5*Kb(b- bo)^2
//Harmonic Examples
CH3         CH3 Harmonic                1.526           260
CH3         CH2 Harmonic                1.526           260
CH3         CH  Harmonic                1.526           260
CH2         CH2 Harmonic                1.526           260
CH2         CH  Harmonic                1.526           260
CH          CH  Harmonic                1.526           260
// fix the Kb for the thiol below:
S       CH2 Harmonic        1.82        281

//Atom1 Atom2   Cubic           b0      K3      K2      K1      K0
//V_Cubic = K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0


//Atom1 Atom2   Quartic b0      K4      K3      K2      K1      K0
//V_Quartic = K4(b - b0)^4 + K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0


//Atom1 Atom2   Polynomial      b0      i       Ki      [j      Kj]
//V_Quartic = Ki(b - b0)^i + Kj(b - b0)^j + ...


end BondTypes

begin BendTypes

//Harmonic
//Atom1 Atom2   Atom3   Harmonic        Theta0  Ktheta
//V_Harmonic = 0.5*Ktheta(Theta - Theta0)^2
//Ktheta: kcal/mole/rad**2
//Theta0: degrees
//Harmonic examples
//
CH3     CH2     CH3     Harmonic        114.0   117.68
CH3     CH2     CH2     Harmonic        114.0   117.68
CH3     CH2     CH      Harmonic        114.0   117.68
CH3     CH      CH3     Harmonic        112.0   117.68
CH3     CH      CH2     Harmonic        112.0   117.68
CH3     CH      CH      Harmonic        112.0   117.68
CH2     CH2     CH2     Harmonic        114.0   117.68
CH2     CH2     CH      Harmonic        114.0   117.68
CH2     CH      CH2     Harmonic        112.0   117.68
CH2     CH      CH      Harmonic        112.0   117.68
CH      CH2     CH      Harmonic        114.0   117.68
CH      CH      CH      Harmonic        112.0   117.68
S   CH2 CH2 Harmonic    114.0   117.68


//UreyBradley
//Atom1 Atom2   Atom3   UreyBradley             Theta0  Ktheta  S0      Kub
//V_UreyBradleyBend = Ktheta(Theta - Theta0)^2 +  Kub(S - S0)^2
//Ktheta: kcal/mole/rad**2
//Theta0: degrees
//Kub: kcal/mole/A**2
//S0: A

//Cubic
//Atom1 Atom2   Atom3   Cubic   Theta0  K3      K2      K1      K0
//V_Cubic = K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0

//Quartic
//Atom1 Atom2   Atom3   Quartic Theta0  K4      K3      K2      K1      K0
//V_Quartic = K4(Theta - Theta0)^4 + K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0

//Polynomial
//Atom1 Atom2   Atom3   Polynomial      Theta0  i       Ki      [j      Kj]
//V_Polynomial = Ki(Theta - Theta0)^i +  Kj(Theta - Theta0)^j + ...

end BendTypes

begin TorsionTypes

// All thiol torsions from Kautman and Klein (J. Phys. Chem. 1989, 91, 4994-5001)

//S     CH2     CH2     CH3     Polynomial      0       2.218   1       2.905   2       -3.136  3       -0.7313 4       6.272   5       -7.528
//S     CH2     CH2     CH2     Polynomial      0       2.218   1       2.905   2       -3.136  3       -0.7313 4       6.272   5       -7.528
//S     CH2     CH2     CH      Polynomial      0       2.218   1       2.905   2       -3.136  3       -0.7313 4       6.272   5       -7.528
//S     CH2     CH2     C       Polynomial      0       2.218   1       2.905   2       -3.136  3       -0.7313 4       6.272   5       -7.528

// All type 1 possibilities from Dubbeldam et al. (J. Phys. Chem. B 2004, 108, 12301-12313)

//CH3   CH2     CH2     CH3     Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//CH3   CH2     CH2     CH2     Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//CH3   CH2     CH2     CH      Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//CH3   CH2     CH2     C       Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//CH2   CH2     CH2     CH2     Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//CH2   CH2     CH2     CH      Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//CH2   CH2     CH2     C       Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//CH    CH2     CH2     CH      Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//CH    CH2     CH2     C       Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111
//C     CH2     CH2     C       Polynomial      0       2.3939  1       3.871   2       -0.7111 3       -3.864  4       1.4222  5       -3.111

// All type 2 possibilities:

//H     CH      CH2     CH3     Polynomial      0       2.7167  1       8.665   2       0.82669 3       -12.92  4       -1.653  5       3.2712
//H     CH      CH2     CH2     Polynomial      0       2.7161  1       8.665   2       0.82669 3       -12.92  4       -1.653  5       3.2712
//H     CH      CH2     CH      Polynomial      0       2.7161  1       8.665   2       0.82669 3       -12.92  4       -1.653  5       3.2712
//H     CH      CH2     C       Polynomial      0       2.7161  1       8.665   2       0.82669 3       -12.92  4       -1.653  5       3.2712

// All type 3 possibilities:

//CH3   C       CH2     CH3     Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//CH3   C       CH2     CH2     Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//CH3   C       CH2     CH      Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//CH3   C       CH2     C       Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//CH2   C       CH2     CH2     Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//CH2   C       CH2     CH      Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//CH2   C       CH2     C       Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//CH    C       CH2     CH      Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//CH    C       CH2     C       Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0
//C     C       CH2     C       Polynomial      0       2.5701  1       7.710   2       0       3       -10.29  4       0       5       0

// All type 4 possibilities:

//CH3   C       C       CH3     Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//CH3   C       C       CH2     Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//CH3   C       C       CH      Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//CH3   C       C       C       Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//CH2   C       C       CH2     Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//CH2   C       C       CH      Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//CH2   C       C       C       Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//CH    C       C       CH      Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//CH    C       C       C       Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0
//C     C       C       C       Polynomial      0       4.0652  1       12.20   2       0       3       -16.26  4       0       5       0

//All type 5 possibilities:

//CH3   C       CH      H       Polynomial      0       3.1301  1       9.390   2       0       3       -12.52  4       0       5       0
//CH2   C       CH      H       Polynomial      0       3.1301  1       9.390   2       0       3       -12.52  4       0       5       0
//CH    C       CH      H       Polynomial      0       3.1301  1       9.390   2       0       3       -12.52  4       0       5       0
//C     C       CH      H       Polynomial      0       3.1301  1       9.390   2       0       3       -12.52  4       0       5       0

//All type 6 possibilities:

//H     CH      CH      H       Polynomial      0       2.1706  1       5.609   2       -1.804  3       -5.976  4       3.6089  5       -3.6089

//Cubic
//Atom1 Atom2   Atom3   Atom4   Cubic           k3              k2              k1              k0  ( all are kcal/mol )
//V_Cubic = k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0
//Cubic Examples
CH3     CH2     CH2     CH3     Cubic           5.9602          -0.2568         -3.802          2.1586
CH3     CH2     CH      CH3     Cubic           3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH      CH3     Cubic           3.3254          -0.4215         -1.686          1.1661
CH3     CH2     CH2     CH2     Cubic           5.9602          -0.2568         -3.802          2.1586
CH3     CH2     CH      CH2     Cubic           3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH2     CH2     Cubic           3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH      CH2     Cubic           3.3254          -0.4215         -1.686          1.1661
CH3     CH2     CH2     CH      Cubic           5.9602          -0.2568         -3.802          2.1586
CH3     CH2     CH      CH      Cubic           3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH2     CH      Cubic           3.3254          -0.4215         -1.686          1.1661
CH3     CH      CH      CH      Cubic           3.3254          -0.4215         -1.686          1.1661
CH2     CH2     CH2     CH2     Cubic           5.9602          -0.2568         -3.802          2.1586
CH2     CH2     CH      CH2     Cubic           3.3254          -0.4215         -1.686          1.1661
CH2     CH      CH      CH2     Cubic           3.3254          -0.4215         -1.686          1.1661
CH2     CH2     CH2     CH      Cubic           5.9602          -0.2568         -3.802          2.1586
CH2     CH2     CH      CH      Cubic           3.3254          -0.4215         -1.686          1.1661
CH2     CH      CH2     CH      Cubic           3.3254          -0.4215         -1.686          1.1661
CH2     CH      CH      CH      Cubic           3.3254          -0.4215         -1.686          1.1661
CH      CH2     CH2     CH      Cubic           5.9602          -0.2568         -3.802          2.1586
CH      CH2     CH      CH      Cubic           3.3254          -0.4215         -1.686          1.1661
CH      CH      CH      CH      Cubic           3.3254          -0.4215         -1.686          1.1661
S   CH2 CH2 CH2   Cubic           5.9602          -0.2568         -3.802          2.1586

//Opls
//Atom1 Atom2   Atom3   Atom4   Opls    v1      v2      v3
//V_Opls = v1 / 2 * [1 + cos(phi)] + v2 / 2 * [1 - cos(2*phi)] + v3 / 2 * [1 + cos(3*phi)]
//units for v_n: kcal / mol

//Trappe
//Atom1 Atom2   Atom3   Atom4   Trappe  c0      c1      c2      c3
//V_Opls = c0 + c1 * [1 + cos(phi)] + c2 * [1 - cos(2*phi)] + c3 * [1 + cos(3*phi)]
//units for c_n: kcal / mol

//Charmm
//Atom1 Atom2   Atom3   Atom4   Charmm          Kchi            n               delta           [Kchi           n               delta]
//V_Charmm =  Kchi(1 + cos(n(chi) - delta))
//Kchi: kcal/mole
//n: multiplicity
//delta: degrees
//in some cases, a Charmm may have two or three terms. If n is equal to 0, it falls back to harmonic form

//Quartic
//Atom1 Atom2   Atom3   Atom4   Quartic         k4              k3              k2              k1              k0  ( all are kcal/mol )
//V_Quartic = k4(cos phi)^4 + k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0

//Polynomial
//Atom1 Atom2   Atom3   Atom4   Polynomial      i       Ki      [j      Kj] 
//VPolynomial = Ki (cos phi)^i + ... + Kj (cos phi)^j

end TorsionTypes


Revision:	3413
Committed:	Wed Jun 11 19:03:39 2008 UTC (16 years, 1 month ago) by gezelter
File size:	13603 byte(s)
Log Message:	Adding Trappe torsion types and fixing Opls types
#	User	Rev	Content
1	chuckv	3156	// This is the forcefield file for the Metal-NonMetal(MnM) Interaction Forcefield
2			//
3			// The sections are divided into AtomTypes
4			//
5
6
7			begin Options
8			Name = "MnM"
9			MetallicEnergyUnitScaling 23.0605423
10			end Options
11
12	chuckv	3412
13	chuckv	3156	begin AtomTypes
14			//Name mass (amu)
15			CH4 16.05
16			CH3 15.04
17			CH2 14.03
18	chuckv	3405	CH 13.02
19	chuckv	3412	// CH3 (sp3) thiol/sulfide/disulfide
20			CH3S 15.04
21			// CH2 (sp3) thiol/sulfide/disulfide
22			CH2S 14.03
23			//CH (sp3) all other/thiol
24			CHS 13.02
25			//C (sp3) all other/thiol
26			CS 12.0107
27			// sulfone
28			SYZ 32.0655
29			// O in sulfone
30			OY
31			// thiol S
32			SH 32.0655
33			//Thiol H
34			HS 1.0079
35			// Sulfoxide
36			SZ 32.0655
37			// Sulfur in disulfide
38			SS 32.0655
39			// Sulfur in aromatic (thiophene)
40			SP 32.0655
41			// sp2 carbon in thiophene
42			CS 12.0107
43			// Sulfur attached to gold
44			SAu 228.9807
45
46			//Water
47	chuckv	3156	SSD 18.0153
48			SSD1 18.0153
49			SSD_E 18.0153
50			SSD_RF 18.0153
51			O_TIP3P 15.9994
52			O_TIP4P 15.9994
53			O_TIP4P-Ew 15.9994
54			O_TIP5P 15.9994
55			O_TIP5P-E 15.9994
56			O_SPCE 15.9994
57			O_SPC 15.9994
58			H_TIP3P 1.0079
59			H_TIP4P 1.0079
60			H_TIP4P-Ew 1.0079
61			H_TIP5P 1.0079
62			H_SPCE 1.0079
63			H_SPC 1.0079
64			EP_TIP4P 0.0
65			EP_TIP4P-Ew 0.0
66			EP_TIP5P 0.0
67	chuckv	3412
68			//Standard Atoms
69	chuckv	3156	C 12.0107
70			S 32.0655
71			Ni 58.710
72			Cu 63.550
73			Rh 102.90550
74			Pd 106.42
75			Ag 107.8682
76			Ir 192.217
77			Pt 195.09
78			Au 196.97
79			end AtomTypes
80
81			begin DirectionalAtomTypes
82			//Name I_xx I_yy I_zz (All moments in (amu*Ang^2)
83			SSD 1.7696 0.6145 1.1550
84			SSD1 1.7696 0.6145 1.1550
85			SSD_E 1.7696 0.6145 1.1550
86			SSD_RF 1.7696 0.6145 1.1550
87			end DirectionalAtomTypes
88
89
90			begin LennardJonesAtomTypes
91			//Name epsilon sigma
92			SSD 0.152 3.051
93			SSD1 0.152 3.016
94			SSD_E 0.152 3.035
95			SSD_RF 0.152 3.019
96			O_TIP3P 0.1521 3.15061
97			O_TIP4P 0.1550 3.15365
98			O_TIP4P-Ew 0.16275 3.16435
99			O_TIP5P 0.16 3.12
100			O_TIP5P-E 0.178 3.097
101			O_SPCE 0.15532 3.16549
102			O_SPC 0.15532 3.16549
103	chuckv	3412	// From TraPPE-UA JPCB, 109, 24100 and JCPB 102,2569
104			CH4 0.2941 3.73
105			CH3 0.1947 3.75
106			CH2 0.09140 3.95
107			CH 0.0987 4.68
108			CS 0.0009935 6.40
109			CH3S 0.1947 3.75
110			CH2S 0.09140 3.95
111			CHS 0.0987 4.68
112			S 0.3954 3.58
113			SH 0.4610 3.62
114			SS 0.3279 3.72
115			SP 0.3576 3.60
116	chuckv	3156	end LennardJonesAtomTypes
117
118	chuckv	3161	begin SCAtomTypes
119			// Name epsilon(eV) c m n alpha(angstroms)
120			Ni 0.0073767 84.745 5.0 10.0 3.5157
121			Cu 0.0057921 84.843 5.0 10.0 3.6030
122			Rh 0.0024612 305.499 5.0 13.0 3.7984
123			Pd 0.0032864 148.205 6.0 12.0 3.8813
124			Ag 0.0039450 96.524 6.0 11.0 4.0691
125			Ir 0.0037674 224.815 6.0 13.0 3.8344
126			Pt 0.0097894 71.336 7.0 11.0 3.9163
127			Au 0.0078052 53.581 8.0 11.0 4.0651
128			end SCAtomTypes
129
130
131			// Metal non-metal interactions.
132			// Format: Metal Atom Type, Non-Metal Atom Type, Interaction Type, Interaction Parameters
133			// Where interaction type can be: MAW, LennardJones or ShiftedMorse or RepulsiveMorse
134			begin MetalNonMetalInteractions
135
136			//MAW (Metal Angular Water section)
137	chuckv	3392	// r_e, D_e beta ca1 cb1
138			Cu SSD_E MAW 2.5525 1.9850 1.1680 1.1250 0.750000
139	chuckv	3356	//Au SSD_E MAW 2.8170 1.7850 1.2680 1.2500 0.2050 0.0
140	chuckv	3392	//Au SSD_E MAW 2.7510 2.95 1.101 0.750000 0.750000
141			//1. 1.5 2.6500001 -3.000162356E-2 1.30999744
142	chuckv	3397	//Au SSD_E MAW 2.7 1.06 1.264 0.16 0.8
143			Au SSD_E MAW 2.68 0.6 1.33 0.95 -0.25
144	chuckv	3161
145			//LennardJones
146			// sigma epsilon
147	chuckv	3409	Au CH3 LennardJones 3.54 0.2146
148			Au CH2 LennardJones 3.54 0.1749
149	chuckv	3407	Au S LennardJones 4.45 9.180
150	chuckv	3161
151			//Shifted Morse
152			// r0 D0 beta0
153	chuckv	3356	Au O_SPCE ShiftedMorse 3.70 0.0424 0.769
154	chuckv	3161
155			//Repulsive Morse
156			// r0 D0 beta0
157	chuckv	3356	Au H_SPCE RepulsiveMorse -1.00 0.00850 0.769
158	chuckv	3161
159
160			end MetalNonMetalInteractions
161
162
163	chuckv	3156	begin ChargeAtomTypes
164			// Name charge
165			O_TIP3P -0.834
166			O_SPCE -0.8476
167			O_SPC -0.82
168			H_TIP3P 0.417
169			H_TIP4P 0.520
170			H_TIP4P-Ew 0.52422
171			H_TIP5P 0.241
172			H_SPCE 0.4238
173			H_SPC 0.42
174			EP_TIP4P -1.040
175			EP_TIP4P-Ew -1.04844
176			EP_TIP5P -0.241
177			end ChargeAtomTypes
178
179			begin MultipoleAtomTypes
180			// OOPSE currently only supports charge-charge, charge-dipole,
181			// dipole-dipole, and charge-quadrupole interactions.
182			// Dipoles may be either traditional point-dipoles or split-dipoles.
183			// possible formats for a multipolar atom type are:
184			//
185			// Point-dipoles:
186			// name d phi theta psi dipole_moment
187			//
188			// Split-dipoles:
189			// name s phi theta psi dipole_moment splitdipole_distance
190			//
191			// Point-Quadrupoles:
192			// name q phi theta psi Qxx Qyy Qzz
193			//
194			// Atoms with both dipole and quadrupole moments:
195			// name dq phi theta psi dipole_moment Qxx Qyy Qzz
196			//
197			// Atoms with both split dipoles and quadrupole moments:
198			// name sq phi theta psi dipole_moment splitdipole_distance Qxx Qyy Qzz
199			//
200			// Euler angles are given in zxz convention in units of degrees.
201			//
202			// Charges are given in units of electrons.
203			//
204			// Dipoles are given in units of Debyes.
205			//
206			// Split dipole distances are given in units of Angstroms.
207			//
208			// Quadrupole moments are given in units of 10^-26 esu cm^2 (also known as an
209			// esu centi-barn)
210			//
211			SSD_E dq 0.0 0.0 0.0 2.42 -1.682 1.762 -0.08
212			SSD_RF dq 0.0 0.0 0.0 2.48 -1.682 1.762 -0.08
213			SSD dq 0.0 0.0 0.0 2.35 -1.682 1.762 -0.08
214			SSD1 dq 0.0 0.0 0.0 2.35 -1.682 1.762 -0.08
215			end MultipoleAtomTypes
216
217			begin StickyAtomTypes
218			//name w0 v0 (kcal/mol) v0p rl (Ang) ru rlp rup
219			SSD_E 0.07715 3.90 3.90 2.40 3.80 2.75 3.35
220			SSD_RF 0.07715 3.90 3.90 2.40 3.80 2.75 3.35
221			SSD 0.07715 3.7284 3.7284 2.75 3.35 2.75 4.0
222			SSD1 0.07715 3.6613 3.6613 2.75 3.35 2.75 4.0
223			end StickyAtomTypes
224
225
226			begin BondTypes
227
228			//Atom1 Atom2 Fixed
229			//V_Fixed = 0
230
231			//Atom1 Atom2 Harmonic b0 Kb (kcal/mol)
232			//V_Harmonic = 0.5*Kb(b- bo)^2
233			//Harmonic Examples
234			CH3 CH3 Harmonic 1.526 260
235			CH3 CH2 Harmonic 1.526 260
236			CH3 CH Harmonic 1.526 260
237			CH2 CH2 Harmonic 1.526 260
238			CH2 CH Harmonic 1.526 260
239			CH CH Harmonic 1.526 260
240	kfletche	3411	// fix the Kb for the thiol below:
241	chuckv	3412	S CH2 Harmonic 1.82 281
242	chuckv	3156
243			//Atom1 Atom2 Cubic b0 K3 K2 K1 K0
244			//V_Cubic = K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0
245
246
247			//Atom1 Atom2 Quartic b0 K4 K3 K2 K1 K0
248			//V_Quartic = K4(b - b0)^4 + K3(b - b0)^3 + K2(b - b0)^2 + K1(b - b0) + K0
249
250
251			//Atom1 Atom2 Polynomial b0 i Ki [j Kj]
252			//V_Quartic = Ki(b - b0)^i + Kj(b - b0)^j + ...
253
254
255			end BondTypes
256
257			begin BendTypes
258
259			//Harmonic
260			//Atom1 Atom2 Atom3 Harmonic Theta0 Ktheta
261			//V_Harmonic = 0.5*Ktheta(Theta - Theta0)^2
262			//Ktheta: kcal/mole/rad**2
263			//Theta0: degrees
264			//Harmonic examples
265			//
266			CH3 CH2 CH3 Harmonic 114.0 117.68
267			CH3 CH2 CH2 Harmonic 114.0 117.68
268			CH3 CH2 CH Harmonic 114.0 117.68
269			CH3 CH CH3 Harmonic 112.0 117.68
270			CH3 CH CH2 Harmonic 112.0 117.68
271			CH3 CH CH Harmonic 112.0 117.68
272			CH2 CH2 CH2 Harmonic 114.0 117.68
273			CH2 CH2 CH Harmonic 114.0 117.68
274			CH2 CH CH2 Harmonic 112.0 117.68
275			CH2 CH CH Harmonic 112.0 117.68
276			CH CH2 CH Harmonic 114.0 117.68
277			CH CH CH Harmonic 112.0 117.68
278	chuckv	3410	S CH2 CH2 Harmonic 114.0 117.68
279	chuckv	3156
280
281			//UreyBradley
282			//Atom1 Atom2 Atom3 UreyBradley Theta0 Ktheta S0 Kub
283			//V_UreyBradleyBend = Ktheta(Theta - Theta0)^2 + Kub(S - S0)^2
284			//Ktheta: kcal/mole/rad**2
285			//Theta0: degrees
286			//Kub: kcal/mole/A**2
287			//S0: A
288
289			//Cubic
290			//Atom1 Atom2 Atom3 Cubic Theta0 K3 K2 K1 K0
291			//V_Cubic = K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0
292
293			//Quartic
294			//Atom1 Atom2 Atom3 Quartic Theta0 K4 K3 K2 K1 K0
295			//V_Quartic = K4(Theta - Theta0)^4 + K3(Theta - Theta0)^3 + K2(Theta - Theta0)^2 + K1(Theta - Theta0) + K0
296
297			//Polynomial
298			//Atom1 Atom2 Atom3 Polynomial Theta0 i Ki [j Kj]
299			//V_Polynomial = Ki(Theta - Theta0)^i + Kj(Theta - Theta0)^j + ...
300
301			end BendTypes
302
303			begin TorsionTypes
304
305	kfletche	3411	// All thiol torsions from Kautman and Klein (J. Phys. Chem. 1989, 91, 4994-5001)
306
307	chuckv	3412	//S CH2 CH2 CH3 Polynomial 0 2.218 1 2.905 2 -3.136 3 -0.7313 4 6.272 5 -7.528
308			//S CH2 CH2 CH2 Polynomial 0 2.218 1 2.905 2 -3.136 3 -0.7313 4 6.272 5 -7.528
309			//S CH2 CH2 CH Polynomial 0 2.218 1 2.905 2 -3.136 3 -0.7313 4 6.272 5 -7.528
310			//S CH2 CH2 C Polynomial 0 2.218 1 2.905 2 -3.136 3 -0.7313 4 6.272 5 -7.528
311	kfletche	3411
312			// All type 1 possibilities from Dubbeldam et al. (J. Phys. Chem. B 2004, 108, 12301-12313)
313
314	chuckv	3412	//CH3 CH2 CH2 CH3 Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
315			//CH3 CH2 CH2 CH2 Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
316			//CH3 CH2 CH2 CH Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
317			//CH3 CH2 CH2 C Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
318			//CH2 CH2 CH2 CH2 Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
319			//CH2 CH2 CH2 CH Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
320			//CH2 CH2 CH2 C Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
321			//CH CH2 CH2 CH Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
322			//CH CH2 CH2 C Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
323			//C CH2 CH2 C Polynomial 0 2.3939 1 3.871 2 -0.7111 3 -3.864 4 1.4222 5 -3.111
324	kfletche	3411
325			// All type 2 possibilities:
326
327	chuckv	3412	//H CH CH2 CH3 Polynomial 0 2.7167 1 8.665 2 0.82669 3 -12.92 4 -1.653 5 3.2712
328			//H CH CH2 CH2 Polynomial 0 2.7161 1 8.665 2 0.82669 3 -12.92 4 -1.653 5 3.2712
329			//H CH CH2 CH Polynomial 0 2.7161 1 8.665 2 0.82669 3 -12.92 4 -1.653 5 3.2712
330			//H CH CH2 C Polynomial 0 2.7161 1 8.665 2 0.82669 3 -12.92 4 -1.653 5 3.2712
331	kfletche	3411
332			// All type 3 possibilities:
333
334	chuckv	3412	//CH3 C CH2 CH3 Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
335			//CH3 C CH2 CH2 Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
336			//CH3 C CH2 CH Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
337			//CH3 C CH2 C Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
338			//CH2 C CH2 CH2 Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
339			//CH2 C CH2 CH Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
340			//CH2 C CH2 C Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
341			//CH C CH2 CH Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
342			//CH C CH2 C Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
343			//C C CH2 C Polynomial 0 2.5701 1 7.710 2 0 3 -10.29 4 0 5 0
344	kfletche	3411
345			// All type 4 possibilities:
346
347	chuckv	3412	//CH3 C C CH3 Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
348			//CH3 C C CH2 Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
349			//CH3 C C CH Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
350			//CH3 C C C Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
351			//CH2 C C CH2 Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
352			//CH2 C C CH Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
353			//CH2 C C C Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
354			//CH C C CH Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
355			//CH C C C Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
356			//C C C C Polynomial 0 4.0652 1 12.20 2 0 3 -16.26 4 0 5 0
357	kfletche	3411
358			//All type 5 possibilities:
359
360	chuckv	3412	//CH3 C CH H Polynomial 0 3.1301 1 9.390 2 0 3 -12.52 4 0 5 0
361			//CH2 C CH H Polynomial 0 3.1301 1 9.390 2 0 3 -12.52 4 0 5 0
362			//CH C CH H Polynomial 0 3.1301 1 9.390 2 0 3 -12.52 4 0 5 0
363			//C C CH H Polynomial 0 3.1301 1 9.390 2 0 3 -12.52 4 0 5 0
364	kfletche	3411
365			//All type 6 possibilities:
366
367	chuckv	3412	//H CH CH H Polynomial 0 2.1706 1 5.609 2 -1.804 3 -5.976 4 3.6089 5 -3.6089
368	kfletche	3411
369	chuckv	3156	//Cubic
370			//Atom1 Atom2 Atom3 Atom4 Cubic k3 k2 k1 k0 ( all are kcal/mol )
371			//V_Cubic = k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0
372			//Cubic Examples
373	chuckv	3412	CH3 CH2 CH2 CH3 Cubic 5.9602 -0.2568 -3.802 2.1586
374			CH3 CH2 CH CH3 Cubic 3.3254 -0.4215 -1.686 1.1661
375			CH3 CH CH CH3 Cubic 3.3254 -0.4215 -1.686 1.1661
376			CH3 CH2 CH2 CH2 Cubic 5.9602 -0.2568 -3.802 2.1586
377			CH3 CH2 CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
378			CH3 CH CH2 CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
379			CH3 CH CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
380			CH3 CH2 CH2 CH Cubic 5.9602 -0.2568 -3.802 2.1586
381			CH3 CH2 CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
382			CH3 CH CH2 CH Cubic 3.3254 -0.4215 -1.686 1.1661
383			CH3 CH CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
384			CH2 CH2 CH2 CH2 Cubic 5.9602 -0.2568 -3.802 2.1586
385			CH2 CH2 CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
386			CH2 CH CH CH2 Cubic 3.3254 -0.4215 -1.686 1.1661
387			CH2 CH2 CH2 CH Cubic 5.9602 -0.2568 -3.802 2.1586
388			CH2 CH2 CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
389			CH2 CH CH2 CH Cubic 3.3254 -0.4215 -1.686 1.1661
390			CH2 CH CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
391			CH CH2 CH2 CH Cubic 5.9602 -0.2568 -3.802 2.1586
392			CH CH2 CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
393			CH CH CH CH Cubic 3.3254 -0.4215 -1.686 1.1661
394			S CH2 CH2 CH2 Cubic 5.9602 -0.2568 -3.802 2.1586
395	chuckv	3156
396	chuckv	3412	//Opls
397	gezelter	3413	//Atom1 Atom2 Atom3 Atom4 Opls v1 v2 v3
398			//V_Opls = v1 / 2 * [1 + cos(phi)] + v2 / 2 * [1 - cos(2phi)] + v3 / 2 [1 + cos(3*phi)]
399	chuckv	3412	//units for v_n: kcal / mol
400
401	gezelter	3413	//Trappe
402			//Atom1 Atom2 Atom3 Atom4 Trappe c0 c1 c2 c3
403			//V_Opls = c0 + c1 * [1 + cos(phi)] + c2 * [1 - cos(2phi)] + c3 [1 + cos(3*phi)]
404			//units for c_n: kcal / mol
405	chuckv	3412
406	chuckv	3156	//Charmm
407			//Atom1 Atom2 Atom3 Atom4 Charmm Kchi n delta [Kchi n delta]
408			//V_Charmm = Kchi(1 + cos(n(chi) - delta))
409			//Kchi: kcal/mole
410			//n: multiplicity
411			//delta: degrees
412			//in some cases, a Charmm may have two or three terms. If n is equal to 0, it falls back to harmonic form
413
414			//Quartic
415			//Atom1 Atom2 Atom3 Atom4 Quartic k4 k3 k2 k1 k0 ( all are kcal/mol )
416			//V_Quartic = k4(cos phi)^4 + k3(cos phi)^3 + k2(cos phi)^2 + k1(cos phi) + k0
417
418			//Polynomial
419			//Atom1 Atom2 Atom3 Atom4 Polynomial i Ki [j Kj]
420			//VPolynomial = Ki (cos phi)^i + ... + Kj (cos phi)^j
421
422			end TorsionTypes
423
424