I've had to do this a lot (I write file parsers and some file formats like NITF require you to store numeric values as strings).
What you do is an exploit based on what base-10 math (scientific notation) really means: It means that for all real numbers y, y = (x) * 10^(N) for some integer N and some x in the range (-1, 1) exclusive.
So, you do the following
void PrintScientific(double d)
int exponent = (int)floor(log10( fabs(d))); // This will round down the exponent
int base = d * pow(10, -1.0*exponent);
printf("%lfE%+01d", base, exponent);
You can add all the format specifiers you need to control the # of chars before, after the "." decimal place.
Do NOT forget the rounding step! This is how it works, using the properties of base10 and logarithms (base 10 here):
Let y = x * 10^N =>
log(y) = log(x*10^N) =>
log(y) = log(x) + log(10^N) => // From Log "product" rule
log(y) = log(x) + N
Since x is in the range (-10, 10) -"()" means exclusive(exclusive), that implies log(x) is in the range (-1, 1). So when we round down for integer conversion, we're dropping "log(x)" contribution.
You can then get the "x" portion from the original number, which lets you output the original in any scientific notation you want to use.