Here I added the rotation method for you
function Nano_Sphere_Dat_Generator
clear
clc
clf
%set value of geometric parameters
a=0.0;
b=0.0;
c=1000;
plate_length=30000;
plate_width=1000;
pos_CNN=10000;
channel_length=100000;
channel_width=60000;
upstream_dist=30000;
CNN_width=0.001;
%create the outer boundary
p1(1)=a-upstream_dist;
p1(2)=-channel_width/2;
p2(1)=a-upstream_dist+channel_length;
p2(2)=-channel_width/2;
p3(1)=a-upstream_dist+channel_length;
p3(2)=channel_width/2;
p4(1)=a-upstream_dist;
p4(2)=channel_width/2;
plot([p1(1),p2(1),p3(1), p4(1), p1(1)],[p1(2),p2(2),p3(2),p4(2),p1(2)],'r-')
hold on
axis equal
%create the plate geometry
p5(1)=a;
p5(2)=b;
p6(1)=a+pos_CNN;
p6(2)=b;
p7(1)=a+pos_CNN+CNN_width;
p7(2)=b;
p8(1)=a+plate_length;
p8(2)=b;
p9(1)=a+plate_length;
p9(2)=b-plate_width;
p10(1)=a;
p10(2)=b-plate_width;
% Here is how to rotate
x = [p5(1),p6(1) p7(1) p8(1) p9(1) p10(1)];
y = [p5(2),p6(2) p7(2) p8(2) p9(2) p10(2)];
xr = x - p1(1);
yr = y - p1(2);
theta = 45 * pi /180; % rotate with 45 degrees
xrot = xr*cos(theta) - yr*sin(theta) + p1(1);
yrot = xr*sin(theta) + yr*cos(theta) + p1(2);
scatter(x,y,'g'); % before rotation
scatter(xrot,yrot,'c'); % scatter the points after rotate
legend('plate boundary', 'before rotation','after rotation')
The figure becomes
